From fdf79db9abf3f82a6a6045e44cdefed8ab4d58a7 Mon Sep 17 00:00:00 2001 From: Dom Heinzeller Date: Tue, 17 Mar 2020 15:39:06 -0600 Subject: [PATCH] Squashed commit of the following: commit 107b22d297a203dbf24e7f161b24d5a180ff9f3b Merge: 43e0e38 73f9f09 Author: Dustin Swales Date: Thu Mar 5 21:07:31 2020 +0000 Merge branch 'dtc/develop' of https://github.com/NCAR/ccpp-physics into rrtmgp-dev2 commit 43e0e38d9553742aa681e34213cc2cdfbd3bca4e Author: Dustin Swales Date: Thu Feb 27 15:49:56 2020 -0700 Try adding many mpi_barrier commands commit 36de8f56671b03217d14853745219ef611732384 Author: Dustin Swales Date: Thu Feb 27 13:55:27 2020 -0700 Added mpi_bast commands back in commit 75fdb61479ae836bb81795438436a6a58f9fbd6f Author: Dustin Swales Date: Wed Feb 19 15:16:15 2020 -0700 Reverted some changes commit 93ae6cba0133ca8b990ff8314aa40e70f708ac55 Author: Dustin Swales Date: Wed Feb 19 14:59:09 2020 -0700 Removed deprecated files. commit 0e954b799ca362b748093b2a601a2c090ca98269 Author: Dustin Swales Date: Wed Feb 19 14:57:25 2020 -0700 Removed my login credential from .gitmodules. commit 244d3efadedf9aee74787ea4374069c96ddb43e5 Author: Dustin Swales Date: Wed Feb 19 14:54:07 2020 -0700 Reverted some changes. commit e201f0846c163420136ff90114a53079dda1d00f Author: Dustin Swales Date: Wed Feb 19 10:25:45 2020 -0700 Cleaned up rrtmgp_lw_pre.F90 commit 1d92cfaff0dba748ad8005dcd4c579111035a2e9 Author: Dustin Swales Date: Tue Feb 18 15:54:04 2020 -0700 Reverted changes to GFS_rrtmgp_sw_pre.F90 commit b57ebfd04e71bd5edcfe2b5cccda4f28b8f0d6eb Author: Dustin Swales Date: Tue Feb 18 14:49:30 2020 -0700 Revert earleir change. commit ab6c12eb92075fbaa7bb0babee68b1326385ed23 Author: Dustin Swales Date: Tue Feb 18 14:23:43 2020 -0700 Switch back hprime to hprime(:,1) commit 12acbb019ce7b9e40e1fd70e6a738e994024e74f Merge: c5ba6f9 6d55230 Author: Dustin Swales Date: Tue Feb 18 14:05:21 2020 -0700 Merge branch 'rrtmgp-dev2' of https://github.com/dustinswales/ccpp-physics into rrtmgp-dev2-no-mpi_bcast commit 6d552308db8258e843f56ff33339b57c2a94efab Author: Dustin Swales Date: Tue Feb 18 14:04:49 2020 -0700 Chnaged intent of lw_cloud_optical_props commit a3cd7db3a278d2ab0ad787a608ad3d4cc73e5c76 Author: Dustin Swales Date: Tue Feb 18 13:32:51 2020 -0700 Remove using gas switches. commit c5ba6f942f01088f8b2a9d822b7b2163563bd558 Author: Dustin Swales Date: Tue Feb 18 13:31:15 2020 -0700 Remove using gas switches. commit c47706ba033e72f20c97d482e91a80856367f587 Author: Dustin Swales Date: Tue Feb 18 12:25:32 2020 -0700 changed variable name. commit 723f74014151b9a7d8b5d34fd67e9ddb3e19d0db Merge: 596229b c1bf1ae Author: Dustin Swales Date: Tue Feb 18 11:58:18 2020 -0700 Merge branch 'rrtmgp-dev2' of https://github.com/dustinswales/ccpp-physics into rrtmgp-dev2-no-mpi_bcast commit c1bf1ae02bde5a0462dc0b5614f8acb1d88fefaf Author: Dustin Swales Date: Tue Feb 18 11:57:44 2020 -0700 Try using 1D hprime commit 596229bac3c1b0c71aef0a4f8a2afd9c16a96436 Merge: 9c682fc c984e90 Author: Dustin Swales Date: Fri Feb 14 16:56:36 2020 -0700 Merge branch 'rrtmgp-dev2' of https://github.com/dustinswales/ccpp-physics into rrtmgp-dev2-no-mpi_bcast commit c984e907306502fa109d514b64031102102ae512 Author: Dustin Swales Date: Fri Feb 14 16:54:38 2020 -0700 Cleaned up a tad. commit 9c682fc7ee703eb9e801bd264899f72cdde1bd01 Merge: c2eb222 54a38d9 Author: Dustin Swales Date: Wed Feb 12 10:45:23 2020 -0700 Merge branch 'rrtmgp-dev2' of https://github.com/dustinswales/ccpp-physics into rrtmgp-dev2-no-mpi_bcast commit 54a38d99cc46599bac0df04478865c1a287b48b2 Author: Dustin Swales Date: Wed Feb 12 10:43:24 2020 -0700 Removed cloud-fraction rounding. Was using for debugging purposes. commit b1e111fc0fe4ecb7c854dd538ae36f15c67af44a Author: Dustin Swales Date: Wed Feb 12 10:39:01 2020 -0700 Reverted recent change. commit 6473891e32fa5aca404c61e1fec6ca9d4744bb52 Author: Dustin Swales Date: Wed Feb 12 09:48:51 2020 -0700 Reverted some local changes. commit 8d42056e8e14713d8b76412138568538f6aacd9e Merge: 75c479d 01ed01f Author: Dustin Swales Date: Wed Feb 12 09:29:47 2020 -0700 Merge branch 'master' of https://github.com/NCAR/ccpp-physics into rrtmgp-dev2 commit c2eb222ed073ae53c24d15d71a92ef12dde41fc8 Merge: 3aa8cd4 75c479d Author: Dustin Swales Date: Tue Feb 11 15:16:01 2020 -0700 Merge branch 'rrtmgp-dev2' of https://github.com/dustinswales/ccpp-physics into rrtmgp-dev2-no-mpi_bcast Conflicts: physics/rrtmgp_lw_cloud_optics.F90 physics/rrtmgp_sw_cloud_optics.F90 commit 75c479d4f3c8e99649ed8ab8e8d83892eaf72592 Author: Dustin Swales Date: Tue Feb 11 15:13:34 2020 -0700 Updated interface to rte-rrtmgp routines. commit 30b523724d8339de8c4ef2a98e778e0c878b494e Author: Dustin Swales Date: Tue Feb 11 11:09:46 2020 -0700 Updated submodule commit 3aa8cd4f38897c95f2fef5bff1fbc930ce0bba41 Author: Dustin Swales Date: Tue Feb 11 11:08:25 2020 -0700 Updated submodule commit c1cec1142babd2d549858346df9fccd7ff13320e Author: Dustin Swales Date: Tue Feb 11 10:57:40 2020 -0700 Switched to rte-rrtmgp dtc/branch. commit 3491dcdf52b32dd066a2d17bf145630a26bdf994 Author: Dustin Swales Date: Tue Feb 11 10:55:46 2020 -0700 Switched to rte-rrtmgp dtc/branch. commit b67bc2db8adb1e7252d0c2b3ad14ef5bc242b790 Author: Dustin Swales Date: Mon Feb 10 16:34:52 2020 -0700 Removed mpi calls during initialization. Reading data ona ll processors. Started from 3dfb4c9b21a9ac44e304ef8a593d1fa88846d49a commit 3dfb4c9b21a9ac44e304ef8a593d1fa88846d49a Author: Dustin Swales Date: Mon Feb 10 16:27:32 2020 -0700 Cleaned up _init routines. commit d3517899d5f0684c2c15f039c439cb5a31b4657e Author: Dustin Swales Date: Thu Jan 30 15:47:43 2020 -0700 Move allocation statement into master processor only. commit e7c6c8ec9b84b9b773463333f711f867cfe22c27 Author: Dustin Swales Date: Thu Jan 30 15:24:37 2020 -0700 Try different broadcast call for character arrays. commit be43ed8319d25de7f9146bfde679a7c32250df8c Author: Dustin Swales Date: Thu Jan 30 14:46:01 2020 -0700 Added a second mpi barrier. commit 33158c7f80cec30c72d6cc169ce39550500de278 Author: Dustin Swales Date: Thu Jan 30 14:09:54 2020 -0700 Added mpi barrier. communicator working, i think. commit 3e79d0279453ef0c007461c13dfe7cc8690c6379 Author: Dustin Swales Date: Thu Jan 30 13:27:36 2020 -0700 Move allocation statements. commit 09b3c3b78a6f492934f91b504366a8167d5df44a Author: Dustin Swales Date: Tue Jan 28 14:09:37 2020 -0700 Added print statements to Thompson init routines. commit ab612f4b312c830de0b5abdc9d63d49b2f9f3f8d Author: Dustin Swales Date: Tue Jan 28 12:44:25 2020 -0700 More diagnostic print statements. commit af24b718d61526ce5a3836d835a9b953ed979d89 Author: Dustin Swales Date: Tue Jan 28 12:03:10 2020 -0700 Added some diagnostic print statements. Remvoe barrier commands. commit e40e0f500db5e63cd458acb9333c72a98f7645ad Author: Dustin Swales Date: Tue Jan 28 11:40:53 2020 -0700 Added some diagnostic print statements. commit d42469b35632eed39692f1132c874dab6468ab1e Author: Dustin Swales Date: Tue Jan 28 11:12:32 2020 -0700 Change data type to double-precision. commit 28269a94fcb85ebbfc1c9678b7b93c69642a4ed8 Author: Dustin Swales Date: Tue Jan 28 10:35:04 2020 -0700 Modification to LW gas optics init(). One more time. commit c5ce144525abb51605c204b125db1496c5ef983d Author: Dustin Swales Date: Tue Jan 28 10:05:25 2020 -0700 Modification to LW gas optics init(). Add mpi_barrier commit f6c4e82fea3adb58eb843b3fa502f44a7734e19c Author: Dustin Swales Date: Tue Jan 28 09:33:50 2020 -0700 Modification to LW gas optics init(). commit f38ef59b00f4b18504bbf9ef68542d1074027cff Author: Dustin Swales Date: Mon Jan 27 16:26:39 2020 -0700 Some changes to MPI calls in inti() routines. commit bb03ad3fed2fb904d517d8f13f8d9989f8dab879 Author: Dustin Swales Date: Mon Jan 27 15:47:19 2020 -0700 Omission from previous commit. commit 28243f13ba5d9766a0b2c01d2de08de47502bbb3 Author: Dustin Swales Date: Mon Jan 27 15:25:20 2020 -0700 Remove bcast condition on precision. commit 01725b47395eff38951691d621ea49ec825f21b8 Author: Dustin Swales Date: Mon Jan 27 14:48:48 2020 -0700 Omission from previous commit. commit c0aab421b1c50f0d9de5a05c2653977b732d38d1 Author: Dustin Swales Date: Mon Jan 27 14:18:20 2020 -0700 Some changes to MPI calls in inti() routines. New grouping. commit fbb009f595f3a686523ed19af6daae868b9c9322 Author: Dustin Swales Date: Mon Jan 27 12:36:55 2020 -0700 Some changes to MPI calls in inti() routines. Again and again... commit 6e0c346cbe12c682b6273843d72ecc4081240088 Author: Dustin Swales Date: Mon Jan 27 11:01:50 2020 -0700 Some changes to MPI calls in inti() routines. Again... commit 0992def87d74fa13c41e6bf2e28335e021451129 Author: Dustin Swales Date: Mon Jan 27 10:21:38 2020 -0700 Some changes to MPI calls in inti() routines. commit dd9d5ce39a82abd336f1b2a27bce06dc949cbb9f Author: Dustin Swales Date: Tue Jan 21 15:54:36 2020 -0700 Removed diagnostic print statements. commit 320907ff03f5545a3825fb50efbfff803d1eb14b Author: Dustin Swales Date: Tue Jan 21 15:43:21 2020 -0700 Bug fix. commit 64691a6e755b3286f6b49518e99a64831f2459bd Author: Dustin Swales Date: Tue Jan 14 10:54:02 2020 -0700 Added by-band lw fluxes to diagnostic output. New namelist parameter for RRTMGP: number of gaussian angles for quadrature calculation. commit 6c8ecdd910d935a526ac430405ec914b1491aa0a Author: Dustin Swales Date: Mon Jan 13 12:49:13 2020 -0700 Try overwriting cloud optical depth in bands1-2. commit 5812151340d1263f1a7e0372dc5fb3b1c816e35c Author: Dustin Swales Date: Tue Jan 7 11:21:44 2020 -0700 Added some more diagnostics. commit 203cd4ac6d3d4b0d92e9f558bd13611a3e2ccbf4 Author: Dustin Swales Date: Tue Jan 7 10:08:21 2020 -0700 Needed to add MPI commands to open diagnostic output file. commit b6792036ac56e939121e049a8c11e3658a3e4492 Author: Dustin Swales Date: Mon Jan 6 14:40:49 2020 -0700 Fixed error in previous commit. commit 04ad9ed3a5f08f9f9b8c3888a73184a5b11c1e60 Author: Dustin Swales Date: Mon Jan 6 13:40:06 2020 -0700 Added longitude/latitude to output stream. Needed to sort through MPI output. commit 5542acaf51a9460fab4723c20622bb6f97853656 Author: Dustin Swales Date: Mon Jan 6 11:22:38 2020 -0700 Added diagnostics for LW clouds. commit ec093b215fa3f60f0032f3b2bb311e0b75a83b29 Author: Dustin Swales Date: Fri Jan 3 14:58:39 2020 -0700 Reverted some recent changes. commit 323e6f992c3ccb750b6fea1762d0a2e0a270fcc7 Author: Dustin Swales Date: Fri Jan 3 14:17:52 2020 -0700 Added number_of_gaussian angles to LW calculation. commit a564c8b379708caa55a7484038574fc5b1245838 Author: Dustin Swales Date: Thu Jan 2 12:02:56 2020 -0700 Moved aggregation into conditional loop. LW only. commit 2e161eba6e74476729385177e4ebb02ae2491a8c Author: Dustin Swales Date: Tue Dec 31 11:34:47 2019 -0700 Moved GFS_rrtmgp_lw_pre.F90 to rrtmgp_lw_pre.F90 commit edcb6726a9e223fd55f472f0e3d7649331c266d0 Author: Dustin Swales Date: Tue Dec 31 08:47:37 2019 -0700 Added diffusivity angle adjustment to LW. commit 28bea10e6c892d020c19604973de5203d9658fb4 Author: Dustin Swales Date: Thu Dec 19 16:00:00 2019 -0700 Removed diagnostic cloud outputs. commit b2d42f39cd3a6e5564219ca68be7604c2ad81f46 Author: Dustin Swales Date: Thu Dec 19 14:20:35 2019 -0700 Fix rounding error in G cloud-sampling test. Add diagnostics for cloud microphysics commit 4d3515dcda2f0b16c0ef7528e6760fa29bbbb343 Author: Dustin Swales Date: Tue Dec 17 11:08:09 2019 -0700 Round cloud-fractions to avoid McICA sampling error. In RRTMG as well. commit 5b02c9eb3fd929be59e1ca65451e1a1a74292dda Author: Dustin Swales Date: Tue Dec 17 10:18:24 2019 -0700 Round cloud-fractions to avoid McICA sampling error. commit e30305d8b7d87d4193c3a7049e4709aa5f97b744 Author: Dustin Swales Date: Mon Dec 16 15:53:19 2019 -0700 Fixed error in .meta file. commit 1526e7dcb457d05adc789c2f7a7c3a135f853d9f Author: Dustin Swales Date: Mon Dec 16 14:10:54 2019 -0700 Treat surface albedo exactly as in RRTMG. For SW bands 1-9, use nIR; For band 10, use average of nIR and uvVIS; For bands 11-24, use uvVIS. commit e105f48a986fdca2cc6b55e57d3c0dda4ae8bfbc Author: Dustin Swales Date: Mon Dec 16 13:50:35 2019 -0700 Revert "Delta-scale SW before incrementing aerosol optics." This reverts commit 122a750b58724330e244bb9814f0f66a7b22502d. commit 81abe37aba9e22ba3fae072b045dab715b7e8851 Author: Dustin Swales Date: Mon Dec 16 13:50:10 2019 -0700 Revert "Revert "Removed MPI for testing in UFS."" This reverts commit 8c5ead8cb39979350ab71e9a0b0ee22510e447eb. commit 8c5ead8cb39979350ab71e9a0b0ee22510e447eb Author: Dustin Swales Date: Mon Dec 16 13:48:41 2019 -0700 Revert "Removed MPI for testing in UFS." This reverts commit 4dcb001d753b0515dd0163dc02fff271380698b2. commit 122a750b58724330e244bb9814f0f66a7b22502d Author: Dustin Swales Date: Mon Dec 16 12:29:31 2019 -0700 Delta-scale SW before incrementing aerosol optics. commit 4dcb001d753b0515dd0163dc02fff271380698b2 Author: Dustin Swales Date: Mon Dec 16 11:56:21 2019 -0700 Removed MPI for testing in UFS. commit 86a24827b1a8d92b766a8fe422c401d4891ae19b Author: Dustin Swales Date: Mon Dec 16 11:04:06 2019 -0700 Fixed MPI calls in lw cloud optics. commit 8c46c345e8cfa24a5adc5708cad80392c62c6023 Author: Dustin Swales Date: Fri Dec 13 15:10:42 2019 -0700 Some more cleanup and documenting. Added initialization routine for cloud-sampling routines. commit 0ea0a12bae5e469095635c03e893a7135cf33967 Author: Dustin Swales Date: Fri Dec 13 13:44:15 2019 -0700 Turned MPI on for rrtmgp gas-optics, omission from last commit. commit 9ec9667452f6090c5fafc6ad8668e7bcfd011029 Author: Dustin Swales Date: Fri Dec 13 13:05:16 2019 -0700 Turned MPI on for rrtmgp gas-optics commit 1943d14264ac1623bd219a03b87ccc1f79297075 Author: Dustin Swales Date: Fri Dec 13 09:53:55 2019 -0700 Removed all instances of GFS derived data types from rrtmgp scheme level code. commit def30ce6634e68ccfc8e6e188f11b748e7fb6fb1 Author: Dustin Swales Date: Thu Dec 12 17:09:10 2019 -0700 Started removing GFS DDTs from RRTMGP scheme. commit 9a47ad3fe56cdc479d644df6f1d8a9dc51a468c9 Author: Dustin Swales Date: Thu Dec 12 14:19:48 2019 -0700 Added aerosol and cloud-sampling schemes. commit 9bd2dbb122546d1367e286b4c500e1f9ced702f4 Author: Dustin Swales Date: Wed Dec 11 16:07:46 2019 -0700 Express layer-thinkness in meters? commit ddebe4554926ddae4f74b406b5e743f400b63a49 Author: Dustin Swales Date: Wed Dec 11 14:33:40 2019 -0700 Alebdos (nIR and uvvis) are being averaged in rrtmg, did same in rrtmgp. Sneaky commit ac6d7a5cc33ecc8e04727ccc54a519649e6ce991 Author: Dustin Swales Date: Wed Dec 11 10:38:43 2019 -0700 Moved some interstitial firelds out of GFS_interstitial_type into flat fields. commit b16c6c76f4db31453ecf621e66211d33d37f0d8d Author: Dustin Swales Date: Wed Dec 11 09:19:43 2019 -0700 Removed MPI calls. commit 6cdd545a425f717a1fed528eaef31c48509f2dcb Author: Dustin Swales Date: Tue Dec 10 15:25:31 2019 -0700 Try calling mpi_barrier just before gas_optics%load commit a59b8981e618851303fe224ea8d803a14b101e64 Author: Dustin Swales Date: Tue Dec 10 14:46:50 2019 -0700 Added some print statements commit 92817d25049588af50f7c750e80af3885d9c0698 Author: Dustin Swales Date: Tue Dec 10 13:56:38 2019 -0700 Removed mpi calls in lw gas optics. Test reading in data on all processors. commit dcb8e4643479ef2d6c7c8427e1cc171a1ac1d69e Author: Dustin Swales Date: Tue Dec 10 11:05:25 2019 -0700 Add print statements, check LW optical-depth on all processors. commit 782ecb0bfff3f97736c2c5a4c8676f8afb9d718a Author: Dustin Swales Date: Tue Dec 10 10:12:41 2019 -0700 Reverted broadcast call for scalars commit 25974eb2fb2a0de4f5935d3bd862da353cc9c618 Author: Dustin Swales Date: Tue Dec 10 09:49:32 2019 -0700 Cleaned up, added some diagnostics to test MPI in UFS. commit 229ca5905567b6ee3224be17db89ab054d881ec8 Author: Dustin Swales Date: Mon Dec 9 16:25:31 2019 -0700 Revert to original mpi_bcast for character arrays. commit 0a726fd3c3a46b68ec76eee40bd847b22b8bfef5 Author: Dustin Swales Date: Mon Dec 9 16:02:30 2019 -0700 Try using string length provided in file for broadcsting strings. commit a25d7142c7f200b57e73fe18a091bcb4c4179668 Author: Dustin Swales Date: Mon Dec 9 15:21:43 2019 -0700 Changed MPI_BCAST() for character arrays. commit 72093456eb9f67a8b875100766befeeb6380ae6e Author: Dustin Swales Date: Mon Dec 9 14:34:52 2019 -0700 Add mpi_barrier() calls to all initialization routines commit e858d73db6a8434b502d16b866df0bcb38b849d9 Author: Dustin Swales Date: Mon Dec 9 13:39:57 2019 -0700 Add mpi_barrier() calls to SW gas optics initialization routine commit fbd398f361fc86fd15e053936f567936bf70d70a Author: Dustin Swales Date: Mon Dec 9 12:17:02 2019 -0700 Added ifdef(mpi) around declaration in initialization routines. commit 1bc898da3e2e6628a7551f973ed041b28073a881 Author: Dustin Swales Date: Mon Dec 9 11:56:26 2019 -0700 Added some print statements to diagnose MPI init. commit f471f795b9013ca224319ec94cb027aa7dc91e5b Author: Dustin Swales Date: Mon Dec 9 11:49:32 2019 -0700 Added some print statements to diagnose MPI init. commit 26cc6b1340dd7bec3bf85f79c30ded2faf6a024a Author: Dustin Swales Date: Fri Dec 6 11:00:33 2019 -0700 Cleaned up daytime masking in SW calculation commit e93fc1b647df2d7f2575d76ecc6e09dc6c858396 Author: Dustin Swales Date: Thu Dec 5 15:05:11 2019 -0700 Some housekeeping commit e905e96a10c1d07997f32486daee29545a6049d9 Author: Dustin Swales Date: Thu Dec 5 13:59:49 2019 -0700 Add loop over solar scaling commit 71b6a374f9ee1133576aa3f89a37f0e4248f5b70 Author: Dustin Swales Date: Wed Dec 4 12:43:32 2019 -0700 Change to diagnostic outputs for RRTMGP. commit 993508daad3917ac0d67dc8afa737fe92b6329e8 Merge: f895fc0 10191cd Author: dustinswales Date: Wed Dec 4 09:51:31 2019 -0700 Merge pull request #9 from dustinswales/rrtmgp-dev Created new rrtmgp-dev(2) branch. Something got corrupted. commit 10191cd672f7da36202b5e5b2e29c96c69f6aeca Merge: c62f631 7041bd2 Author: Dustin Swales Date: Tue Dec 3 12:12:55 2019 -0700 Merge branch 'dtc/develop' of https://github.com/NCAR/ccpp-physics into rrtmgp-dev commit c62f6312fb34bd1b9acc27c432403169c8a8efc7 Merge: 2752142 0f796d9 Author: Dustin Swales Date: Tue Dec 3 19:04:48 2019 +0000 Merge branch 'rrtmgp-dev' of https://github.com/dustinswales/ccpp-physics into rrtmgp-dev commit 2752142a09002b57da48c8f21e94e7e1c9a8a0d9 Author: Dustin Swales Date: Tue Dec 3 19:03:57 2019 +0000 Cleaned up a tad. Added some diagnostics for debuggind in SCM. commit 0f796d919bef9d11b65a7797af123eeb1e5d1e63 Merge: d2799f4 904a433 Author: Dustin Swales Date: Wed Nov 20 16:19:04 2019 -0700 Merge branch 'master' of https://github.com/NCAR/ccpp-physics into rrtmgp-dev commit d2799f4f37b60be3b7a3a3ed2ee24d4c93067402 Merge: 50b82a5 a7c38a6 Author: Dustin Swales Date: Wed Nov 20 15:53:00 2019 -0700 Merge branch 'dtc/develop' of https://github.com/NCAR/ccpp-physics into rrtmgp-dev commit 50b82a57dc0b660adf1825f4f5982172c70104ae Author: Dustin Swales Date: Wed Nov 20 10:50:34 2019 -0700 Delta-scaling added to SW calculation. commit 54e00662f4af5abb518cd3b526438258b58dc6b0 Author: Dustin Swales Date: Thu Nov 7 10:59:19 2019 -0700 Added solar constant adjustment factor to incident SW TOA flux. GP SW downward fluxes now agree with baseline G downward fluxes. commit 69bf6216846ea067b81dfea6d7656afd84a5afe1 Merge: b7aa280 59717c5 Author: Dustin Swales Date: Tue Nov 5 12:01:04 2019 -0700 Merge remote branch 'grant-fork/cires_ugwp_namelist_fix' into rrtmgp-dev commit b7aa280e7cfb64b65b5619911eb8d91b4f90049b Merge: b6cc944 78a8ed2 Author: Dustin Swales Date: Tue Nov 5 10:03:44 2019 -0700 Merge branch 'rrtmgp-dev' of https://github.com/dustinswales/ccpp-physics into rrtmgp-dev commit 78a8ed263f43955704f43cdc84f985b4451d074a Author: Dustin Swales Date: Mon Nov 4 23:19:06 2019 +0000 Made some changes. Moved fields into Interstitial type. Results still differ from baseline RRTMG. commit b6cc9448f65c8843b99cb8692303fdeddb076e3f Merge: 1f57f68 fe6c9ae Author: Dustin Swales Date: Fri Nov 1 10:35:35 2019 -0600 Merge branch 'rrtmgp-dev' of https://github.com/dustinswales/ccpp-physics into rrtmgp-dev commit fe6c9aeb5b0cdad9cf3d711c7268e7ee81706698 Author: Dustin Swales Date: Tue Oct 29 14:17:19 2019 +0000 Moved RRTMGP active gases from GFS_radtend_type to GFS_control_type. commit 1f57f6813dcf1aae13175eefe22056ac6712886e Merge: f35effe cfafb29 Author: Dustin Swales Date: Mon Oct 28 11:05:42 2019 -0600 Merge branch 'gmtb/develop' of https://github.com/NCAR/ccpp-physics into rrtmgp-dev commit f35effe345487621f30aeaa9d8f56c09d9344c13 Author: Dustin Swales Date: Fri Oct 25 22:06:21 2019 +0000 Some more changes in MPI commands within initialization commit 6126278f2879e155396c58b31d4c7ad8ffc3a8e7 Author: Dustin Swales Date: Fri Oct 25 17:32:46 2019 +0000 Fixed typo in MPI_BCAST() calls commit 2f23b9322841879cee20e412eedaf1f427ec679b Author: Dustin Swales Date: Thu Oct 17 19:11:05 2019 +0000 Remove deprecated code commit 04bdd4fde2f2d7110982c8e420cba8045bc8f1fd Author: Dustin Swales Date: Thu Oct 17 18:18:28 2019 +0000 Modified calls to radiaiton routines. commit 816ba3f2ab5c86a1524eba9de2c20f76086a2dbe Author: Dustin Swales Date: Wed Oct 16 22:30:12 2019 +0000 Fixed a bug commit 8bb1e85ca50022547a74f54ea01197e364cd8e82 Merge: 0b79698 9d6dd01 Author: Dustin Swales Date: Tue Oct 15 18:19:58 2019 +0000 Synced w/ upstream gmtb/develop commit 0b79698508a943c472340b812e82459e5a07c554 Author: Dustin Swales Date: Wed Oct 9 18:01:33 2019 +0000 Switched rte-rrtmgp submodule bracnh commit ac3006455f9c343f03bc204d10d9ccb08392499b Author: Dustin Swales Date: Wed Oct 9 17:54:02 2019 +0000 updated .gitmodules commit eba4af6bfbae1f1b2d36f140607f099a1ef9cc49 Author: Dustin Swales Date: Wed Oct 9 17:38:22 2019 +0000 Added RRTMGP as submodule commit 209b572774321cb824d8ab136291d64c39276a1d Merge: 87d19cf ecb641e Author: dustinswales Date: Wed Oct 9 11:14:24 2019 -0600 Merge pull request #8 from NCAR/gmtb/develop Sync with upstream Gmtb/develop commit 87d19cf0ceef826dd0336028bcd05a45d367d7e5 Merge: 4520c5d 9d6b208 Author: dustinswales Date: Wed Oct 9 10:57:16 2019 -0600 Merge pull request #7 from dustinswales/master Sync with master commit 9d6b208eae4be79edffbc8db20b737885912c824 Merge: 77bfcc2 ce641c9 Author: dustinswales Date: Wed Oct 9 10:55:46 2019 -0600 Merge pull request #6 from NCAR/master Sync with upstream master commit 4520c5df700ae787183414b23fd21625c9ea1dab Merge: 5ebe4c0 3958a87 Author: Dustin Swales Date: Tue Oct 8 20:15:13 2019 +0000 Merge branch 'rrtmgp-dev' of https://github.com/dustinswales/ccpp-physics into rrtmgp-dev commit 3958a870e7bf851456cfe80ffc8c7ebb7643045b Author: Dustin Swales Date: Mon Oct 7 15:06:55 2019 -0600 Changes were made to use RRTMGP for SW calculation, and RRTMG for the LW calculation. commit 34d5fe1584e8f2fd0f013fb4799e58441473c7e4 Author: Dustin Swales Date: Thu Sep 26 14:22:39 2019 -0600 Working commit e35f1b9c6f653aa18e0dce6c97eb95a8ddb7bc7a Merge: 4b61376 5cb9f93 Author: dustinswales Date: Wed Sep 25 09:17:22 2019 -0600 Merge pull request #5 from grantfirl/ticket_2050 Ticket 2050 fix commit 5cb9f93ff5a9de81fb0a0e937fdc0f10de6bb1ac Author: Grant Firl Date: Tue Sep 24 17:59:06 2019 -0600 change RRTMGP scheme metadata to use instances of DDTs rather than the type definition commit 4b61376adab644be38453bb3cd427b355c2b801e Author: Dustin Swales Date: Tue Sep 24 16:29:48 2019 -0600 Getting closer... commit f5562ee5c658119530b5f90e01c388e6840b499d Author: Dustin Swales Date: Tue Sep 24 09:55:14 2019 -0600 Fixed some bugs in argument tables. commit c668a6aa3b1af6f4858d6017577b347ee0c9185e Author: Dustin Swales Date: Mon Sep 23 10:56:22 2019 -0600 Modified arg_tables. Added .meta files commit 2ead7272da521a06bfb38805f75ffae53b9b72ec Author: Dustin Swales Date: Thu Sep 19 11:54:25 2019 -0600 Update .gitignore commit d6946ed8eccc87a080936da4500ed1bccbce3456 Author: Dustin Swales Date: Thu Sep 19 11:40:36 2019 -0600 Updated rrtmgp external commit fa9b30eaa187236b7366a3c2fb85d30f26c7b8ba Merge: 206a950 77bfcc2 Author: Dustin Swales Date: Thu Sep 19 11:31:35 2019 -0600 Merge branch 'master' into rrtmgp-dev commit 77bfcc2b2c14802a2b0e10df2a1d8c74750e2412 Merge: be12710 12c416a Author: dustinswales Date: Thu Sep 19 11:23:28 2019 -0600 Merge pull request #1 from NCAR/master Sync master branch of local fork with NCAR/ccpp-physics commit 5ebe4c00a7851b6d57a556adc8a2ce2b916cc2ab Merge: 7f8fc0b 243abfc Author: Dustin Swales Date: Mon Jul 1 18:23:43 2019 +0000 Synced w/ NCAR/ccpp-physics:master commit 7f8fc0b7fed7a60b17c48e0ac1d65572b3f43967 Author: Dustin Swales Date: Mon Jul 1 18:13:46 2019 +0000 Correction to MPI calls. commit f7915b9ff0d5ee993ccea474e7389ad5b7e86324 Author: Dustin Swales Date: Thu Jun 27 18:16:17 2019 +0000 Synced with NCAR repo. commit fa055745b654ce70e3be4a6f305d2ab6e02e7527 Author: Dustin Swales Date: Wed Jun 26 21:50:30 2019 +0000 Added rte-rrtmgp repository. commit 206a950623bd562f1aae4cb3d74f062ec4360aa1 Author: Dustin Swales Date: Mon Jun 24 12:17:11 2019 -0600 Added piece for GFDL MP. Not curretnly exercised. commit 0a100cb5d374d175222b8de578bdb0692807ee1c Merge: c445658 be12710 Author: Dustin Swales Date: Thu Jun 20 11:32:45 2019 -0600 Synced w/ master/ commit c445658417197b59c08e4d287a1aa88f4c041800 Author: Dustin Swales Date: Thu Jun 20 09:23:00 2019 -0600 Fixed a few bugs, some housekeeping. commit 9e5405c33e51962594cfd39762fa23eb9e548d5f Author: Dustin Swales Date: Thu Jun 13 16:29:43 2019 -0600 Fixed indexing error for output fluxes. commit c9a357a9d3b3bcc732b4211d3caa88d9bbf5757a Author: Dustin Swales Date: Wed Jun 12 09:39:56 2019 -0600 Added calls to compute_bc() in LW and SW gas_optics. Small bug found in mo_compute_bc. Work in progress. commit 044c88090bc90abada0eb6934260f5c005a8b0b7 Author: Dustin Swales Date: Tue Jun 11 09:28:20 2019 -0600 Renamed two modules. commit b882dffc9c043973d3809653163b7c8628f3ff8c Author: Dustin Swales Date: Mon Jun 10 17:17:06 2019 -0600 Added gas_optics_sw_run() and gas_optics_lw_run() routines. commit 52cb3a0c664485a650a14bce9bb70b390cbb9c14 Author: Dustin Swales Date: Fri Jun 7 11:33:25 2019 -0600 Fixed potential issue in Thompson MP scheme. Cleaned up a tad. commit 893ce888562ad7bda6392838e5406873f1c99107 Author: Dustin Swales Date: Thu Jun 6 16:16:17 2019 -0600 Some housekeeping. commit 6e2c8bdabcd53657852a1e905995131215ab5518 Author: Dustin Swales Date: Thu Jun 6 10:24:02 2019 -0600 Some cleaning up since last commit. commit a4bdffeaab6b44b9237af0836d99d288fdd947c5 Author: Dustin Swales Date: Wed Jun 5 16:45:48 2019 -0600 Major reorganization. Added schemes for cloud-optics and gas optics. Added RRTMGP active gases to gfs_physics_nml. commit f86636b604e28bde74600de0654da8183337c655 Author: Dustin Swales Date: Mon Jun 3 16:25:05 2019 -0600 Split up init into gas and cloud _init routines. Renamed some variables to be more clear. commit 4e0cfc85d8629d0130d22913e6c03030010114de Author: Dustin Swales Date: Fri May 31 15:27:09 2019 -0600 Added back option to call RRTMG cloud_optics(). commit 57be5513e59dbf9064dd71f01da9d6f43ac89c1d Author: Dustin Swales Date: Fri May 31 14:25:56 2019 -0600 Added new GFS_rrtmgp_XX_post.F90 for both SW and LW. commit ef4ed600037058c72a8081b6b89b4b333d507c89 Author: Dustin Swales Date: Fri May 31 11:54:56 2019 -0600 Moved microphysics from GFS_rrtmgp_pre_run() into its own routine, cloud_microphysics(). commit f5dc37a072cc7c68487657d4f70a787b2c13c60a Author: Dustin Swales Date: Thu May 30 16:46:06 2019 -0600 Remover extra-layer from GFS_rrtmgp_pre_run(). commit 1386e5816e5e1602ce3c1490bb49ac6d86412ea7 Author: Dustin Swales Date: Wed May 29 17:05:59 2019 -0600 More organizational changes to RRTMGP. commit 129b829e2d1cd8cd837526d75423172510d37878 Author: Dustin Swales Date: Tue May 28 10:04:25 2019 -0600 In progress... commit a60e1e1fa4388e222dbc9771a20d315290ce7493 Author: Dustin Swales Date: Tue May 21 16:23:01 2019 -0600 RRTMGP DDTs working! commit 9157959def8d8e4a5263a04361646bb746740c2d Author: Dustin Swales Date: Thu May 16 17:29:33 2019 -0600 Move computation of RRTMGP cloud optics to suite level, only for LW. commit f99255df6af91ae5f9345484949c3f6f8b8cad75 Author: Dustin Swales Date: Thu May 16 15:26:34 2019 -0600 Commit for Robert to view. commit 3beeb50f57710c07697c72e65df4f0018b8f1a20 Author: Dustin Swales Date: Mon May 13 11:55:41 2019 -0600 Changes for RRTMGP DDTs to be used in CCPP. commit e0ca27264d26464241429da466ca5bf49ca20c9a Author: Dustin Swales Date: Fri May 10 10:58:06 2019 -0600 Added metadata tables for DDTs. In CCPP/physics, started seperating pieces from suite-level to scheme level. commit 25b237274ae59fd2af3a185708ec019c3bd41ab9 Author: Dustin Swales Date: Thu May 9 15:19:04 2019 -0600 Added metadata tables to DDT definitions. commit 232545f63715b03064d687bdc6811d5974672e6c Author: Dustin Swales Date: Wed May 8 14:02:45 2019 -0600 Added _type to all instances of ty_gas_optics_rrtmgp commit 81f256d0f58353a656acc678593a776e2bbe6586 Author: Dustin Swales Date: Wed May 8 13:48:36 2019 -0600 Add rte-rrtmgp DDTs to CCPP commit 0a40aaa2ce2bc66c636fa7dcbcbe23b316dc253b Author: Dustin Swales Date: Tue May 7 15:54:57 2019 -0600 Moved to using extension/mo_rrtmgp_clr_all_sky.F90 routines to compute fluxes. commit 6557c76fe80f88c5af896548d4a5bab2e9c90e6e Author: Dustin Swales Date: Tue May 7 15:12:14 2019 -0600 Moved RRTMGP code to suite-level. commit 33e087f9eadc95faffeee35ea7b248d2b23f15e8 Author: Dustin Swales Date: Thu May 2 15:23:26 2019 -0600 Cleaned up, added detailed comments, vectorized loops. commit 8bbbd5b179d39380413fe7488b7bd0797cccfe75 Author: Dustin Swales Date: Thu May 2 11:34:46 2019 -0600 Cleaned up RRTGMP_pre a bit. Modified all calculations to use Pa instead of mb. commit 6c55b934838296fbb44580ddd847681aab2286f8 Author: Dustin Swales Date: Thu May 2 10:04:49 2019 -0600 Fixed allocation for RRTMGP aerosol/cloudy optical property DDT. Adjusted SW aerosol band ordering in GFS_rrtmgp_pre.F90. commit d14dba342a7c4f53cafa9632931d3893eb013790 Author: Dustin Swales Date: Wed May 1 16:05:13 2019 -0600 Fixd bug left in from last commit commit c089f10991dd72ed0a897ecdb9349e0a0307f7d7 Author: Dustin Swales Date: Wed May 1 15:29:19 2019 -0600 Same stuff as previous commit, but for SW. commit cf6bd6628be76bc64b788e270832d7586ce4357c Author: Dustin Swales Date: Wed May 1 09:15:21 2019 -0600 Revised LW flux calculation. commit e92cd8cb84673298c12269cddec0a0d33aa835d8 Author: Dustin Swales Date: Tue Apr 30 14:53:24 2019 -0600 Housekeeping in LW. Remove diffusivity angle adjustment, Added RRTMG draw_samples, Cleaned up aerosol increment, Passing random number to RRTMGP cloud sampling. commit 3c861b04be307f0cb0ee2786f4cb9fc497dce008 Author: Dustin Swales Date: Mon Apr 29 17:29:51 2019 -0600 LW RRTMGP cloud-optics working. Also, RRTMGP cloud sampling has been implemented (in progress). commit 67c2e26ed271aa2bdbe32548f443f6a916464f95 Author: Dustin Swales Date: Wed Apr 24 10:53:16 2019 -0600 Working./gmtb_scm twpice_control_RRTMGP_cloud commit 5ddf44d3950e86d994e26c58687bb184f67c11d4 Author: Dustin Swales Date: Thu Apr 18 15:41:45 2019 -0600 SW all-sky calculation working. Microphysics needs some attention. commit b4510ef93be07dd0d24b49b2a842799fbb588c87 Author: Dustin Swales Date: Tue Apr 16 12:26:03 2019 -0600 Added SW clear-sky calculation. commit 78ab01ec89f1b883105e12eb6684524219c021f2 Author: Dustin Swales Date: Tue Apr 16 12:20:17 2019 -0600 Added SW clear-sky calculation. commit 9414a90790aa4669cef3b21a256595ce540661f6 Author: Dustin Swales Date: Tue Apr 16 12:15:03 2019 -0600 Added ability to provide cloudy profile to radiation (RRTMG and RRTMGP). commit 80e70c19a89ee4d9ddd6bd0d869f0cee80992fe6 Author: Dustin Swales Date: Fri Mar 22 15:32:19 2019 -0600 Added diffusivity angle correction to optical-depths. commit 824009254877c1ac359b974ac1449506a98cf3a2 Author: Dustin Swales Date: Thu Mar 21 16:57:34 2019 -0600 Ported RRTMGP development from release repo. LW is working. --- .gitmodules | 4 + physics/GFS_rrtmgp_lw_post.F90 | 235 +++ physics/GFS_rrtmgp_lw_post.meta | 208 +++ physics/GFS_rrtmgp_pre.F90 | 783 ++++++++ physics/GFS_rrtmgp_pre.meta | 375 ++++ physics/GFS_rrtmgp_setup.F90 | 609 +++++++ physics/GFS_rrtmgp_setup.meta | 343 ++++ physics/GFS_rrtmgp_sw_post.F90 | 307 ++++ physics/GFS_rrtmgp_sw_post.meta | 267 +++ physics/GFS_rrtmgp_sw_pre.F90 | 155 ++ physics/GFS_rrtmgp_sw_pre.meta | 194 ++ physics/radlw_param.meta | 6 + physics/radsw_param.meta | 6 + physics/rrtmg_lw_cloud_optics.F90 | 821 +++++++++ physics/rrtmg_sw_cloud_optics.F90 | 2412 +++++++++++++++++++++++++ physics/rrtmgp_aux.F90 | 33 + physics/rrtmgp_lw_aerosol_optics.F90 | 97 + physics/rrtmgp_lw_aerosol_optics.meta | 166 ++ physics/rrtmgp_lw_cloud_optics.F90 | 374 ++++ physics/rrtmgp_lw_cloud_optics.meta | 309 ++++ physics/rrtmgp_lw_cloud_sampling.F90 | 126 ++ physics/rrtmgp_lw_cloud_sampling.meta | 114 ++ physics/rrtmgp_lw_gas_optics.F90 | 402 +++++ physics/rrtmgp_lw_gas_optics.meta | 210 +++ physics/rrtmgp_lw_pre.F90 | 86 + physics/rrtmgp_lw_pre.meta | 134 ++ physics/rrtmgp_lw_rte.F90 | 172 ++ physics/rrtmgp_lw_rte.meta | 200 ++ physics/rrtmgp_sw_aerosol_optics.F90 | 115 ++ physics/rrtmgp_sw_aerosol_optics.meta | 182 ++ physics/rrtmgp_sw_cloud_optics.F90 | 367 ++++ physics/rrtmgp_sw_cloud_optics.meta | 278 +++ physics/rrtmgp_sw_cloud_sampling.F90 | 133 ++ physics/rrtmgp_sw_cloud_sampling.meta | 130 ++ physics/rrtmgp_sw_gas_optics.F90 | 371 ++++ physics/rrtmgp_sw_gas_optics.meta | 244 +++ physics/rrtmgp_sw_rte.F90 | 218 +++ physics/rrtmgp_sw_rte.meta | 252 +++ physics/rte-rrtmgp | 1 + 39 files changed, 11439 insertions(+) create mode 100644 .gitmodules create mode 100644 physics/GFS_rrtmgp_lw_post.F90 create mode 100644 physics/GFS_rrtmgp_lw_post.meta create mode 100644 physics/GFS_rrtmgp_pre.F90 create mode 100644 physics/GFS_rrtmgp_pre.meta create mode 100644 physics/GFS_rrtmgp_setup.F90 create mode 100644 physics/GFS_rrtmgp_setup.meta create mode 100644 physics/GFS_rrtmgp_sw_post.F90 create mode 100644 physics/GFS_rrtmgp_sw_post.meta create mode 100644 physics/GFS_rrtmgp_sw_pre.F90 create mode 100644 physics/GFS_rrtmgp_sw_pre.meta create mode 100644 physics/rrtmg_lw_cloud_optics.F90 create mode 100644 physics/rrtmg_sw_cloud_optics.F90 create mode 100644 physics/rrtmgp_aux.F90 create mode 100644 physics/rrtmgp_lw_aerosol_optics.F90 create mode 100644 physics/rrtmgp_lw_aerosol_optics.meta create mode 100644 physics/rrtmgp_lw_cloud_optics.F90 create mode 100644 physics/rrtmgp_lw_cloud_optics.meta create mode 100644 physics/rrtmgp_lw_cloud_sampling.F90 create mode 100644 physics/rrtmgp_lw_cloud_sampling.meta create mode 100644 physics/rrtmgp_lw_gas_optics.F90 create mode 100644 physics/rrtmgp_lw_gas_optics.meta create mode 100644 physics/rrtmgp_lw_pre.F90 create mode 100644 physics/rrtmgp_lw_pre.meta create mode 100644 physics/rrtmgp_lw_rte.F90 create mode 100644 physics/rrtmgp_lw_rte.meta create mode 100644 physics/rrtmgp_sw_aerosol_optics.F90 create mode 100644 physics/rrtmgp_sw_aerosol_optics.meta create mode 100644 physics/rrtmgp_sw_cloud_optics.F90 create mode 100644 physics/rrtmgp_sw_cloud_optics.meta create mode 100644 physics/rrtmgp_sw_cloud_sampling.F90 create mode 100644 physics/rrtmgp_sw_cloud_sampling.meta create mode 100644 physics/rrtmgp_sw_gas_optics.F90 create mode 100644 physics/rrtmgp_sw_gas_optics.meta create mode 100644 physics/rrtmgp_sw_rte.F90 create mode 100644 physics/rrtmgp_sw_rte.meta create mode 160000 physics/rte-rrtmgp diff --git a/.gitmodules b/.gitmodules new file mode 100644 index 000000000..8421166ca --- /dev/null +++ b/.gitmodules @@ -0,0 +1,4 @@ +[submodule "physics/rte-rrtmgp"] + path = physics/rte-rrtmgp + url = https://github.com/RobertPincus/rte-rrtmgp + branch = dtc/ccpp diff --git a/physics/GFS_rrtmgp_lw_post.F90 b/physics/GFS_rrtmgp_lw_post.F90 new file mode 100644 index 000000000..38b9530b0 --- /dev/null +++ b/physics/GFS_rrtmgp_lw_post.F90 @@ -0,0 +1,235 @@ +module GFS_rrtmgp_lw_post + use machine, only: kind_phys + use GFS_typedefs, only: GFS_coupling_type, & + GFS_control_type, & + GFS_grid_type, & + GFS_radtend_type, & + GFS_statein_type, & + GFS_diag_type + use module_radiation_aerosols, only: NSPC1 + use module_radlw_parameters, only: topflw_type, sfcflw_type, proflw_type + ! RRTMGP DDT's + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use mo_fluxes_byband, only: ty_fluxes_byband + use mo_heating_rates, only: compute_heating_rate + use rrtmgp_aux, only: check_error_msg + implicit none + + public GFS_rrtmgp_lw_post_init,GFS_rrtmgp_lw_post_run,GFS_rrtmgp_lw_post_finalize + +contains + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_lw_post_init + ! ######################################################################################### + subroutine GFS_rrtmgp_lw_post_init() + end subroutine GFS_rrtmgp_lw_post_init + + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_lw_post_run + ! ######################################################################################### +!> \section arg_table_GFS_rrtmgp_lw_post_run +!! \htmlinclude GFS_rrtmgp_lw_post.html +!! + subroutine GFS_rrtmgp_lw_post_run (Model, Grid, Radtend, Coupling, Diag, Statein, im, & + p_lev, tsfa, fluxlwUP_allsky, fluxlwDOWN_allsky, fluxlwUP_clrsky, fluxlwDOWN_clrsky,& + raddt, aerodp, cldsa, mtopa, mbota, cld_frac, cldtaulw, & + flxprf_lw, hlw0, errmsg, errflg) + + ! Inputs + type(GFS_control_type), intent(in) :: & + Model ! Fortran DDT: FV3-GFS model control parameters + type(GFS_grid_type), intent(in) :: & + Grid ! Fortran DDT: FV3-GFS grid and interpolation related data + type(GFS_statein_type), intent(in) :: & + Statein ! Fortran DDT: FV3-GFS prognostic state data in from dycore + integer, intent(in) :: & + im ! Horizontal loop extent + real(kind_phys), dimension(size(Grid%xlon,1)), intent(in) :: & + tsfa ! Lowest model layer air temperature for radiation (K) + real(kind_phys), dimension(size(Grid%xlon,1), Model%levs+1), intent(in) :: & + p_lev ! Pressure @ model layer-interfaces (hPa) + real(kind_phys), dimension(size(Grid%xlon,1), Model%levs+1), intent(in) :: & + fluxlwUP_allsky, & ! RRTMGP longwave all-sky flux (W/m2) + fluxlwDOWN_allsky, & ! RRTMGP longwave all-sky flux (W/m2) + fluxlwUP_clrsky, & ! RRTMGP longwave clear-sky flux (W/m2) + fluxlwDOWN_clrsky ! RRTMGP longwave clear-sky flux (W/m2) + real(kind_phys), intent(in) :: & + raddt ! Radiation time step + real(kind_phys), dimension(im,NSPC1), intent(in) :: & + aerodp ! Vertical integrated optical depth for various aerosol species + real(kind_phys), dimension(im,5), intent(in) :: & + cldsa ! Fraction of clouds for low, middle, high, total and BL + integer, dimension(im,3), intent(in) ::& + mbota, & ! vertical indices for low, middle and high cloud tops + mtopa ! vertical indices for low, middle and high cloud bases + real(kind_phys), dimension(im,Model%levs), intent(in) :: & + cld_frac, & ! Total cloud fraction in each layer + cldtaulw ! approx 10.mu band layer cloud optical depth + real(kind_phys),dimension(size(Grid%xlon,1), Model%levs) :: & + hlwc ! Longwave all-sky heating-rate (K/sec) + + ! Outputs (mandatory) + character(len=*), intent(out) :: & + errmsg + integer, intent(out) :: & + errflg + type(GFS_coupling_type), intent(inout) :: & + Coupling ! Fortran DDT: FV3-GFS fields to/from coupling with other components + type(GFS_radtend_type), intent(inout) :: & + Radtend ! Fortran DDT: FV3-GFS radiation tendencies + type(GFS_diag_type), intent(inout) :: & + Diag ! Fortran DDT: FV3-GFS diagnotics data + + ! Outputs (optional) + real(kind_phys), dimension(size(Grid%xlon,1), Model%levs), optional, intent(inout) :: & + hlw0 ! Longwave clear-sky heating rate (K/sec) + type(proflw_type), dimension(size(Grid%xlon,1), Model%levs+1), optional, intent(inout) :: & + flxprf_lw ! 2D radiative fluxes, components: + ! upfxc - total sky upward flux (W/m2) + ! dnfxc - total sky dnward flux (W/m2) + ! upfx0 - clear sky upward flux (W/m2) + ! dnfx0 - clear sky dnward flux (W/m2) + + ! Local variables + integer :: i, j, k, iSFC, iTOA, itop, ibtc + logical :: l_clrskylw_hr, l_fluxeslw2d, top_at_1 + real(kind_phys) :: tem0d, tem1, tem2 + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. Model%lslwr) return + + ! Are any optional outputs requested? + l_clrskylw_hr = present(hlw0) + l_fluxeslw2d = present(flxprf_lw) + + ! ####################################################################################### + ! What is vertical ordering? + ! ####################################################################################### + top_at_1 = (p_lev(1,1) .lt. p_lev(1, Model%levs)) + if (top_at_1) then + iSFC = Model%levs+1 + iTOA = 1 + else + iSFC = 1 + iTOA = Model%levs+1 + endif + + ! ####################################################################################### + ! Compute LW heating-rates. + ! ####################################################################################### + if (Model%lslwr) then + ! Clear-sky heating-rate (optional) + if (l_clrskylw_hr) then + call check_error_msg('GFS_rrtmgp_post',compute_heating_rate( & + fluxlwUP_clrsky, & ! IN - RRTMGP upward longwave clear-sky flux profiles (W/m2) + fluxlwDOWN_clrsky, & ! IN - RRTMGP downward longwave clear-sky flux profiles (W/m2) + p_lev, & ! IN - Pressure @ layer-interfaces (Pa) + hlw0)) ! OUT - Longwave clear-sky heating rate (K/sec) + endif + ! All-sky heating-rate (mandatory) + call check_error_msg('GFS_rrtmgp_post',compute_heating_rate( & + fluxlwUP_allsky, & ! IN - RRTMGP upward longwave all-sky flux profiles (W/m2) + fluxlwDOWN_allsky, & ! IN - RRTMGP downward longwave all-sky flux profiles (W/m2) + p_lev, & ! IN - Pressure @ layer-interfaces (Pa) + hlwc)) ! OUT - Longwave all-sky heating rate (K/sec) + + ! Copy fluxes from RRTGMP types into model radiation types. + ! Mandatory outputs + Diag%topflw(:)%upfxc = fluxlwUP_allsky(:,iTOA) + Diag%topflw(:)%upfx0 = fluxlwUP_clrsky(:,iTOA) + Radtend%sfcflw(:)%upfxc = fluxlwUP_allsky(:,iSFC) + Radtend%sfcflw(:)%upfx0 = fluxlwUP_clrsky(:,iSFC) + Radtend%sfcflw(:)%dnfxc = fluxlwDOWN_allsky(:,iSFC) + Radtend%sfcflw(:)%dnfx0 = fluxlwDOWN_clrsky(:,iSFC) + + ! Optional outputs + if(l_fluxeslw2d) then + flxprf_lw%upfxc = fluxlwUP_allsky + flxprf_lw%dnfxc = fluxlwDOWN_allsky + flxprf_lw%upfx0 = fluxlwUP_clrsky + flxprf_lw%dnfx0 = fluxlwDOWN_clrsky + endif + endif + + ! ####################################################################################### + ! Save LW outputs. + ! ####################################################################################### + if (Model%lslwr) then + ! Save surface air temp for diurnal adjustment at model t-steps + Radtend%tsflw (:) = tsfa(:) + + ! All-sky heating rate profile + do k = 1, model%levs + Radtend%htrlw(1:im,k) = hlwc(1:im,k) + enddo + if (Model%lwhtr) then + do k = 1, model%levs + Radtend%lwhc(1:im,k) = hlw0(1:im,k) + enddo + endif + + ! Radiation fluxes for other physics processes + Coupling%sfcdlw(:) = Radtend%sfcflw(:)%dnfxc + endif + + ! ####################################################################################### + ! Save LW diagnostics + ! - For time averaged output quantities (including total-sky and clear-sky SW and LW + ! fluxes at TOA and surface; conventional 3-domain cloud amount, cloud top and base + ! pressure, and cloud top temperature; aerosols AOD, etc.), store computed results in + ! corresponding slots of array fluxr with appropriate time weights. + ! - Collect the fluxr data for wrtsfc + ! ####################################################################################### + if (Model%lssav) then + if (Model%lslwr) then + do i=1,im + ! LW all-sky fluxes + Diag%fluxr(i,1 ) = Diag%fluxr(i,1 ) + Model%fhlwr * fluxlwUP_allsky( i,iTOA) ! total sky top lw up + Diag%fluxr(i,19) = Diag%fluxr(i,19) + Model%fhlwr * fluxlwDOWN_allsky(i,iSFC) ! total sky sfc lw dn + Diag%fluxr(i,20) = Diag%fluxr(i,20) + Model%fhlwr * fluxlwUP_allsky( i,iSFC) ! total sky sfc lw up + ! LW clear-sky fluxes + Diag%fluxr(i,28) = Diag%fluxr(i,28) + Model%fhlwr * fluxlwUP_clrsky( i,iTOA) ! clear sky top lw up + Diag%fluxr(i,30) = Diag%fluxr(i,30) + Model%fhlwr * fluxlwDOWN_clrsky(i,iSFC) ! clear sky sfc lw dn + Diag%fluxr(i,33) = Diag%fluxr(i,33) + Model%fhlwr * fluxlwUP_clrsky( i,iSFC) ! clear sky sfc lw up + enddo + + do i=1,im + Diag%fluxr(i,17) = Diag%fluxr(i,17) + raddt * cldsa(i,4) + Diag%fluxr(i,18) = Diag%fluxr(i,18) + raddt * cldsa(i,5) + enddo + + ! Save cld frac,toplyr,botlyr and top temp, note that the order of h,m,l cloud is reversed for + ! the fluxr output. save interface pressure (pa) of top/bot + do j = 1, 3 + do i = 1, IM + tem0d = raddt * cldsa(i,j) + itop = mtopa(i,j) + ibtc = mbota(i,j) + Diag%fluxr(i, 8-j) = Diag%fluxr(i, 8-j) + tem0d + Diag%fluxr(i,11-j) = Diag%fluxr(i,11-j) + tem0d * Statein%prsi(i,itop) + Diag%fluxr(i,14-j) = Diag%fluxr(i,14-j) + tem0d * Statein%prsi(i,ibtc) + Diag%fluxr(i,17-j) = Diag%fluxr(i,17-j) + tem0d * Statein%tgrs(i,itop) + + ! Add optical depth and emissivity output + tem2 = 0. + do k=ibtc,itop + tem2 = tem2 + cldtaulw(i,k) ! approx 10. mu channel + enddo + Diag%fluxr(i,46-j) = Diag%fluxr(i,46-j) + tem0d * (1.0-exp(-tem2)) + enddo + enddo + endif + endif + + end subroutine GFS_rrtmgp_lw_post_run + + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_lw_post_finalize + ! ######################################################################################### + subroutine GFS_rrtmgp_lw_post_finalize () + end subroutine GFS_rrtmgp_lw_post_finalize + +end module GFS_rrtmgp_lw_post diff --git a/physics/GFS_rrtmgp_lw_post.meta b/physics/GFS_rrtmgp_lw_post.meta new file mode 100644 index 000000000..3eb1e0953 --- /dev/null +++ b/physics/GFS_rrtmgp_lw_post.meta @@ -0,0 +1,208 @@ +[ccpp-arg-table] + name = GFS_rrtmgp_lw_post_run + type = scheme +[Model] + standard_name = GFS_control_type_instance + long_name = instance of derived type GFS_control_type + units = DDT + dimensions = () + type = GFS_control_type + intent = in + optional = F +[Grid] + standard_name = GFS_grid_type_instance + long_name = instance of derived type GFS_grid_type + units = DDT + dimensions = () + type = GFS_grid_type + intent = in + optional = F +[Radtend] + standard_name = GFS_radtend_type_instance + long_name = instance of derived type GFS_radtend_type + units = DDT + dimensions = () + type = GFS_radtend_type + intent = inout + optional = F +[Coupling] + standard_name = GFS_coupling_type_instance + long_name = instance of derived type GFS_coupling_type + units = DDT + dimensions = () + type = GFS_coupling_type + intent = inout + optional = F +[Diag] + standard_name = GFS_diag_type_instance + long_name = instance of derived type GFS_diag_type + units = DDT + dimensions = () + type = GFS_diag_type + intent = inout + optional = F +[Statein] + standard_name = GFS_statein_type_instance + long_name = instance of derived type GFS_statein_type + units = DDT + dimensions = () + type = GFS_statein_type + intent = in + optional = F +[im] + standard_name = horizontal_loop_extent + long_name = horizontal loop extent + units = count + dimensions = () + type = integer + intent = in + optional = F +[tsfa] + standard_name = surface_air_temperature_for_radiation + long_name = lowest model layer air temperature for radiation + units = K + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[p_lev] + standard_name = air_pressure_at_interface_for_RRTMGP_in_hPa + long_name = air pressure level + units = hPa + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[fluxlwUP_allsky] + standard_name = RRTMGP_lw_flux_profile_upward_allsky + long_name = RRTMGP upward longwave all-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[fluxlwDOWN_allsky] + standard_name = RRTMGP_lw_flux_profile_downward_allsky + long_name = RRTMGP downward longwave all-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[fluxlwUP_clrsky] + standard_name = RRTMGP_lw_flux_profile_upward_clrsky + long_name = RRTMGP upward longwave clr-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[fluxlwDOWN_clrsky] + standard_name = RRTMGP_lw_flux_profile_downward_clrsky + long_name = RRTMGP downward longwave clr-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[raddt] + standard_name = time_step_for_radiation + long_name = radiation time step + units = s + dimensions = () + type = real + kind = kind_phys + intent = in + optional = F +[aerodp] + standard_name = atmosphere_optical_thickness_due_to_ambient_aerosol_particles + long_name = vertical integrated optical depth for various aerosol species + units = none + dimensions = (horizontal_dimension,number_of_species_for_aerosol_optical_depth) + type = real + kind = kind_phys + intent = in + optional = F +[cldsa] + standard_name = cloud_area_fraction_for_radiation + long_name = fraction of clouds for low, middle, high, total and BL + units = frac + dimensions = (horizontal_dimension,5) + type = real + kind = kind_phys + intent = in + optional = F +[mtopa] + standard_name = model_layer_number_at_cloud_top + long_name = vertical indices for low, middle and high cloud tops + units = index + dimensions = (horizontal_dimension,3) + type = integer + intent = in + optional = F +[mbota] + standard_name = model_layer_number_at_cloud_base + long_name = vertical indices for low, middle and high cloud bases + units = index + dimensions = (horizontal_dimension,3) + type = integer + intent = in + optional = F +[cld_frac] + standard_name = total_cloud_fraction + long_name = layer total cloud fraction + units = frac + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[cldtaulw] + standard_name = RRTMGP_cloud_optical_depth_layers_at_10mu_band + long_name = approx 10mu band layer cloud optical depth + units = none + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[flxprf_lw] + standard_name = RRTMGP_lw_fluxes + long_name = lw fluxes total sky / csk and up / down at levels + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = proflw_type + intent = inout + optional = T +[hlw0] + standard_name = RRTMGP_lw_heating_rate_clear_sky + long_name = RRTMGP longwave clear sky heating rate + units = K s-1 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = inout + optional = T +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F diff --git a/physics/GFS_rrtmgp_pre.F90 b/physics/GFS_rrtmgp_pre.F90 new file mode 100644 index 000000000..cb2b79410 --- /dev/null +++ b/physics/GFS_rrtmgp_pre.F90 @@ -0,0 +1,783 @@ +module GFS_rrtmgp_pre + use physparam + use machine, only: & + kind_phys ! Working type + use GFS_typedefs, only: & + GFS_statein_type, & ! Prognostic state data in from dycore + GFS_stateout_type, & ! Prognostic state or tendencies return to dycore + GFS_sfcprop_type, & ! Surface fields + GFS_coupling_type, & ! Fields to/from coupling with other components (e.g. land/ice/ocean/etc.) + GFS_control_type, & ! Model control parameters + GFS_grid_type, & ! Grid and interpolation related data + GFS_tbd_type, & ! To-Be-Determined data that doesn't fit in any one container + GFS_radtend_type, & ! Radiation tendencies needed in physics + GFS_diag_type ! Fields targetted for diagnostic output + use physcons, only: & + eps => con_eps, & ! Rd/Rv + epsm1 => con_epsm1, & ! Rd/Rv-1 + fvirt => con_fvirt, & ! Rv/Rd-1 + rog => con_rog ! Rd/g + use radcons, only: & + qmin, epsq ! Minimum vlaues for varius calculations + use funcphys, only: & + fpvs ! Function ot compute sat. vapor pressure over liq. + use module_radiation_astronomy,only: & + coszmn ! Function to compute cos(SZA) + use module_radiation_gases, only: & + NF_VGAS, & ! Number of active gas species + getgases, & ! Routine to setup trace gases + getozn ! Routine to setup ozone + use module_radiation_aerosols, only: & + NF_AESW, & ! Number of optical-fields in SW output (3=tau+g+omega) + NF_AELW, & ! Number of optical-fields in LW output (3=tau+g+omega) + setaer, & ! Routine to compute aerosol radiative properties (tau,g,omega) + NSPC1 ! Number of species for vertically integrated aerosol optical-depth + use module_radiation_clouds, only: & + NF_CLDS, & ! Number of fields in "clouds" array (e.g. (cloud(1)=lwp,clouds(2)=ReffLiq,...) + progcld1, & ! Zhao/Moorthi's prognostic cloud scheme + progcld3, & ! Zhao/Moorthi's prognostic cloud+pdfcld + progcld4, & ! GFDL cloud scheme + progcld5, & ! Thompson / WSM6 cloud micrphysics scheme + progclduni ! Unified cloud-scheme + use surface_perturbation, only: & + cdfnor ! Routine to compute CDF (used to compute percentiles) + use module_radiation_surface, only: & + setemis, & ! Routine to compute surface-emissivity + NF_ALBD, & ! Number of surface albedo categories (4; nir-direct, nir-diffuse, uvvis-direct, uvvis-diffuse) + setalb ! Routine to compute surface albedo + ! RRTMGP types + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use mo_gas_concentrations, only: ty_gas_concs + use rrtmgp_aux, only: check_error_msg!, rrtmgp_minP, rrtmgp_minT + use mo_rrtmgp_constants, only: grav, avogad + use mo_rrtmg_lw_cloud_optics + + real(kind_phys), parameter :: & + amd = 28.9644_kind_phys, & ! Molecular weight of dry-air (g/mol) + amw = 18.0154_kind_phys, & ! Molecular weight of water vapor (g/mol) + amo3 = 47.9982_kind_phys, & ! Modelular weight of ozone (g/mol) + amdw = amd/amw, & ! Molecular weight of dry air / water vapor + amdo3 = amd/amo3 ! Molecular weight of dry air / ozone + + ! Some common trace gas on/off flags. + ! This allows for control over which trace gases are used in RRTMGP radiation scheme via + ! namelist. + logical :: & + isActive_h2o = .false., & ! + isActive_co2 = .false., & ! + isActive_o3 = .false., & ! + isActive_n2o = .false., & ! + isActive_ch4 = .false., & ! + isActive_o2 = .false., & ! + isActive_ccl4 = .false., & ! + isActive_cfc11 = .false., & ! + isActive_cfc12 = .false., & ! + isActive_cfc22 = .false. ! + integer :: iStr_h2o, iStr_co2, iStr_o3, iStr_n2o, iStr_ch4, iStr_o2, iStr_ccl4, & + iStr_cfc11, iStr_cfc12, iStr_cfc22 + + public GFS_rrtmgp_pre_run,GFS_rrtmgp_pre_init,GFS_rrtmgp_pre_finalize +contains + + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_pre_init + ! ######################################################################################### +!! \section arg_table_GFS_rrtmgp_pre_init +!! \htmlinclude GFS_rrtmgp_pre_init.html +!! + subroutine GFS_rrtmgp_pre_init(Model, Radtend, active_gases_array, errmsg, errflg) + ! Inputs + type(GFS_control_type), intent(inout) :: & + Model ! DDT: FV3-GFS model control parameters + type(GFS_radtend_type), intent(inout) :: & + Radtend ! DDT: FV3-GFS radiation tendencies + + ! Outputs + character(len=*),dimension(Model%ngases), intent(out) :: & + active_gases_array ! Character array containing trace gases to include in RRTMGP + character(len=*), intent(out) :: & + errmsg ! Error message + integer, intent(out) :: & + errflg ! Error flag + + ! Local variables + character(len=1) :: tempstr + integer :: ij, count + integer,dimension(Model%ngases,2) :: gasIndices + + ! Initialize + errmsg = '' + errflg = 0 + + if (len(Model%active_gases) .eq. 0) return + + ! Which gases are active? Provided via physics namelist. + + ! Pull out gas names from list... + ! First grab indices in character array corresponding to start:end of gas name. + gasIndices(1,1)=1 + count=1 + do ij=1,len(Model%active_gases) + tempstr=trim(Model%active_gases(ij:ij)) + if (tempstr .eq. '_') then + gasIndices(count,2)=ij-1 + gasIndices(count+1,1)=ij+1 + count=count+1 + endif + enddo + gasIndices(Model%ngases,2)=len(trim(Model%active_gases)) + + ! Now extract the gas names + do ij=1,Model%ngases + active_gases_array(ij) = Model%active_gases(gasIndices(ij,1):gasIndices(ij,2)) + enddo + + ! Which gases are active? (This is purely for flexibility) + do ij=1,Model%ngases + if(trim(active_gases_array(ij)) .eq. 'h2o') then + isActive_h2o = .true. + istr_h2o = ij + endif + if(trim(active_gases_array(ij)) .eq. 'co2') then + isActive_co2 = .true. + istr_co2 = ij + endif + if(trim(active_gases_array(ij)) .eq. 'o3') then + isActive_o3 = .true. + istr_o3 = ij + endif + if(trim(active_gases_array(ij)) .eq. 'n2o') then + isActive_n2o = .true. + istr_n2o = ij + endif + if(trim(active_gases_array(ij)) .eq. 'ch4') then + isActive_ch4 = .true. + istr_ch4 = ij + endif + if(trim(active_gases_array(ij)) .eq. 'o2') then + isActive_o2 = .true. + istr_o2 = ij + endif + if(trim(active_gases_array(ij)) .eq. 'ccl4') then + isActive_ccl4 = .true. + istr_ccl4 = ij + endif + if(trim(active_gases_array(ij)) .eq. 'cfc11') then + isActive_cfc11 = .true. + istr_cfc11 = ij + endif + if(trim(active_gases_array(ij)) .eq. 'cfc12') then + isActive_cfc12 = .true. + istr_cfc12 = ij + endif + if(trim(active_gases_array(ij)) .eq. 'cfc22') then + isActive_cfc22 = .true. + istr_cfc22 = ij + endif + enddo + + end subroutine GFS_rrtmgp_pre_init + + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_pre_run + ! ######################################################################################### +!> \section arg_table_GFS_rrtmgp_pre_run +!! \htmlinclude GFS_rrtmgp_pre.html +!! + subroutine GFS_rrtmgp_pre_run (Model, Grid, Statein, Coupling, Radtend, Sfcprop, Tbd, & ! IN + ncol, lw_gas_props, active_gases_array, & ! IN + sec_diff_byband, raddt, p_lay, t_lay, p_lev, t_lev, tsfg, tsfa, cld_frac, cld_lwp,& ! OUT + cld_reliq, cld_iwp, cld_reice, cld_swp, cld_resnow, cld_rwp, cld_rerain, & ! OUT + tv_lay, relhum, tracer, cldsa, mtopa, mbota, de_lgth, gas_concentrations, & ! OUT + errmsg, errflg) + + ! Inputs + type(GFS_control_type), intent(in) :: & + Model ! DDT: FV3-GFS model control parameters + type(GFS_grid_type), intent(in) :: & + Grid ! DDT: FV3-GFS grid and interpolation related data + type(GFS_statein_type), intent(in) :: & + Statein ! DDT: FV3-GFS prognostic state data in from dycore + type(GFS_coupling_type), intent(in) :: & + Coupling ! DDT: FV3-GFS fields to/from coupling with other components + type(GFS_radtend_type), intent(inout) :: & + Radtend ! DDT: FV3-GFS radiation tendencies + type(GFS_sfcprop_type), intent(in) :: & + Sfcprop ! DDT: FV3-GFS surface fields + type(GFS_tbd_type), intent(in) :: & + Tbd ! DDT: FV3-GFS data not yet assigned to a defined container + integer, intent(in) :: & + ncol ! Number of horizontal grid points + type(ty_gas_optics_rrtmgp),intent(in) :: & + lw_gas_props ! RRTMGP DDT: longwave spectral information + character(len=*),dimension(Model%ngases), intent(in) :: & + active_gases_array ! Character array containing trace gases to include in RRTMGP + + ! Outputs + real(kind_phys), dimension(ncol,Model%levs), intent(out) :: & + p_lay, & ! Pressure at model-layer + t_lay ! Temperature at model layer + real(kind_phys), dimension(ncol,Model%levs+1), intent(out) :: & + p_lev, & ! Pressure at model-interface + t_lev ! Temperature at model-interface + real(kind_phys), intent(out) :: & + raddt ! Radiation time-step + real(kind_phys), dimension(ncol), intent(out) :: & + tsfg, & ! Ground temperature + tsfa ! Skin temperature + type(ty_gas_concs),intent(out) :: & + gas_concentrations ! RRTMGP DDT: gas volumne mixing ratios + character(len=*), intent(out) :: & + errmsg ! Error message + integer, intent(out) :: & + errflg ! Error flag + real(kind_phys), dimension(ncol,Model%levs),intent(out) :: & + cld_frac, & ! Total cloud fraction + cld_lwp, & ! Cloud liquid water path + cld_reliq, & ! Cloud liquid effective radius + cld_iwp, & ! Cloud ice water path + cld_reice, & ! Cloud ice effecive radius + cld_swp, & ! Cloud snow water path + cld_resnow, & ! Cloud snow effective radius + cld_rwp, & ! Cloud rain water path + cld_rerain ! Cloud rain effective radius + real(kind_phys), dimension(ncol,Model%levs),intent(out) :: & + tv_lay, & ! Virtual temperatue at model-layers + relhum ! Relative-humidity at model-layers + real(kind_phys), dimension(ncol, Model%levs, 2:Model%ntrac),intent(out) :: & + tracer ! Array containing trace gases + integer,dimension(ncol,3),intent(out) :: & + mbota, & ! Vertical indices for cloud tops + mtopa ! Vertical indices for cloud bases + real(kind_phys), dimension(ncol,5), intent(out) :: & + cldsa ! Fraction of clouds for low, middle, high, total and BL + real(kind_phys), dimension(ncol), intent(out) :: & + de_lgth ! Decorrelation length + real(kind_phys), dimension(lw_gas_props%get_nband(),ncol),intent(out) :: & + sec_diff_byband + + ! Local variables + integer :: i, j, iCol, iBand, iSFC, iTOA, iLay + logical :: top_at_1 + real(kind_phys),dimension(NCOL,Model%levs) :: vmr_o3, vmr_h2o, coldry, tem0, colamt + real(kind_phys) :: es, qs, tem1, tem2 + real(kind_phys), dimension(ncol, NF_ALBD) :: sfcalb + real(kind_phys), dimension(ncol, Model%levs) :: qs_lay, q_lay, deltaZ, deltaP, o3_lay + real(kind_phys), dimension(ncol, Model%levs, NF_VGAS) :: gas_vmr + real(kind_phys), dimension(ncol, Model%levs, NF_CLDS) :: clouds + real(kind_phys), dimension(ncol) :: precipitableH2o + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. (Model%lsswr .or. Model%lslwr)) return + + ! ####################################################################################### + ! What is vertical ordering? + ! ####################################################################################### + top_at_1 = (Statein%prsi(1,1) .lt. Statein%prsi(1, Model%levs)) + if (top_at_1) then + iSFC = Model%levs + iTOA = 1 + else + iSFC = 1 + iTOA = Model%levs + endif + + ! ####################################################################################### + ! Compute some fields needed by RRTMGP + ! ####################################################################################### + + ! Water-vapor mixing-ratio + q_lay(1:ncol,:) = Statein%qgrs(1:NCOL,:,1) + where(q_lay .lt. 1.e-6) q_lay = 1.e-6 + + ! Pressure at layer-interface + p_lev(1:NCOL,:) = Statein%prsi(1:NCOL,:) + + ! Pressure at layer-center + p_lay(1:NCOL,:) = Statein%prsl(1:NCOL,:) + + ! Temperature at layer-center + t_lay(1:NCOL,:) = Statein%tgrs(1:NCOL,:) + + ! Temperature at layer-interfaces + if (top_at_1) then + t_lev(1:NCOL,1) = t_lay(1:NCOL,iTOA) + t_lev(1:NCOL,2:iSFC) = (t_lay(1:NCOL,2:iSFC)+t_lay(1:NCOL,1:iSFC-1))/2._kind_phys + t_lev(1:NCOL,iSFC+1) = Sfcprop%tsfc(1:NCOL) + else + t_lev(1:NCOL,1) = Sfcprop%tsfc(1:NCOL) + t_lev(1:NCOL,2:iTOA) = (t_lay(1:NCOL,2:iTOA)+t_lay(1:NCOL,1:iTOA-1))/2._kind_phys + t_lev(1:NCOL,iTOA+1) = t_lay(1:NCOL,iTOA) + endif + + ! Compute layer pressure thicknes + deltaP = abs(p_lev(:,2:model%levs+1)-p_lev(:,1:model%levs)) + + ! Compute a bunch of thermodynamic fields needed by the macrophysics schemes. Relative humidity, + ! saturation mixing-ratio, vapor mixing-ratio, virtual temperature, layer thickness,... + do iCol=1,NCOL + do iLay=1,Model%levs + es = min( p_lay(iCol,iLay), fpvs( t_lay(iCol,iLay) ) ) ! fpvs and prsl in pa + qs = max( QMIN, eps * es / (p_lay(iCol,iLay) + epsm1*es) ) + relhum(iCol,iLay) = max( 0._kind_phys, min( 1._kind_phys, max(QMIN, q_lay(iCol,iLay))/qs ) ) + qs_lay(iCol,iLay) = qs + tv_lay(iCol,iLay) = t_lay(iCol,iLay) * (1._kind_phys + fvirt*q_lay(iCol,iLay)) + deltaZ(iCol,iLay) = (rog*0.001) * abs(log(p_lev(iCol,iLay)) - log(p_lev(iCol,iLay+1))) * tv_lay(iCol,iLay) + enddo + enddo + + ! ####################################################################################### + ! Get layer ozone mass mixing ratio + ! ####################################################################################### + ! First recast remaining all tracers (except sphum) forcing them all to be positive + do j = 2, model%NTRAC + tracer(1:NCOL,:,j) = Statein%qgrs(1:NCOL,:,j) + where(tracer(:,:,j) .lt. 0.0) tracer(:,:,j) = 0._kind_phys + enddo + + if (Model%ntoz > 0) then + do iLay=1,Model%levs + do iCol=1,NCOL + o3_lay(iCol,iLay) = max( QMIN, tracer(iCol,iLay,Model%ntoz) ) + enddo + enddo + ! OR Use climatological ozone data + else + call getozn (Statein%prslk(1:NCOL,:), Grid%xlat, NCOL, Model%levs, o3_lay) + endif + + ! ####################################################################################### + ! Set gas concentrations for RRTMGP + ! ####################################################################################### + ! Call getgases(), to set up non-prognostic gas volume mixing ratios (gas_vmr). + call getgases (p_lev/100., Grid%xlon, Grid%xlat, NCOL, Model%levs, gas_vmr) + + ! Compute volume mixing-ratios for ozone (mmr) and specific-humidity. + vmr_h2o = merge((q_lay/(1-q_lay))*amdw, 0., q_lay .ne. 1.) + vmr_o3 = merge(o3_lay*amdo3, 0., o3_lay .gt. 0.) + + ! Initialize and opulate RRTMGP DDT w/ gas-concentrations + call check_error_msg('sw_gas_optics_init',gas_concentrations%init(active_gases_array)) + call check_error_msg('GFS_rrtmgp_pre_run',gas_concentrations%set_vmr(active_gases_array(iStr_o2), gas_vmr(:,:,4))) + call check_error_msg('GFS_rrtmgp_pre_run',gas_concentrations%set_vmr(active_gases_array(iStr_co2), gas_vmr(:,:,1))) + call check_error_msg('GFS_rrtmgp_pre_run',gas_concentrations%set_vmr(active_gases_array(iStr_ch4), gas_vmr(:,:,3))) + call check_error_msg('GFS_rrtmgp_pre_run',gas_concentrations%set_vmr(active_gases_array(iStr_n2o), gas_vmr(:,:,2))) + call check_error_msg('GFS_rrtmgp_pre_run',gas_concentrations%set_vmr(active_gases_array(iStr_h2o), vmr_h2o)) + call check_error_msg('GFS_rrtmgp_pre_run',gas_concentrations%set_vmr(active_gases_array(iStr_o3), vmr_o3)) + + ! ####################################################################################### + ! Compute diffusivity angle adjustments for each longwave band + ! *NOTE* Legacy RRTMGP code + ! ####################################################################################### + ! Conpute diffusivity angle adjustments. + ! First need to compute precipitable water in each column + tem0 = (1._kind_phys - vmr_h2o)*amd + vmr_h2o*amw + coldry = ( 1.0e-20 * 1.0e3 *avogad)*(deltap*.01) / (100.*grav*tem0*(1._kind_phys + vmr_h2o)) + colamt = max(0._kind_phys, coldry*vmr_h2o) + do iCol=1,nCol + tem1 = 0._kind_phys + tem2 = 0._kind_phys + do iLay=1,Model%levs + tem1 = tem1 + coldry(iCol,iLay)+colamt(iCol,iLay) + tem2 = tem2 + colamt(iCol,iLay) + enddo + precipitableH2o(iCol) = p_lev(iCol,iSFC)*0.01*(10._kind_phys*tem2 / (amdw*tem1*grav)) + enddo + + ! Reset diffusivity angle for Bands 2-3 and 5-9 to vary (between 1.50 + ! and 1.80) as a function of total column water vapor. the function + ! has been defined to minimize flux and cooling rate errors in these bands + ! over a wide range of precipitable water values. + do iCol=1,nCol + do iBand = 1, lw_gas_props%get_nband() + if (iBand==1 .or. iBand==4 .or. iBand==10) then + sec_diff_byband(iBand,iCol) = diffusivityB1410 + else + sec_diff_byband(iBand,iCol) = min( diffusivityHigh, max(diffusivityLow, & + a0(iBand)+a1(iBand)*exp(a2(iBand)*precipitableH2o(iCol)))) + endif + enddo + enddo + + ! ####################################################################################### + ! Radiation time step (output) (Is this really needed?) (Used by some diangostics) + ! ####################################################################################### + raddt = min(Model%fhswr, Model%fhlwr) + + ! ####################################################################################### + ! Setup surface ground temperature and ground/air skin temperature if required. + ! ####################################################################################### + tsfg(1:NCOL) = Sfcprop%tsfc(1:NCOL) + tsfa(1:NCOL) = Sfcprop%tsfc(1:NCOL) + + ! ####################################################################################### + ! Cloud microphysics + ! ####################################################################################### + call cloud_microphysics(Model, Tbd, Grid, Sfcprop, ncol, tracer, p_lay, t_lay, p_lev, & + tv_lay, relhum, qs_lay, q_lay, deltaZ, deltaP, clouds, cldsa, mbota, mtopa, de_lgth) + + ! Copy output cloud fields + cld_frac = clouds(:,:,1) + cld_lwp = clouds(:,:,2) + cld_reliq = clouds(:,:,3) + cld_iwp = clouds(:,:,4) + cld_reice = clouds(:,:,5) + cld_rwp = clouds(:,:,6) + cld_rerain = clouds(:,:,7) + cld_swp = clouds(:,:,8) + cld_resnow = clouds(:,:,9) + + end subroutine GFS_rrtmgp_pre_run + + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_pre_finalize + ! ######################################################################################### + subroutine GFS_rrtmgp_pre_finalize () + end subroutine GFS_rrtmgp_pre_finalize + + ! ######################################################################################### + ! Subroutine cloud_microphysics() + ! ######################################################################################### + subroutine cloud_microphysics(Model, Tbd, Grid, Sfcprop, ncol, tracer, p_lay, t_lay, p_lev,& + tv_lay, relhum, qs_lay, q_lay, deltaZ, deltaP, clouds, cldsa, mbota, mtopa, de_lgth) + + ! Inputs + type(GFS_control_type), intent(in) :: & + Model ! DDT: FV3-GFS model control parameters + type(GFS_tbd_type), intent(in) :: & + Tbd ! DDT: FV3-GFS data not yet assigned to a defined container + type(GFS_grid_type), intent(in) :: & + Grid ! DDT: FV3-GFS grid and interpolation related data + type(GFS_sfcprop_type), intent(in) :: & + Sfcprop ! DDT: FV3-GFS surface fields + integer, intent(in) :: & + ncol ! Number of horizontal gridpoints + real(kind_phys), dimension(ncol, Model%levs, 2:Model%ntrac),intent(in) :: & + tracer ! Cloud condensate amount in layer by type () + real(kind_phys), dimension(ncol,Model%levs), intent(in) :: & + p_lay, & ! Pressure @ model layer centers (Pa) + t_lay, & ! Temperature @ layer centers (K) + tv_lay, & ! Virtual temperature @ layer centers (K) + relhum, & ! Relative humidity @ layer centers(1) + qs_lay, & ! Saturation specific humidity @ layer center (kg/kg) + q_lay, & ! Specific humidity @ layer centers(kg/kg) + deltaZ, & ! Layer thickness (km) + deltaP ! Layer thickness (Pa) + real(kind_phys), dimension(ncol,Model%levs+1), intent(in) :: & + p_lev ! Pressure @ model layer interface (Pa) + + ! Outputs + real(kind_phys), dimension(ncol, Model%levs, NF_CLDS),intent(out) :: & + clouds ! Cloud properties (NCOL,Model%levs,NF_CLDS) + integer,dimension(ncol,3), intent(out) :: & + mbota, & ! Vertical indices for low, mid, hi cloud bases (NCOL,3) + mtopa ! Vertical indices for low, mid, hi cloud tops (NCOL,3) + real(kind_phys), dimension(ncol), intent(out) ::& + de_lgth ! Clouds decorrelation length (km) + real(kind_phys), dimension(ncol, 5), intent(out) :: & + cldsa ! Fraction of clouds for low, mid, hi, tot, bl (NCOL,5) + + ! Local variables + real(kind_phys), dimension(ncol, Model%levs, Model%ncnd) :: cld_condensate + integer :: i,k + real(kind_phys), parameter :: xrc3 = 100. + real(kind_phys), dimension(ncol, Model%levs) :: delta_q, cnv_w, cnv_c, effr_l, & + effr_i, effr_r, effr_s, cldcov + + ! ####################################################################################### + ! Obtain cloud information for radiation calculations + ! (clouds,cldsa,mtopa,mbota) + ! for prognostic cloud: + ! - For Zhao/Moorthi's prognostic cloud scheme, + ! call module_radiation_clouds::progcld1() + ! - For Zhao/Moorthi's prognostic cloud+pdfcld, + ! call module_radiation_clouds::progcld3() + ! call module_radiation_clouds::progclduni() for unified cloud and ncld=2 + ! ####################################################################################### + cld_condensate = 0.0_kind_phys + if (Model%ncnd == 1) then ! Zhao_Carr_Sundqvist + cld_condensate(1:NCOL,1:Model%levs,1) = tracer(1:NCOL,1:Model%levs,Model%ntcw) ! -liquid water/ice + elseif (Model%ncnd == 2) then ! MG + cld_condensate(1:NCOL,1:Model%levs,1) = tracer(1:NCOL,1:Model%levs,Model%ntcw) ! -liquid water + cld_condensate(1:NCOL,1:Model%levs,2) = tracer(1:NCOL,1:Model%levs,Model%ntiw) ! -ice water + elseif (Model%ncnd == 4) then ! MG2 + cld_condensate(1:NCOL,1:Model%levs,1) = tracer(1:NCOL,1:Model%levs,Model%ntcw) ! -liquid water + cld_condensate(1:NCOL,1:Model%levs,2) = tracer(1:NCOL,1:Model%levs,Model%ntiw) ! -ice water + cld_condensate(1:NCOL,1:Model%levs,3) = tracer(1:NCOL,1:Model%levs,Model%ntrw) ! -rain water + cld_condensate(1:NCOL,1:Model%levs,4) = tracer(1:NCOL,1:Model%levs,Model%ntsw) ! -snow water + elseif (Model%ncnd == 5) then ! GFDL MP, Thompson, MG3 + cld_condensate(1:NCOL,1:Model%levs,1) = tracer(1:NCOL,1:Model%levs,Model%ntcw) ! -liquid water + cld_condensate(1:NCOL,1:Model%levs,2) = tracer(1:NCOL,1:Model%levs,Model%ntiw) ! -ice water + cld_condensate(1:NCOL,1:Model%levs,3) = tracer(1:NCOL,1:Model%levs,Model%ntrw) ! -rain water + cld_condensate(1:NCOL,1:Model%levs,4) = tracer(1:NCOL,1:Model%levs,Model%ntsw) + & ! -snow + grapuel + tracer(1:NCOL,1:Model%levs,Model%ntgl) + endif + where(cld_condensate < epsq) cld_condensate = 0.0 + + ! For GFDL microphysics scheme... + if (Model%imp_physics == 11 ) then + if (.not. Model%lgfdlmprad) then + cld_condensate(:,:,1) = tracer(:,1:Model%levs,Model%ntcw) + cld_condensate(:,:,1) = cld_condensate(:,:,1) + tracer(:,1:Model%levs,Model%ntrw) + cld_condensate(:,:,1) = cld_condensate(:,:,1) + tracer(:,1:Model%levs,Model%ntiw) + cld_condensate(:,:,1) = cld_condensate(:,:,1) + tracer(:,1:Model%levs,Model%ntsw) + cld_condensate(:,:,1) = cld_condensate(:,:,1) + tracer(:,1:Model%levs,Model%ntgl) + endif + do k=1,Model%levs + do i=1,NCOL + if (cld_condensate(i,k,1) < EPSQ ) cld_condensate(i,k,1) = 0.0 + enddo + enddo + endif + + if (Model%uni_cld) then + if (Model%effr_in) then + cldcov(:,:) = Tbd%phy_f3d(:,:,Model%indcld) + effr_l(:,:) = Tbd%phy_f3d(:,:,2) + effr_i(:,:) = Tbd%phy_f3d(:,:,3) + effr_r(:,:) = Tbd%phy_f3d(:,:,4) + effr_s(:,:) = Tbd%phy_f3d(:,:,5) + else + do k=1,model%levs + do i=1,ncol + cldcov(i,k) = Tbd%phy_f3d(i,k,Model%indcld) + enddo + enddo + endif + elseif (Model%imp_physics == Model%imp_physics_gfdl) then ! GFDL MP + cldcov(1:NCOL,1:Model%levs) = tracer(1:NCOL,1:Model%levs,Model%ntclamt) + if (Model%effr_in) then + effr_l(:,:) = Tbd%phy_f3d(:,:,1) + effr_i(:,:) = Tbd%phy_f3d(:,:,2) + effr_r(:,:) = Tbd%phy_f3d(:,:,3) + effr_s(:,:) = Tbd%phy_f3d(:,:,4) + endif + else ! neither of the other two cases + cldcov = 0.0 + endif + + + ! Add suspended convective cloud water to grid-scale cloud water + ! only for cloud fraction & radiation computation it is to enhance + ! cloudiness due to suspended convec cloud water for zhao/moorthi's + ! (imp_phys=99) & ferrier's (imp_phys=5) microphysics schemes + if ((Model%num_p3d == 4) .and. (Model%npdf3d == 3)) then ! same as Model%imp_physics = 99 + delta_q(1:ncol,1:Model%levs) = Tbd%phy_f3d(1:ncol,Model%levs:1:-1,5) + cnv_w (1:ncol,1:Model%levs) = Tbd%phy_f3d(1:ncol,Model%levs:1:-1,6) + cnv_c (1:ncol,1:Model%levs) = Tbd%phy_f3d(1:ncol,Model%levs:1:-1,7) + elseif ((Model%npdf3d == 0) .and. (Model%ncnvcld3d == 1)) then ! same as MOdel%imp_physics=98 + delta_q(1:ncol,1:Model%levs) = 0.0 + cnv_w (1:ncol,1:Model%levs) = Tbd%phy_f3d(1:ncol,1:Model%levs,Model%num_p3d+1) + cnv_c (1:ncol,1:Model%levs) = 0.0 + else ! all the rest + delta_q(1:ncol,1:Model%levs) = 0.0 + cnv_w (1:ncol,1:Model%levs) = 0.0 + cnv_c (1:ncol,1:Model%levs) = 0.0 + endif + + ! For zhao/moorthi's prognostic cloud scheme, add in convective cloud water to liquid-cloud water + if (Model%imp_physics == 99) then + cld_condensate(1:NCOL,1:Model%levs,1) = cld_condensate(1:NCOL,1:Model%levs,1) + cnv_w(1:NCOL,1:Model%levs) + endif + + ! For MG prognostic cloud scheme, add in convective cloud water to liquid-and-ice-cloud condensate + if (Model%imp_physics == 10) then + cld_condensate(1:NCOL,1:Model%levs,1) = cld_condensate(1:NCOL,1:Model%levs,1) + cnv_w(1:NCOL,1:Model%levs) + cld_condensate(1:NCOL,1:Model%levs,2) + endif + + ! ####################################################################################### + ! MICROPHYSICS + ! ####################################################################################### + ! *) zhao/moorthi's prognostic cloud scheme or unified cloud and/or with MG microphysics + if (Model%imp_physics == 99 .or. Model%imp_physics == 10) then + if (Model%uni_cld .and. Model%ncld >= 2) then + call progclduni( & + p_lay/100., & ! IN - Pressure at model layer centers (mb) + p_lev/100., & ! IN - Pressure at model interfaces (mb) + t_lay, & ! IN - Temperature at layer centers (K) + tv_lay, & ! IN - Virtual temperature at layer centers (K) + cld_condensate, & ! IN - Cloud condensate amount (Model%ncnd types) () + Model%ncnd, & ! IN - Number of cloud condensate types () + Grid%xlat, & ! IN - Latitude (radians) + Grid%xlon, & ! IN - Longitude (radians) + Sfcprop%slmsk, & ! IN - Land/Sea mask () + deltaZ, & ! IN - Layer thickness (km) + deltaP/100., & ! IN - Layer thickness (hPa) + NCOL, & ! IN - Number of horizontal gridpoints + MODEL%LEVS, & ! IN - Number of model layers + MODEL%LEVS+1, & ! IN - Number of model levels + cldcov, & ! IN - Layer cloud fraction (used if uni_cld=.true.) + effr_l, & ! IN - Liquid-water effective radius (microns) + effr_i, & ! IN - Ice-water effective radius (microns) + effr_r, & ! IN - Rain-water effective radius (microns) + effr_s, & ! IN - Snow-water effective radius (microns) + Model%effr_in, & ! IN - Logical, if .true. use input effective radii + clouds, & ! OUT - Cloud properties (NCOL,Model%levs,NF_CLDS) + cldsa, & ! OUT - fraction of clouds for low, mid, hi, tot, bl (NCOL,5) + mtopa, & ! OUT - vertical indices for low, mid, hi cloud tops (NCOL,3) + mbota, & ! OUT - vertical indices for low, mid, hi cloud bases (NCOL,3) + de_lgth) ! OUT - clouds decorrelation length (km) + else + call progcld1 ( & + p_lay/100., & ! IN - Pressure at model layer centers (mb) + p_lev/100., & ! IN - Pressure at model interfaces (mb) + t_lay, & ! IN - Temperature at layer centers (K) + tv_lay, & ! IN - Virtual temperature at layer centers (K) + q_lay, & ! IN - Specific humidity at layer center (kg/kg) + qs_lay, & ! IN - Saturation specific humidity at layer center (kg/kg) + relhum, & ! IN - Relative humidity at layer center (1) + cld_condensate(:,:,1),& ! IN - Cloud condensate amount () + ! (Zhao: liq+convective; MG: liq+ice+convective) + Grid%xlat, & ! IN - Latitude (radians) + Grid%xlon, & ! IN - Longitude (radians) + Sfcprop%slmsk, & ! IN - Land/Sea mask () + deltaZ, & ! IN - Layer thickness (km) + deltaP/100., & ! IN - Layer thickness (hPa) + NCOL, & ! IN - Number of horizontal gridpoints + MODEL%LEVS, & ! IN - Number of model layers + MODEL%LEVS+1, & ! IN - Number of model levels + Model%uni_cld, & ! IN - True for cloud fraction from shoc + Model%lmfshal, & ! IN - True for mass flux shallow convection + Model%lmfdeep2, & ! IN - True for mass flux deep convection + cldcov, & ! IN - Layer cloud fraction (used if uni_cld=.true.) + effr_l, & ! IN - Liquid-water effective radius (microns) + effr_i, & ! IN - Ice-water effective radius (microns) + effr_r, & ! IN - Rain-water effective radius (microns) + effr_s, & ! IN - Snow-water effective radius (microns) + Model%effr_in, & ! IN - Logical, if .true. use input effective radii + clouds, & ! OUT - Cloud properties (NCOL,Model%levs,NF_CLDS) + cldsa, & ! OUT - fraction of clouds for low, mid, hi, tot, bl (NCOL,5) + mtopa, & ! OUT - vertical indices for low, mid, hi cloud tops (NCOL,3) + mbota, & ! OUT - vertical indices for low, mid, hi cloud bases (NCOL,3) + de_lgth) ! OUT - clouds decorrelation length (km) + endif + ! *) zhao/moorthi's prognostic cloud+pdfcld + elseif(Model%imp_physics == 98) then + call progcld3 ( & + p_lay/100., & ! IN - Pressure at model layer centers (mb) + p_lev/100., & ! IN - Pressure at model interfaces (mb) + t_lay, & ! IN - Temperature at layer centers (K) + tv_lay, & ! IN - Virtual temperature at layer centers (K) + q_lay, & ! IN - Specific humidity at layer center (kg/kg) + qs_lay, & ! IN - Saturation specific humidity at layer center (kg/kg) + relhum, & ! IN - Relative humidity at layer center (1) + cld_condensate(:,:,1),& ! IN - Cloud condensate amount (only h20) () + cnv_w, & ! IN - Layer convective cloud condensate + cnv_c, & ! IN - Layer convective cloud cover + Grid%xlat, & ! IN - Latitude (radians) + Grid%xlon, & ! IN - Longitude (radians) + Sfcprop%slmsk, & ! IN - Land/Sea mask () + deltaZ, & ! IN - Layer thickness (km) + deltaP/100., & ! IN - Layer thickness (hPa) + NCOL, & ! IN - Number of horizontal gridpoints + MODEL%LEVS, & ! IN - Number of model layers + MODEL%LEVS+1, & ! IN - Number of model levels + delta_q, & ! IN - Total water distribution width + Model%sup, & ! IN - ??? Supersaturation? + Model%kdt, & ! IN - ??? + Model%me, & ! IN - ??? NOT USED IN PROGCLD3() + clouds, & ! OUT - Cloud properties (NCOL,Model%levs,NF_CLDS) + cldsa, & ! OUT - fraction of clouds for low, mid, hi, tot, bl (NCOL,5) + mtopa, & ! OUT - vertical indices for low, mid, hi cloud tops (NCOL,3) + mbota, & ! OUT - vertical indices for low, mid, hi cloud bases (NCOL,3) + de_lgth) ! OUT - clouds decorrelation length (km) + ! *) GFDL cloud scheme + elseif (Model%imp_physics == 11) then + if (.not.Model%lgfdlmprad) then + call progcld4 ( & + p_lay/100., & ! IN - Pressure at model layer centers (mb) + p_lev/100., & ! IN - Pressure at model interfaces (mb) + t_lay, & ! IN - Temperature at layer centers (K) + tv_lay, & ! IN - Virtual temperature at layer centers (K) + q_lay, & ! IN - Specific humidity at layer center (kg/kg) + qs_lay, & ! IN - Saturation specific humidity at layer center (kg/kg) + relhum, & ! IN - Relative humidity at layer center (1) + cld_condensate(:,:,1),& ! IN - Cloud condensate amount (only h20) () + cnv_w, & ! IN - Layer convective cloud condensate + cnv_c, & ! IN - Layer convective cloud cover + Grid%xlat, & ! IN - Latitude (radians) + Grid%xlon, & ! IN - Longitude (radians) + Sfcprop%slmsk, & ! IN - Land/Sea mask () + cldcov, & ! IN - Layer cloud fraction (used if uni_cld=.true.) + deltaZ, & ! IN - Layer thickness (km) + deltaP/100., & ! IN - Layer thickness (hPa) + NCOL, & ! IN - Number of horizontal gridpoints + MODEL%LEVS, & ! IN - Number of model layers + MODEL%LEVS+1, & ! IN - Number of model levels + clouds, & ! OUT - Cloud properties (NCOL,Model%levs,NF_CLDS) + cldsa, & ! OUT - fraction of clouds for low, mid, hi, tot, bl (NCOL,5) + mtopa, & ! OUT - vertical indices for low, mid, hi cloud tops (NCOL,3) + mbota, & ! OUT - vertical indices for low, mid, hi cloud bases (NCOL,3) + de_lgth) ! OUT - clouds decorrelation length (km) + else + call progclduni( & + p_lay/100., & ! IN - Pressure at model layer centers (mb) + p_lev/100., & ! IN - Pressure at model interfaces (mb) + t_lay, & ! IN - Temperature at layer centers (K) + tv_lay, & ! IN - Virtual temperature at layer centers (K) + cld_condensate, & ! IN - Cloud condensate amount (Model%ncnd types) () + Model%ncnd, & ! IN - Number of cloud condensate types () + Grid%xlat, & ! IN - Latitude (radians) + Grid%xlon, & ! IN - Longitude (radians) + Sfcprop%slmsk, & ! IN - Land/Sea mask () + deltaZ, & ! IN - Layer thickness (km) + deltaP/100., & ! IN - Layer thickness (hPa) + NCOL, & ! IN - Number of horizontal gridpoints + MODEL%LEVS, & ! IN - Number of model layers + MODEL%LEVS+1, & ! IN - Number of model levels + cldcov, & ! IN - Layer cloud fraction (used if uni_cld=.true.) + effr_l, & ! IN - Liquid-water effective radius (microns) + effr_i, & ! IN - Ice-water effective radius (microns) + effr_r, & ! IN - Rain-water effective radius (microns) + effr_s, & ! IN - Snow-water effective radius (microns) + Model%effr_in, & ! IN - Logical, if .true. use input effective radii + clouds, & ! OUT - Cloud properties (NCOL,Model%levs,NF_CLDS) + cldsa, & ! OUT - fraction of clouds for low, mid, hi, tot, bl (NCOL,5) + mtopa, & ! OUT - vertical indices for low, mid, hi cloud tops (NCOL,3) + mbota, & ! OUT - vertical indices for low, mid, hi cloud bases (NCOL,3) + de_lgth) ! OUT - clouds decorrelation length (km) + endif + ! *) Thompson / WSM6 cloud micrphysics scheme + elseif(Model%imp_physics == 8 .or. Model%imp_physics == 6) then + + call progcld5 ( & ! IN + p_lay/100., & ! IN - Pressure at model layer centers (mb) + p_lev/100., & ! IN - Pressure at model interfaces (mb) + t_lay, & ! IN - Temperature at layer centers (K) + q_lay, & ! IN - Specific humidity at layer center (kg/kg) + qs_lay, & ! IN - Saturation specific humidity at layer center (kg/kg) + relhum, & ! IN - Relative humidity at layer center (1) + tracer, & ! IN - Cloud condensate amount in layer by type () + Grid%xlat, & ! IN - Latitude (radians) + Grid%xlon, & ! IN - Longitude (radians) + Sfcprop%slmsk, & ! IN - Land/Sea mask () + deltaZ, & ! IN - Layer thickness (km) + deltaP/100., & ! IN - Layer thickness (hPa) + Model%ntrac-1, & ! IN - Number of tracers + Model%ntcw-1, & ! IN - Tracer index for cloud condensate (or liquid water) + Model%ntiw-1, & ! IN - Tracer index for ice + Model%ntrw-1, & ! IN - Tracer index for rain + Model%ntsw-1, & ! IN - Tracer index for snow + Model%ntgl-1, & ! IN - Tracer index for groupel + NCOL, & ! IN - Number of horizontal gridpoints + MODEL%LEVS, & ! IN - Number of model layers + MODEL%LEVS+1, & ! IN - Number of model levels + Model%uni_cld, & ! IN - True for cloud fraction from shoc + Model%lmfshal, & ! IN - True for mass flux shallow convection + Model%lmfdeep2, & ! IN - True for mass flux deep convection + cldcov(:,1:Model%levs), & ! IN - Layer cloud fraction (used if uni_cld=.true.) + Tbd%phy_f3d(:,:,1), & ! IN - Liquid-water effective radius (microns) + Tbd%phy_f3d(:,:,2), & ! IN - Ice-water effective radius (microns) + Tbd%phy_f3d(:,:,3), & ! IN - LSnow-water effective radius (microns) + clouds, & ! OUT - Cloud properties (NCOL,Model%levs,NF_CLDS) + cldsa, & ! OUT - fraction of clouds for low, mid, hi, tot, bl (NCOL,5) + mtopa, & ! OUT - vertical indices for low, mid, hi cloud tops (NCOL,3) + mbota, & ! OUT - vertical indices for low, mid, hi cloud bases (NCOL,3) + de_lgth) ! OUT - clouds decorrelation length (km) + endif ! end if_imp_physics + end subroutine cloud_microphysics + ! +end module GFS_rrtmgp_pre diff --git a/physics/GFS_rrtmgp_pre.meta b/physics/GFS_rrtmgp_pre.meta new file mode 100644 index 000000000..c80098709 --- /dev/null +++ b/physics/GFS_rrtmgp_pre.meta @@ -0,0 +1,375 @@ +[ccpp-arg-table] + name = GFS_rrtmgp_pre_init + type = scheme +[Model] + standard_name = GFS_control_type_instance + long_name = instance of derived type GFS_control_type + units = DDT + dimensions = () + type = GFS_control_type + intent = inout + optional = F +[Radtend] + standard_name = GFS_radtend_type_instance + long_name = instance of derived type GFS_radtend_type + units = DDT + dimensions = () + type = GFS_radtend_type + intent = inout + optional = F +[active_gases_array] + standard_name = list_of_active_gases_used_by_RRTMGP + long_name = list of active gases used by RRTMGP + units = none + dimensions = (number_of_active_gases_used_by_RRTMGP) + type = character + kind = len=* + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F + +######################################################################## +[ccpp-arg-table] + name = GFS_rrtmgp_pre_run + type = scheme +[Model] + standard_name = GFS_control_type_instance + long_name = instance of derived type GFS_control_type + units = DDT + dimensions = () + type = GFS_control_type + intent = in + optional = F +[Grid] + standard_name = GFS_grid_type_instance + long_name = instance of derived type GFS_grid_type + units = DDT + dimensions = () + type = GFS_grid_type + intent = in + optional = F +[Sfcprop] + standard_name = GFS_sfcprop_type_instance + long_name = instance of derived type GFS_sfcprop_type + units = DDT + dimensions = () + type = GFS_sfcprop_type + intent = in + optional = F +[Statein] + standard_name = GFS_statein_type_instance + long_name = instance of derived type GFS_statein_type + units = DDT + dimensions = () + type = GFS_statein_type + intent = in + optional = F +[Tbd] + standard_name = GFS_tbd_type_instance + long_name = instance of derived type GFS_tbd_type + units = DDT + dimensions = () + type = GFS_tbd_type + intent = in + optional = F +[Coupling] + standard_name = GFS_coupling_type_instance + long_name = instance of derived type GFS_coupling_type + units = DDT + dimensions = () + type = GFS_coupling_type + intent = in + optional = F +[Radtend] + standard_name = GFS_radtend_type_instance + long_name = instance of derived type GFS_radtend_type + units = DDT + dimensions = () + type = GFS_radtend_type + intent = inout + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal loop extent + units = count + dimensions = () + type = integer + intent = in + optional = F +[lw_gas_props] + standard_name = coefficients_for_lw_gas_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[active_gases_array] + standard_name = list_of_active_gases_used_by_RRTMGP + long_name = list of active gases used by RRTMGP + units = none + dimensions = (number_of_active_gases_used_by_RRTMGP) + type = character + kind = len=* + intent = in + optional = F +[raddt] + standard_name = time_step_for_radiation + long_name = radiation time step + units = s + dimensions = () + type = real + kind = kind_phys + intent = out + optional = F +[sec_diff_byband] + standard_name = secant_of_diffusivity_angle_each_RRTMGP_LW_band + long_name = secant of diffusivity angle in each RRTMGP LW band + units = none + dimensions = (number_of_lw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[p_lay] + standard_name = air_pressure_at_layer_for_RRTMGP_in_hPa + long_name = air pressure at vertical layer for radiation calculation + units = hPa + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[p_lev] + standard_name = air_pressure_at_interface_for_RRTMGP_in_hPa + long_name = air pressure at vertical interface for radiation calculation + units = hPa + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = out + optional = F +[t_lay] + standard_name = air_temperature_at_layer_for_RRTMGP + long_name = air temperature at vertical layer for radiation calculation + units = K + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[t_lev] + standard_name = air_temperature_at_interface_for_RRTMGP + long_name = air temperature at vertical interface for radiation calculation + units = K + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = out + optional = F +[tsfg] + standard_name = surface_ground_temperature_for_radiation + long_name = surface ground temperature for radiation + units = K + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[tsfa] + standard_name = surface_air_temperature_for_radiation + long_name = lowest model layer air temperature for radiation + units = K + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[tv_lay] + standard_name = virtual_temperature + long_name = layer virtual temperature + units = K + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[relhum] + standard_name = relative_humidity + long_name = layer relative humidity + units = frac + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[tracer] + standard_name = chemical_tracers + long_name = chemical tracers + units = g g-1 + dimensions = (horizontal_dimension,vertical_dimension,number_of_tracers) + type = real + kind = kind_phys + intent = out + optional = F +[cld_frac] + standard_name = total_cloud_fraction + long_name = layer total cloud fraction + units = frac + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[cld_lwp] + standard_name = cloud_liquid_water_path + long_name = layer cloud liquid water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[cld_reliq] + standard_name = mean_effective_radius_for_liquid_cloud + long_name = mean effective radius for liquid cloud + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[cld_iwp] + standard_name = cloud_ice_water_path + long_name = layer cloud ice water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[cld_reice] + standard_name = mean_effective_radius_for_ice_cloud + long_name = mean effective radius for ice cloud + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[cld_swp] + standard_name = cloud_snow_water_path + long_name = layer cloud snow water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[cld_resnow] + standard_name = mean_effective_radius_for_snow_flake + long_name = mean effective radius for snow cloud + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[cld_rwp] + standard_name = cloud_rain_water_path + long_name = layer cloud rain water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[cld_rerain] + standard_name = mean_effective_radius_for_rain_drop + long_name = mean effective radius for rain cloud + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[mtopa] + standard_name = model_layer_number_at_cloud_top + long_name = vertical indices for low, middle and high cloud tops + units = index + dimensions = (horizontal_dimension,3) + type = integer + intent = out + optional = F +[mbota] + standard_name = model_layer_number_at_cloud_base + long_name = vertical indices for low, middle and high cloud bases + units = index + dimensions = (horizontal_dimension,3) + type = integer + intent = out + optional = F +[de_lgth] + standard_name = cloud_decorrelation_length + long_name = cloud decorrelation length + units = km + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[cldsa] + standard_name = cloud_area_fraction_for_radiation + long_name = fraction of clouds for low, middle, high, total and BL + units = frac + dimensions = (horizontal_dimension,5) + type = real + kind = kind_phys + intent = out + optional = F +[gas_concentrations] + standard_name = Gas_concentrations_for_RRTMGP_suite + long_name = DDT containing gas concentrations for RRTMGP radiation scheme + units = DDT + dimensions = () + type = ty_gas_concs + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F + +######################################################################## +[ccpp-arg-table] + name = GFS_rrtmgp_pre_finalize + type = scheme diff --git a/physics/GFS_rrtmgp_setup.F90 b/physics/GFS_rrtmgp_setup.F90 new file mode 100644 index 000000000..42ce8662c --- /dev/null +++ b/physics/GFS_rrtmgp_setup.F90 @@ -0,0 +1,609 @@ +!> \file GFS_rrtmgp_setup.f90 +!! This file contains +module GFS_rrtmgp_setup + + use physparam, only : & + isolar, ictmflg, ico2flg, ioznflg, iaerflg, iaermdl, icldflg, & + iovrsw, iovrlw, lcrick, lcnorm, lnoprec, ialbflg, iemsflg, & + isubcsw, isubclw, ivflip , ipsd0, iswcliq + use machine, only: & + kind_phys ! Working type + use GFS_typedefs, only: & + GFS_control_type ! Model control parameters + implicit none + + public GFS_rrtmgp_setup_init, GFS_rrtmgp_setup_run, GFS_rrtmgp_setup_finalize + + private + + logical :: is_initialized = .false. + + ! Version tag and last revision date + character(40), parameter :: & + VTAGRAD='NCEP-RRTMGP_driver v1.0 Sep 2019 ' + + ! Defaults + !> new data input control variables (set/reset in subroutines radinit/radupdate): + integer :: month0 = 0 + integer :: iyear0 = 0 + integer :: monthd = 0 + + !> control flag for the first time of reading climatological ozone data + !! (set/reset in subroutines radinit/radupdate, it is used only if the + !! control parameter ioznflg=0) + logical :: loz1st = .true. + + contains +!> \defgroup GFS_rrtmgp_setup GFS RRTMGP Scheme Setup +!! @{ +!! \section arg_table_GFS_rrtmgp_setup_init +!! \htmlinclude GFS_rrtmgp_setup.html +!! + subroutine GFS_rrtmgp_setup_init (Model, si, levr, ictm, isol, ico2, & + iaer, ialb, iems, ntcw, num_p3d, ntoz, iovr_sw, iovr_lw, & + isubc_sw, isubc_lw, icliq_sw, crick_proof, ccnorm, imp_physics, & + norad_precip, idate, iflip, me, & + errmsg, errflg) + implicit none + + ! Inputs + type(GFS_control_type), intent(in) :: & + Model ! DDT containing model control parameters + real(kind_phys), dimension(levr+1), intent(in) :: & + si + integer, intent(in) :: levr, ictm, isol, ico2, iaer, ialb, iems, & + ntcw, num_p3d, ntoz, iovr_sw, iovr_lw, isubc_sw, isubc_lw, & + icliq_sw, imp_physics, iflip, me + logical, intent(in) :: & + crick_proof, ccnorm, norad_precip + integer, intent(in), dimension(4) :: & + idate + ! Outputs + character(len=*), intent(out) :: errmsg + integer, intent(out) :: errflg + + ! Initialize the CCPP error handling variables + errmsg = '' + errflg = 0 + if (is_initialized) return + + ! Set radiation parameters + isolar = isol ! solar constant control flag + ictmflg = ictm ! data ic time/date control flag + ico2flg = ico2 ! co2 data source control flag + ioznflg = ntoz ! ozone data source control flag + iswcliq = icliq_sw ! optical property for liquid clouds for sw + iovrsw = iovr_sw ! cloud overlapping control flag for sw + iovrlw = iovr_lw ! cloud overlapping control flag for lw + lcrick = crick_proof ! control flag for eliminating CRICK + lcnorm = ccnorm ! control flag for in-cld condensate + lnoprec = norad_precip ! precip effect on radiation flag (ferrier microphysics) + isubcsw = isubc_sw ! sub-column cloud approx flag in sw radiation + isubclw = isubc_lw ! sub-column cloud approx flag in lw radiation + ialbflg = ialb ! surface albedo control flag + iemsflg = iems ! surface emissivity control flag + ivflip = iflip ! vertical index direction control flag + + if ( ictm==0 .or. ictm==-2 ) then + iaerflg = mod(iaer, 100) ! no volcanic aerosols for clim hindcast + else + iaerflg = mod(iaer, 1000) + endif + iaermdl = iaer/1000 ! control flag for aerosol scheme selection + if ( iaermdl < 0 .or. (iaermdl>2 .and. iaermdl/=5) ) then + print *, ' Error -- IAER flag is incorrect, Abort' + stop 7777 + endif + + !if ( ntcw > 0 ) then + icldflg = 1 ! prognostic cloud optical prop scheme + !else + ! icldflg = 0 ! no support for diag cloud opt prop scheme + !endif + + ! Set initial permutation seed for mcica cloud-radiation + if ( isubc_sw>0 .or. isubc_lw>0 ) then + ipsd0 = 17*idate(1)+43*idate(2)+37*idate(3)+23*idate(4) + endif + + if ( me == 0 ) then + print *,' In rad_initialize (GFS_rrtmgp_setup_init), before calling radinit' + print *,' si =',si + print *,' levr=',levr,' ictm=',ictm,' isol=',isol,' ico2=',ico2,& + ' iaer=',iaer,' ialb=',ialb,' iems=',iems,' ntcw=',ntcw + print *,' np3d=',num_p3d,' ntoz=',ntoz,' iovr_sw=',iovr_sw, & + ' iovr_lw=',iovr_lw,' isubc_sw=',isubc_sw, & + ' isubc_lw=',isubc_lw,' icliq_sw=',icliq_sw, & + ' iflip=',iflip,' me=',me + print *,' crick_proof=',crick_proof, & + ' ccnorm=',ccnorm,' norad_precip=',norad_precip + endif + + ! Hack for using RRTMGP-Sw and RRTMG-LW + if (.not. Model%do_GPsw_Glw) then + call radinit( si, levr, imp_physics, me ) + endif + + if ( me == 0 ) then + print *,' Radiation sub-cloud initial seed =',ipsd0, & + ' IC-idate =',idate + print *,' return from rad_initialize (GFS_rrtmgp_setup_init) - after calling radinit' + endif + + is_initialized = .true. + return + end subroutine GFS_rrtmgp_setup_init + +!> \section arg_table_GFS_rrtmgp_setup_run +!! \htmlinclude GFS_rrtmgp_setup.html +!! + subroutine GFS_rrtmgp_setup_run (idate, jdate, deltsw, deltim, lsswr, me, & + slag, sdec, cdec, solcon, errmsg, errflg) + + implicit none + + ! interface variables + integer, intent(in) :: idate(:) + integer, intent(in) :: jdate(:) + real(kind=kind_phys), intent(in) :: deltsw + real(kind=kind_phys), intent(in) :: deltim + logical, intent(in) :: lsswr + integer, intent(in) :: me + real(kind=kind_phys), intent(out) :: slag + real(kind=kind_phys), intent(out) :: sdec + real(kind=kind_phys), intent(out) :: cdec + real(kind=kind_phys), intent(out) :: solcon + character(len=*), intent(out) :: errmsg + integer, intent(out) :: errflg + + ! Check initialization state + if (.not.is_initialized) then + write(errmsg, fmt='((a))') 'GFS_rrtmgp_setup_run called before GFS_rrtmgp_setup_init' + errflg = 1 + return + end if + + ! Initialize the CCPP error handling variables + errmsg = '' + errflg = 0 + + call radupdate(idate,jdate,deltsw,deltim,lsswr,me, & + slag,sdec,cdec,solcon) + + end subroutine GFS_rrtmgp_setup_run + + !> \section arg_table_GFS_rrtmgp_setup_finalize + !! \htmlinclude GFS_rrtmgp_setup.html + !! + subroutine GFS_rrtmgp_setup_finalize (errmsg, errflg) + + implicit none + + character(len=*), intent( out) :: errmsg + integer, intent( out) :: errflg + + ! Initialize the CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not.is_initialized) return + + ! do finalization stuff if needed + + is_initialized = .false. + + end subroutine GFS_rrtmgp_setup_finalize + + + ! Private functions + + + subroutine radinit( si, NLAY, imp_physics, me ) + !................................... + +! --- inputs: +! & ( si, NLAY, imp_physics, me ) +! --- outputs: +! ( none ) + +! ================= subprogram documentation block ================ ! +! ! +! subprogram: radinit initialization of radiation calculations ! +! ! +! usage: call radinit ! +! ! +! attributes: ! +! language: fortran 90 ! +! machine: wcoss ! +! ! +! ==================== definition of variables ==================== ! +! ! +! input parameters: ! +! si : model vertical sigma interface ! +! NLAY : number of model vertical layers ! +! imp_physics : MP identifier ! +! me : print control flag ! +! ! +! outputs: (none) ! +! ! +! external module variables: (in module physparam) ! +! isolar : solar constant cntrol flag ! +! = 0: use the old fixed solar constant in "physcon" ! +! =10: use the new fixed solar constant in "physcon" ! +! = 1: use noaa ann-mean tsi tbl abs-scale with cycle apprx! +! = 2: use noaa ann-mean tsi tbl tim-scale with cycle apprx! +! = 3: use cmip5 ann-mean tsi tbl tim-scale with cycl apprx! +! = 4: use cmip5 mon-mean tsi tbl tim-scale with cycl apprx! +! iaerflg : 3-digit aerosol flag (abc for volc, lw, sw) ! +! a:=0 use background stratospheric aerosol ! +! =1 include stratospheric vocanic aeros ! +! b:=0 no topospheric aerosol in lw radiation ! +! =1 compute tropspheric aero in 1 broad band for lw ! +! =2 compute tropspheric aero in multi bands for lw ! +! c:=0 no topospheric aerosol in sw radiation ! +! =1 include tropspheric aerosols for sw ! +! ico2flg : co2 data source control flag ! +! =0: use prescribed global mean co2 (old oper) ! +! =1: use observed co2 annual mean value only ! +! =2: use obs co2 monthly data with 2-d variation ! +! ictmflg : =yyyy#, external data ic time/date control flag ! +! = -2: same as 0, but superimpose seasonal cycle ! +! from climatology data set. ! +! = -1: use user provided external data for the ! +! forecast time, no extrapolation. ! +! = 0: use data at initial cond time, if not ! +! available, use latest, no extrapolation. ! +! = 1: use data at the forecast time, if not ! +! available, use latest and extrapolation. ! +! =yyyy0: use yyyy data for the forecast time, ! +! no further data extrapolation. ! +! =yyyy1: use yyyy data for the fcst. if needed, do ! +! extrapolation to match the fcst time. ! +! ioznflg : ozone data source control flag ! +! =0: use climatological ozone profile ! +! =1: use interactive ozone profile ! +! ialbflg : albedo scheme control flag ! +! =0: climatology, based on surface veg types ! +! =1: modis retrieval based surface albedo scheme ! +! iemsflg : emissivity scheme cntrl flag (ab 2-digit integer) ! +! a:=0 set sfc air/ground t same for lw radiation ! +! =1 set sfc air/ground t diff for lw radiation ! +! b:=0 use fixed sfc emissivity=1.0 (black-body) ! +! =1 use varying climtology sfc emiss (veg based) ! +! =2 future development (not yet) ! +! icldflg : cloud optical property scheme control flag ! +! =0: use diagnostic cloud scheme ! +! =1: use prognostic cloud scheme (default) ! +! imp_physics : cloud microphysics scheme control flag ! +! =99 zhao/carr/sundqvist microphysics scheme ! +! =98 zhao/carr/sundqvist microphysics+pdf cloud&cnvc,cnvw ! +! =11 GFDL cloud microphysics ! +! =8 Thompson microphysics scheme ! +! =6 WSM6 microphysics scheme ! +! =10 MG microphysics scheme ! +! iovrsw : control flag for cloud overlap in sw radiation ! +! iovrlw : control flag for cloud overlap in lw radiation ! +! =0: random overlapping clouds ! +! =1: max/ran overlapping clouds ! +! isubcsw : sub-column cloud approx control flag in sw radiation ! +! isubclw : sub-column cloud approx control flag in lw radiation ! +! =0: with out sub-column cloud approximation ! +! =1: mcica sub-col approx. prescribed random seed ! +! =2: mcica sub-col approx. provided random seed ! +! lcrick : control flag for eliminating CRICK ! +! =t: apply layer smoothing to eliminate CRICK ! +! =f: do not apply layer smoothing ! +! lcnorm : control flag for in-cld condensate ! +! =t: normalize cloud condensate ! +! =f: not normalize cloud condensate ! +! lnoprec : precip effect in radiation flag (ferrier microphysics) ! +! =t: snow/rain has no impact on radiation ! +! =f: snow/rain has impact on radiation ! +! ivflip : vertical index direction control flag ! +! =0: index from toa to surface ! +! =1: index from surface to toa ! +! ! +! subroutines called: sol_init, aer_init, gas_init, cld_init, ! +! sfc_init, rlwinit, rswinit ! +! ! +! usage: call radinit ! +! ! +! =================================================================== ! +! + + use module_radiation_astronomy, only : sol_init + use module_radiation_aerosols, only : aer_init + use module_radiation_gases, only : gas_init + use module_radiation_surface, only : sfc_init + use module_radiation_clouds, only : cld_init + + implicit none + +! --- inputs: + integer, intent(in) :: NLAY, me, imp_physics + + real (kind=kind_phys), intent(in) :: si(:) + +! --- outputs: (none, to module variables) + +! --- locals: + +! +!===> ... begin here +! +!> -# Set up control variables and external module variables in +!! module physparam +#if 0 + ! GFS_radiation_driver.F90 may in the future initialize air/ground + ! temperature differently; however, this is not used at the moment + ! and as such we avoid the difficulty of dealing with exchanging + ! itsfc between GFS_rrtmgp_setup and a yet-to-be-created/-used + ! interstitial routine (or GFS_radiation_driver.F90) + itsfc = iemsflg / 10 ! sfc air/ground temp control +#endif + loz1st = (ioznflg == 0) ! first-time clim ozone data read flag + month0 = 0 + iyear0 = 0 + monthd = 0 + + if (me == 0) then +! print *,' NEW RADIATION PROGRAM STRUCTURES -- SEP 01 2004' + print *,' NEW RADIATION PROGRAM STRUCTURES BECAME OPER. ', & + & ' May 01 2007' + print *, VTAGRAD !print out version tag + print *,' - Selected Control Flag settings: ICTMflg=',ictmflg, & + & ' ISOLar =',isolar, ' ICO2flg=',ico2flg,' IAERflg=',iaerflg, & + & ' IALBflg=',ialbflg,' IEMSflg=',iemsflg,' ICLDflg=',icldflg, & + & ' IMP_PHYSICS=',imp_physics,' IOZNflg=',ioznflg + print *,' IVFLIP=',ivflip,' IOVRSW=',iovrsw,' IOVRLW=',iovrlw, & + & ' ISUBCSW=',isubcsw,' ISUBCLW=',isubclw +! write(0,*)' IVFLIP=',ivflip,' IOVRSW=',iovrsw,' IOVRLW=',iovrlw,& +! & ' ISUBCSW=',isubcsw,' ISUBCLW=',isubclw + print *,' LCRICK=',lcrick,' LCNORM=',lcnorm,' LNOPREC=',lnoprec + + if ( ictmflg==0 .or. ictmflg==-2 ) then + print *,' Data usage is limited by initial condition!' + print *,' No volcanic aerosols' + endif + + if ( isubclw == 0 ) then + print *,' - ISUBCLW=',isubclw,' No McICA, use grid ', & + & 'averaged cloud in LW radiation' + elseif ( isubclw == 1 ) then + print *,' - ISUBCLW=',isubclw,' Use McICA with fixed ', & + & 'permutation seeds for LW random number generator' + elseif ( isubclw == 2 ) then + print *,' - ISUBCLW=',isubclw,' Use McICA with random ', & + & 'permutation seeds for LW random number generator' + else + print *,' - ERROR!!! ISUBCLW=',isubclw,' is not a ', & + & 'valid option ' + stop + endif + + if ( isubcsw == 0 ) then + print *,' - ISUBCSW=',isubcsw,' No McICA, use grid ', & + & 'averaged cloud in SW radiation' + elseif ( isubcsw == 1 ) then + print *,' - ISUBCSW=',isubcsw,' Use McICA with fixed ', & + & 'permutation seeds for SW random number generator' + elseif ( isubcsw == 2 ) then + print *,' - ISUBCSW=',isubcsw,' Use McICA with random ', & + & 'permutation seeds for SW random number generator' + else + print *,' - ERROR!!! ISUBCSW=',isubcsw,' is not a ', & + & 'valid option ' + stop + endif + + if ( isubcsw /= isubclw ) then + print *,' - *** Notice *** ISUBCSW /= ISUBCLW !!!', & + & isubcsw, isubclw + endif + endif + + ! Initialization + + call sol_init ( me ) ! --- ... astronomy initialization routine + call aer_init ( NLAY, me ) ! --- ... aerosols initialization routine + call gas_init ( me ) ! --- ... co2 and other gases initialization routine + call sfc_init ( me ) ! --- ... surface initialization routine + call cld_init ( si, NLAY, imp_physics, me) ! --- ... cloud initialization routine + + return + !................................... + end subroutine radinit + !----------------------------------- + +!> This subroutine checks and updates time sensitive data used by +!! radiation computations. This subroutine needs to be placed inside +!! the time advancement loop but outside of the horizontal grid loop. +!! It is invoked at radiation calling frequncy but before any actual +!! radiative transfer computations. +!! \param idate NCEP absolute date and time of intial condition +!! (year,month,day,time-zone,hour,minute,second, +!! mil-second) +!! \param jdate NCEP absolute date and time at forecast time +!! (year,month,day,time-zone,hour,minute,second, +!! mil-second) +!! \param deltsw SW radiation calling time interval in seconds +!! \param deltim model advancing time-step duration in seconds +!! \param lsswr logical control flag for SW radiation calculations +!! \param me print control flag +!! \param slag equation of time in radians +!! \param sdec,cdec sine and cosine of the solar declination angle +!! \param solcon solar constant adjusted by sun-earth distance \f$(W/m^2)\f$ +!> \section gen_radupdate General Algorithm +!> @{ +!----------------------------------- + subroutine radupdate( idate,jdate,deltsw,deltim,lsswr, me, & + & slag,sdec,cdec,solcon) +!................................... + +! ================= subprogram documentation block ================ ! +! ! +! subprogram: radupdate calls many update subroutines to check and ! +! update radiation required but time varying data sets and module ! +! variables. ! +! ! +! usage: call radupdate ! +! ! +! attributes: ! +! language: fortran 90 ! +! machine: ibm sp ! +! ! +! ==================== definition of variables ==================== ! +! ! +! input parameters: ! +! idate(8) : ncep absolute date and time of initial condition ! +! (yr, mon, day, t-zone, hr, min, sec, mil-sec) ! +! jdate(8) : ncep absolute date and time at fcst time ! +! (yr, mon, day, t-zone, hr, min, sec, mil-sec) ! +! deltsw : sw radiation calling frequency in seconds ! +! deltim : model timestep in seconds ! +! lsswr : logical flags for sw radiation calculations ! +! me : print control flag ! +! ! +! outputs: ! +! slag : equation of time in radians ! +! sdec, cdec : sin and cos of the solar declination angle ! +! solcon : sun-earth distance adjusted solar constant (w/m2) ! +! ! +! external module variables: ! +! isolar : solar constant cntrl (in module physparam) ! +! = 0: use the old fixed solar constant in "physcon" ! +! =10: use the new fixed solar constant in "physcon" ! +! = 1: use noaa ann-mean tsi tbl abs-scale with cycle apprx! +! = 2: use noaa ann-mean tsi tbl tim-scale with cycle apprx! +! = 3: use cmip5 ann-mean tsi tbl tim-scale with cycl apprx! +! = 4: use cmip5 mon-mean tsi tbl tim-scale with cycl apprx! +! ictmflg : =yyyy#, external data ic time/date control flag ! +! = -2: same as 0, but superimpose seasonal cycle ! +! from climatology data set. ! +! = -1: use user provided external data for the ! +! forecast time, no extrapolation. ! +! = 0: use data at initial cond time, if not ! +! available, use latest, no extrapolation. ! +! = 1: use data at the forecast time, if not ! +! available, use latest and extrapolation. ! +! =yyyy0: use yyyy data for the forecast time, ! +! no further data extrapolation. ! +! =yyyy1: use yyyy data for the fcst. if needed, do ! +! extrapolation to match the fcst time. ! +! ! +! module variables: ! +! loz1st : first-time clim ozone data read flag ! +! ! +! subroutines called: sol_update, aer_update, gas_update ! +! ! +! =================================================================== ! +! + use module_radiation_astronomy, only : sol_update + use module_radiation_aerosols, only : aer_update + use module_radiation_gases, only : gas_update + + implicit none + +! --- inputs: + integer, intent(in) :: idate(:), jdate(:), me + logical, intent(in) :: lsswr + + real (kind=kind_phys), intent(in) :: deltsw, deltim + +! --- outputs: + real (kind=kind_phys), intent(out) :: slag, sdec, cdec, solcon + +! --- locals: + integer :: iyear, imon, iday, ihour + integer :: kyear, kmon, kday, khour + + logical :: lmon_chg ! month change flag + logical :: lco2_chg ! cntrl flag for updating co2 data + logical :: lsol_chg ! cntrl flag for updating solar constant +! +!===> ... begin here +! +!> -# Set up time stamp at fcst time and that for green house gases +!! (currently co2 only) +! --- ... time stamp at fcst time + + iyear = jdate(1) + imon = jdate(2) + iday = jdate(3) + ihour = jdate(5) + +! --- ... set up time stamp used for green house gases (** currently co2 only) + + if ( ictmflg==0 .or. ictmflg==-2 ) then ! get external data at initial condition time + kyear = idate(1) + kmon = idate(2) + kday = idate(3) + khour = idate(5) + else ! get external data at fcst or specified time + kyear = iyear + kmon = imon + kday = iday + khour = ihour + endif ! end if_ictmflg_block + + if ( month0 /= imon ) then + lmon_chg = .true. + month0 = imon + else + lmon_chg = .false. + endif + +!> -# Call module_radiation_astronomy::sol_update(), yearly update, no +!! time interpolation. + if (lsswr) then + + if ( isolar == 0 .or. isolar == 10 ) then + lsol_chg = .false. + elseif ( iyear0 /= iyear ) then + lsol_chg = .true. + else + lsol_chg = ( isolar==4 .and. lmon_chg ) + endif + iyear0 = iyear + + call sol_update & +! --- inputs: + & ( jdate,kyear,deltsw,deltim,lsol_chg, me, & +! --- outputs: + & slag,sdec,cdec,solcon & + & ) + + endif ! end_if_lsswr_block + +!> -# Call module_radiation_aerosols::aer_update(), monthly update, no +!! time interpolation + if ( lmon_chg ) then + call aer_update ( iyear, imon, me ) + endif + +!> -# Call co2 and other gases update routine: +!! module_radiation_gases::gas_update() + if ( monthd /= kmon ) then + monthd = kmon + lco2_chg = .true. + else + lco2_chg = .false. + endif + + call gas_update ( kyear,kmon,kday,khour,loz1st,lco2_chg, me ) + + if ( loz1st ) loz1st = .false. + +!> -# Call surface update routine (currently not needed) +! call sfc_update ( iyear, imon, me ) + +!> -# Call clouds update routine (currently not needed) +! call cld_update ( iyear, imon, me ) +! + return +!................................... + end subroutine radupdate +!----------------------------------- + +!! @} +end module GFS_rrtmgp_setup diff --git a/physics/GFS_rrtmgp_setup.meta b/physics/GFS_rrtmgp_setup.meta new file mode 100644 index 000000000..e40ad865a --- /dev/null +++ b/physics/GFS_rrtmgp_setup.meta @@ -0,0 +1,343 @@ +[ccpp-arg-table] + name = GFS_rrtmgp_setup_init + type = scheme +[Model] + standard_name = GFS_control_type_instance + long_name = instance of derived type GFS_control_type + units = DDT + dimensions = () + type = GFS_control_type + intent = in + optional = F +[si] + standard_name = vertical_sigma_coordinate_for_radiation_initialization + long_name = vertical sigma coordinate for radiation initialization + units = none + dimensions = (number_of_vertical_layers_for_radiation_calculations_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[levr] + standard_name = number_of_vertical_layers_for_radiation_calculations + long_name = number of vertical levels for radiation calculations + units = count + dimensions = () + type = integer + intent = in + optional = F +[ictm] + standard_name = flag_for_initial_time_date_control + long_name = flag for initial conditions and forcing + units = flag + dimensions = () + type = integer + intent = in + optional = F +[isol] + standard_name = flag_for_solar_constant + long_name = use prescribed solar constant + units = flag + dimensions = () + type = integer + intent = in + optional = F +[ico2] + standard_name = flag_for_using_prescribed_global_mean_co2_value + long_name = prescribed global mean value (old opernl) + units = flag + dimensions = () + type = integer + intent = in + optional = F +[iaer] + standard_name = flag_for_default_aerosol_effect_in_shortwave_radiation + long_name = default aerosol effect in sw only + units = flag + dimensions = () + type = integer + intent = in + optional = F +[ialb] + standard_name = flag_for_using_climatology_albedo + long_name = flag for using climatology alb, based on sfc type + units = flag + dimensions = () + type = integer + intent = in + optional = F +[iems] + standard_name = flag_for_surface_emissivity_control + long_name = surface emissivity control flag, use fixed value of 1 + units = flag + dimensions = () + type = integer + intent = in + optional = F +[ntcw] + standard_name = index_for_liquid_cloud_condensate + long_name = tracer index for cloud condensate (or liquid water) + units = index + dimensions = () + type = integer + intent = in + optional = F +[num_p3d] + standard_name = array_dimension_of_3d_arrays_for_microphysics + long_name = number of 3D arrays needed for microphysics + units = count + dimensions = () + type = integer + intent = in + optional = F +[ntoz] + standard_name = index_for_ozone + long_name = tracer index for ozone mixing ratio + units = index + dimensions = () + type = integer + intent = in + optional = F +[iovr_sw] + standard_name = flag_for_max_random_overlap_clouds_for_shortwave_radiation + long_name = sw: max-random overlap clouds + units = flag + dimensions = () + type = integer + intent = in + optional = F +[iovr_lw] + standard_name = flag_for_max_random_overlap_clouds_for_longwave_radiation + long_name = lw: max-random overlap clouds + units = flag + dimensions = () + type = integer + intent = in + optional = F +[isubc_sw] + standard_name = flag_for_sw_clouds_without_sub_grid_approximation + long_name = flag for sw clouds without sub-grid approximation + units = flag + dimensions = () + type = integer + intent = in + optional = F +[isubc_lw] + standard_name = flag_for_lw_clouds_without_sub_grid_approximation + long_name = flag for lw clouds without sub-grid approximation + units = flag + dimensions = () + type = integer + intent = in + optional = F +[icliq_sw] + standard_name = flag_for_optical_property_for_liquid_clouds_for_shortwave_radiation + long_name = sw optical property for liquid clouds + units = flag + dimensions = () + type = integer + intent = in + optional = F +[crick_proof] + standard_name = flag_for_CRICK_proof_cloud_water + long_name = flag for CRICK-Proof cloud water + units = flag + dimensions = () + type = logical + intent = in + optional = F +[ccnorm] + standard_name = flag_for_cloud_condensate_normalized_by_cloud_cover + long_name = flag for cloud condensate normalized by cloud cover + units = flag + dimensions = () + type = logical + intent = in + optional = F +[imp_physics] + standard_name = flag_for_microphysics_scheme + long_name = choice of microphysics scheme + units = flag + dimensions = () + type = integer + intent = in + optional = F +[norad_precip] + standard_name = flag_for_precipitation_effect_on_radiation + long_name = radiation precip flag for Ferrier/Moorthi + units = flag + dimensions = () + type = logical + intent = in + optional = F +[idate] + standard_name = date_and_time_at_model_initialization_reordered + long_name = initialization date and time + units = none + dimensions = (4) + type = integer + intent = in + optional = F +[iflip] + standard_name = flag_for_vertical_index_direction_control + long_name = flag for vertical index direction control + units = flag + dimensions = () + type = integer + intent = in + optional = F +[me] + standard_name = mpi_rank + long_name = current MPI-rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F + +######################################################################## +[ccpp-arg-table] + name = GFS_rrtmgp_setup_run + type = scheme +[idate] + standard_name = date_and_time_at_model_initialization + long_name = initialization date and time + units = none + dimensions = (8) + type = integer + intent = in + optional = F +[jdate] + standard_name = forecast_date_and_time + long_name = current forecast date and time + units = none + dimensions = (8) + type = integer + intent = in + optional = F +[deltsw] + standard_name = frequency_for_shortwave_radiation + long_name = frequency for shortwave radiation + units = s + dimensions = () + type = real + kind = kind_phys + intent = in + optional = F +[deltim] + standard_name = time_step_for_dynamics + long_name = dynamics timestep + units = s + dimensions = () + type = real + kind = kind_phys + intent = in + optional = F +[lsswr] + standard_name = flag_to_calc_sw + long_name = logical flags for sw radiation calls + units = flag + dimensions = () + type = logical + intent = in + optional = F +[me] + standard_name = mpi_rank + long_name = current MPI-rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[slag] + standard_name = equation_of_time + long_name = equation of time (radian) + units = radians + dimensions = () + type = real + kind = kind_phys + intent = out + optional = F +[sdec] + standard_name = sine_of_solar_declination_angle + long_name = sin of the solar declination angle + units = none + dimensions = () + type = real + kind = kind_phys + intent = out + optional = F +[cdec] + standard_name = cosine_of_solar_declination_angle + long_name = cos of the solar declination angle + units = none + dimensions = () + type = real + kind = kind_phys + intent = out + optional = F +[solcon] + standard_name = solar_constant + long_name = solar constant (sun-earth distant adjusted) + units = W m-2 + dimensions = () + type = real + kind = kind_phys + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F + +######################################################################## +[ccpp-arg-table] + name = GFS_rrtmgp_setup_finalize + type = scheme +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F diff --git a/physics/GFS_rrtmgp_sw_post.F90 b/physics/GFS_rrtmgp_sw_post.F90 new file mode 100644 index 000000000..7d4e6ba6b --- /dev/null +++ b/physics/GFS_rrtmgp_sw_post.F90 @@ -0,0 +1,307 @@ +module GFS_rrtmgp_sw_post + use machine, only: kind_phys + use GFS_typedefs, only: GFS_coupling_type, GFS_control_type, GFS_grid_type, & + GFS_radtend_type, GFS_diag_type, GFS_statein_type + use module_radiation_aerosols, only: NSPC1 + use module_radsw_parameters, only: topfsw_type, sfcfsw_type, profsw_type, cmpfsw_type + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use mo_fluxes_byband, only: ty_fluxes_byband + use mo_heating_rates, only: compute_heating_rate + use rrtmgp_aux, only: check_error_msg + implicit none + + public GFS_rrtmgp_sw_post_init,GFS_rrtmgp_sw_post_run,GFS_rrtmgp_sw_post_finalize + +contains + + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_sw_post_init + ! ######################################################################################### + subroutine GFS_rrtmgp_sw_post_init() + end subroutine GFS_rrtmgp_sw_post_init + + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_sw_post_run + ! ######################################################################################### +!> \section arg_table_GFS_rrtmgp_sw_post_run +!! \htmlinclude GFS_rrtmgp_sw_post.html +!! + subroutine GFS_rrtmgp_sw_post_run (Model, Grid, Diag, Radtend, Coupling, Statein, scmpsw, & + nCol, p_lev, sfc_alb_nir_dir, sfc_alb_nir_dif, sfc_alb_uvvis_dir, sfc_alb_uvvis_dif, & + sw_gas_props, nday, idxday, fluxswUP_allsky, fluxswDOWN_allsky, fluxswUP_clrsky, & + fluxswDOWN_clrsky, raddt, aerodp, cldsa, mbota, mtopa, cld_frac, cldtausw, flxprf_sw,& + hsw0, errmsg, errflg) + + ! Inputs + type(GFS_control_type), intent(in) :: & + Model ! Fortran DDT: FV3-GFS model control parameters + type(GFS_grid_type), intent(in) :: & + Grid ! Fortran DDT: FV3-GFS grid and interpolation related data + type(GFS_coupling_type), intent(inout) :: & + Coupling ! Fortran DDT: FV3-GFS fields to/from coupling with other components + type(GFS_radtend_type), intent(inout) :: & + Radtend ! Fortran DDT: FV3-GFS radiation tendencies + type(GFS_diag_type), intent(inout) :: & + Diag ! Fortran DDT: FV3-GFS diagnotics data + type(GFS_statein_type), intent(in) :: & + Statein ! Fortran DDT: FV3-GFS prognostic state data in from dycore + integer, intent(in) :: & + nCol, & ! Horizontal loop extent + nDay ! Number of daylit columns + integer, intent(in), dimension(nday) :: & + idxday ! Index array for daytime points + type(ty_gas_optics_rrtmgp),intent(in) :: & + sw_gas_props ! DDT containing SW spectral information + real(kind_phys), dimension(nCol, Model%levs+1), intent(in) :: & + p_lev ! Pressure @ model layer-interfaces (hPa) + real(kind_phys), dimension(sw_gas_props%get_nband(),ncol), intent(in) :: & + sfc_alb_nir_dir, & ! Surface albedo (direct) + sfc_alb_nir_dif, & ! Surface albedo (diffuse) + sfc_alb_uvvis_dir, & ! Surface albedo (direct) + sfc_alb_uvvis_dif ! Surface albedo (diffuse) + real(kind_phys), dimension(nCol, Model%levs+1), intent(in) :: & + fluxswUP_allsky, & ! SW All-sky flux (W/m2) + fluxswDOWN_allsky, & ! SW All-sky flux (W/m2) + fluxswUP_clrsky, & ! SW Clear-sky flux (W/m2) + fluxswDOWN_clrsky ! SW All-sky flux (W/m2) + real(kind_phys), intent(in) :: & + raddt ! Radiation time step + real(kind_phys), dimension(nCol,NSPC1), intent(in) :: & + aerodp ! Vertical integrated optical depth for various aerosol species + real(kind_phys), dimension(nCol,5), intent(in) :: & + cldsa ! Fraction of clouds for low, middle, high, total and BL + integer, dimension(nCol,3), intent(in) ::& + mbota, & ! vertical indices for low, middle and high cloud tops + mtopa ! vertical indices for low, middle and high cloud bases + real(kind_phys), dimension(nCol,Model%levs), intent(in) :: & + cld_frac, & ! Total cloud fraction in each layer + cldtausw ! approx .55mu band layer cloud optical depth + real(kind_phys),dimension(nCol, Model%levs) :: & + hswc ! All-sky heating rates (K/s) + + ! Outputs (mandatory) + character(len=*), intent(out) :: & + errmsg + integer, intent(out) :: & + errflg + + ! Outputs (optional) + real(kind_phys), dimension(nCol, Model%levs), optional, intent(inout) :: & + hsw0 ! Shortwave clear-sky heating-rate (K/sec) + type(profsw_type), dimension(nCol, Model%levs+1), intent(inout), optional :: & + flxprf_sw ! 2D radiative fluxes, components: + ! upfxc - total sky upward flux (W/m2) + ! dnfxc - total sky dnward flux (W/m2) + ! upfx0 - clear sky upward flux (W/m2) + ! dnfx0 - clear sky dnward flux (W/m2) + type(cmpfsw_type), dimension(nCol), intent(inout), optional :: & + scmpsw ! 2D surface fluxes, components: + ! uvbfc - total sky downward uv-b flux at (W/m2) + ! uvbf0 - clear sky downward uv-b flux at (W/m2) + ! nirbm - downward nir direct beam flux (W/m2) + ! nirdf - downward nir diffused flux (W/m2) + ! visbm - downward uv+vis direct beam flux (W/m2) + ! visdf - downward uv+vis diffused flux (W/m2) + ! Local variables + integer :: i, j, k, iSFC, iTOA, itop, ibtc + real(kind_phys) :: tem0d, tem1, tem2 + real(kind_phys), dimension(nDay, Model%levs) :: thetaTendClrSky, thetaTendAllSky + logical :: l_clrskysw_hr, l_fluxessw2d, top_at_1, l_sfcFluxessw1D + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. Model%lsswr) return + if (nDay .gt. 0) then + + ! Are any optional outputs requested? + l_clrskysw_hr = present(hsw0) + l_fluxessw2d = present(flxprf_sw) + l_sfcfluxessw1D = present(scmpsw) + + ! ####################################################################################### + ! What is vertical ordering? + ! ####################################################################################### + top_at_1 = (p_lev(1,1) .lt. p_lev(1, Model%levs)) + if (top_at_1) then + iSFC = Model%levs+1 + iTOA = 1 + else + iSFC = 1 + iTOA = Model%levs+1 + endif + + ! ####################################################################################### + ! Compute SW heating-rates + ! ####################################################################################### + ! Clear-sky heating-rate (optional) + if (l_clrskysw_HR) then + call check_error_msg('GFS_rrtmgp_post',compute_heating_rate( & + fluxswUP_clrsky(idxday(1:nDay),:), & ! IN - Shortwave upward clear-sky flux profiles (W/m2) + fluxswDOWN_clrsky(idxday(1:nDay),:), & ! IN - Shortwave downward clear-sky flux profiles (W/m2) + p_lev(idxday(1:nDay),:), & ! IN - Pressure at model-interface (Pa) + thetaTendClrSky)) ! OUT - Clear-sky heating-rate (K/sec) + hsw0(idxday(1:nDay),:)=thetaTendClrSky + endif + + ! All-sky heating-rate (mandatory) + call check_error_msg('GFS_rrtmgp_post',compute_heating_rate( & + fluxswUP_allsky(idxday(1:nDay),:), & ! IN - Shortwave upward all-sky flux profiles (W/m2) + fluxswDOWN_allsky(idxday(1:nDay),:), & ! IN - Shortwave downward all-sky flux profiles (W/m2) + p_lev(idxday(1:nDay),:), & ! IN - Pressure at model-interface (Pa) + thetaTendAllSky)) ! OUT - All-sky heating-rate (K/sec) + hswc(idxday(1:nDay),:) = thetaTendAllSky + + ! Copy fluxes from RRTGMP types into model radiation types. + ! Mandatory outputs + Diag%topfsw(:)%upfxc = fluxswUP_allsky(:,iTOA) + Diag%topfsw(:)%upfx0 = fluxswUP_clrsky(:,iTOA) + Diag%topfsw(:)%dnfxc = fluxswDOWN_allsky(:,iTOA) + Radtend%sfcfsw(:)%upfxc = fluxswUP_allsky(:,iSFC) + Radtend%sfcfsw(:)%upfx0 = fluxswUP_clrsky(:,iSFC) + Radtend%sfcfsw(:)%dnfxc = fluxswDOWN_allsky(:,iSFC) + Radtend%sfcfsw(:)%dnfx0 = fluxswDOWN_clrsky(:,iSFC) + + ! Optional output + if(l_fluxessw2D) then + flxprf_sw(:,:)%upfxc = fluxswUP_allsky(:,:) + flxprf_sw(:,:)%dnfxc = fluxswDOWN_allsky(:,:) + flxprf_sw(:,:)%upfx0 = fluxswUP_clrsky(:,:) + flxprf_sw(:,:)%dnfx0 = fluxswDOWN_clrsky(:,:) + endif + + ! ####################################################################################### + ! Save SW outputs + ! ####################################################################################### + ! All-sky heating rate + do k = 1, Model%levs + Radtend%htrsw(1:nCol,k) = hswc(1:nCol,k) + enddo + ! Clear-sky heating rate + if (Model%swhtr) then + do k = 1, Model%levs + Radtend%swhc(1:nCol,k) = hsw0(1:nCol,k) + enddo + endif + + ! Surface down and up spectral component fluxes + ! - Save two spectral bands' surface downward and upward fluxes for output. + do i=1,nCol + Coupling%nirbmdi(i) = scmpsw(i)%nirbm + Coupling%nirdfdi(i) = scmpsw(i)%nirdf + Coupling%visbmdi(i) = scmpsw(i)%visbm + Coupling%visdfdi(i) = scmpsw(i)%visdf + + Coupling%nirbmui(i) = scmpsw(i)%nirbm * sfc_alb_nir_dir(1,i) + Coupling%nirdfui(i) = scmpsw(i)%nirdf * sfc_alb_nir_dif(1,i) + Coupling%visbmui(i) = scmpsw(i)%visbm * sfc_alb_uvvis_dir(1,i) + Coupling%visdfui(i) = scmpsw(i)%visdf * sfc_alb_uvvis_dif(1,i) + enddo + else ! if_nday_block + ! ####################################################################################### + ! Save SW outputs + ! ####################################################################################### + Radtend%htrsw(:,:) = 0.0 + Radtend%sfcfsw = sfcfsw_type( 0.0, 0.0, 0.0, 0.0 ) + Diag%topfsw = topfsw_type( 0.0, 0.0, 0.0 ) + scmpsw = cmpfsw_type( 0.0, 0.0, 0.0, 0.0, 0.0, 0.0 ) + + do i=1,nCol + Coupling%nirbmdi(i) = 0.0 + Coupling%nirdfdi(i) = 0.0 + Coupling%visbmdi(i) = 0.0 + Coupling%visdfdi(i) = 0.0 + + Coupling%nirbmui(i) = 0.0 + Coupling%nirdfui(i) = 0.0 + Coupling%visbmui(i) = 0.0 + Coupling%visdfui(i) = 0.0 + enddo + + if (Model%swhtr) then + Radtend%swhc(:,:) = 0 + endif + endif ! end_if_nday + + ! Radiation fluxes for other physics processes + do i=1,nCol + Coupling%sfcnsw(i) = Radtend%sfcfsw(i)%dnfxc - Radtend%sfcfsw(i)%upfxc + Coupling%sfcdsw(i) = Radtend%sfcfsw(i)%dnfxc + enddo + + ! ####################################################################################### + ! Save SW diagnostics + ! - For time averaged output quantities (including total-sky and clear-sky SW and LW + ! fluxes at TOA and surface; conventional 3-domain cloud amount, cloud top and base + ! pressure, and cloud top temperature; aerosols AOD, etc.), store computed results in + ! corresponding slots of array fluxr with appropriate time weights. + ! - Collect the fluxr data for wrtsfc + ! ####################################################################################### + if (Model%lssav) then + do i=1,nCol + Diag%fluxr(i,34) = Diag%fluxr(i,34) + Model%fhswr*aerodp(i,1) ! total aod at 550nm + Diag%fluxr(i,35) = Diag%fluxr(i,35) + Model%fhswr*aerodp(i,2) ! DU aod at 550nm + Diag%fluxr(i,36) = Diag%fluxr(i,36) + Model%fhswr*aerodp(i,3) ! BC aod at 550nm + Diag%fluxr(i,37) = Diag%fluxr(i,37) + Model%fhswr*aerodp(i,4) ! OC aod at 550nm + Diag%fluxr(i,38) = Diag%fluxr(i,38) + Model%fhswr*aerodp(i,5) ! SU aod at 550nm + Diag%fluxr(i,39) = Diag%fluxr(i,39) + Model%fhswr*aerodp(i,6) ! SS aod at 550nm + if (Radtend%coszen(i) > 0.) then + ! SW all-sky fluxes + tem0d = Model%fhswr * Radtend%coszdg(i) / Radtend%coszen(i) + Diag%fluxr(i,2 ) = Diag%fluxr(i,2) + Diag%topfsw(i)%upfxc * tem0d ! total sky top sw up + Diag%fluxr(i,3 ) = Diag%fluxr(i,3) + Radtend%sfcfsw(i)%upfxc * tem0d + Diag%fluxr(i,4 ) = Diag%fluxr(i,4) + Radtend%sfcfsw(i)%dnfxc * tem0d ! total sky sfc sw dn + ! SW uv-b fluxes + Diag%fluxr(i,21) = Diag%fluxr(i,21) + scmpsw(i)%uvbfc * tem0d ! total sky uv-b sw dn + Diag%fluxr(i,22) = Diag%fluxr(i,22) + scmpsw(i)%uvbf0 * tem0d ! clear sky uv-b sw dn + ! SW TOA incoming fluxes + Diag%fluxr(i,23) = Diag%fluxr(i,23) + Diag%topfsw(i)%dnfxc * tem0d ! top sw dn + ! SW SFC flux components + Diag%fluxr(i,24) = Diag%fluxr(i,24) + scmpsw(i)%visbm * tem0d ! uv/vis beam sw dn + Diag%fluxr(i,25) = Diag%fluxr(i,25) + scmpsw(i)%visdf * tem0d ! uv/vis diff sw dn + Diag%fluxr(i,26) = Diag%fluxr(i,26) + scmpsw(i)%nirbm * tem0d ! nir beam sw dn + Diag%fluxr(i,27) = Diag%fluxr(i,27) + scmpsw(i)%nirdf * tem0d ! nir diff sw dn + ! SW clear-sky fluxes + Diag%fluxr(i,29) = Diag%fluxr(i,29) + Diag%topfsw(i)%upfx0 * tem0d + Diag%fluxr(i,31) = Diag%fluxr(i,31) + Radtend%sfcfsw(i)%upfx0 * tem0d + Diag%fluxr(i,32) = Diag%fluxr(i,32) + Radtend%sfcfsw(i)%dnfx0 * tem0d + endif + enddo + + ! Save total and boundary-layer clouds + do i=1,nCol + Diag%fluxr(i,17) = Diag%fluxr(i,17) + raddt * cldsa(i,4) + Diag%fluxr(i,18) = Diag%fluxr(i,18) + raddt * cldsa(i,5) + enddo + + ! Save cld frac,toplyr,botlyr and top temp, note that the order of h,m,l cloud + ! is reversed for the fluxr output. save interface pressure (pa) of top/bot + do j = 1, 3 + do i = 1, nCol + tem0d = raddt * cldsa(i,j) + itop = mtopa(i,j) + ibtc = mbota(i,j) + Diag%fluxr(i, 8-j) = Diag%fluxr(i, 8-j) + tem0d + Diag%fluxr(i,11-j) = Diag%fluxr(i,11-j) + tem0d * Statein%prsi(i,itop) + Diag%fluxr(i,14-j) = Diag%fluxr(i,14-j) + tem0d * Statein%prsi(i,ibtc) + Diag%fluxr(i,17-j) = Diag%fluxr(i,17-j) + tem0d * Statein%tgrs(i,itop) + + ! Add optical depth and emissivity output + tem1 = 0. + do k=ibtc,itop + tem1 = tem1 + cldtausw(i,k) ! approx .55 mu channel + enddo + Diag%fluxr(i,43-j) = Diag%fluxr(i,43-j) + tem0d * tem1 + enddo + enddo + endif + end subroutine GFS_rrtmgp_sw_post_run + + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_sw_post_finalize + ! ######################################################################################### + subroutine GFS_rrtmgp_sw_post_finalize () + end subroutine GFS_rrtmgp_sw_post_finalize + +end module GFS_rrtmgp_sw_post diff --git a/physics/GFS_rrtmgp_sw_post.meta b/physics/GFS_rrtmgp_sw_post.meta new file mode 100644 index 000000000..a933cba89 --- /dev/null +++ b/physics/GFS_rrtmgp_sw_post.meta @@ -0,0 +1,267 @@ +[ccpp-arg-table] + name = GFS_rrtmgp_sw_post_run + type = scheme +[Model] + standard_name = GFS_control_type_instance + long_name = instance of derived type GFS_control_type + units = DDT + dimensions = () + type = GFS_control_type + intent = in + optional = F +[Grid] + standard_name = GFS_grid_type_instance + long_name = instance of derived type GFS_grid_type + units = DDT + dimensions = () + type = GFS_grid_type + intent = in + optional = F +[Diag] + standard_name = GFS_diag_type_instance + long_name = instance of derived type GFS_diag_type + units = DDT + dimensions = () + type = GFS_diag_type + intent = inout + optional = F +[Radtend] + standard_name = GFS_radtend_type_instance + long_name = instance of derived type GFS_radtend_type + units = DDT + dimensions = () + type = GFS_radtend_type + intent = inout + optional = F +[Coupling] + standard_name = GFS_coupling_type_instance + long_name = instance of derived type GFS_coupling_type + units = DDT + dimensions = () + type = GFS_coupling_type + intent = inout + optional = F +[Statein] + standard_name = GFS_statein_type_instance + long_name = instance of derived type GFS_statein_type + units = DDT + dimensions = () + type = GFS_statein_type + intent = in + optional = F +[scmpsw] + standard_name = components_of_surface_downward_shortwave_fluxes + long_name = derived type for special components of surface downward shortwave fluxes + units = W m-2 + dimensions = (horizontal_dimension) + type = cmpfsw_type + intent = inout + optional = T +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal loop extent + units = count + dimensions = () + type = integer + intent = in + optional = F +[p_lev] + standard_name = air_pressure_at_interface_for_RRTMGP_in_hPa + long_name = air pressure level + units = hPa + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[sfc_alb_nir_dir] + standard_name = surface_albedo_nearIR_direct + long_name = near-IR (direct) surface albedo (sfc_alb_nir_dir) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sfc_alb_nir_dif] + standard_name = surface_albedo_nearIR_diffuse + long_name = near-IR (diffuse) surface albedo (sfc_alb_nir_dif) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sfc_alb_uvvis_dir] + standard_name = surface_albedo_uvvis_dir + long_name = UVVIS (direct) surface albedo (sfc_alb_uvvis_dir) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sfc_alb_uvvis_dif] + standard_name = surface_albedo_uvvis_dif + long_name = UVVIS (diffuse) surface albedo (sfc_alb_uvvis_dif) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[nday] + standard_name = daytime_points_dimension + long_name = daytime points dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[idxday] + standard_name = daytime_points + long_name = daytime points + units = index + dimensions = (horizontal_dimension) + type = integer + intent = in + optional = F +[fluxswUP_allsky] + standard_name = RRTMGP_sw_flux_profile_upward_allsky + long_name = RRTMGP upward shortwave all-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[fluxswDOWN_allsky] + standard_name = RRTMGP_sw_flux_profile_downward_allsky + long_name = RRTMGP downward shortwave all-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[fluxswUP_clrsky] + standard_name = RRTMGP_sw_flux_profile_upward_clrsky + long_name = RRTMGP upward shortwave clr-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[fluxswDOWN_clrsky] + standard_name = RRTMGP_sw_flux_profile_downward_clrsky + long_name = RRTMGP downward shortwave clr-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[raddt] + standard_name = time_step_for_radiation + long_name = radiation time step + units = s + dimensions = () + type = real + kind = kind_phys + intent = in + optional = F +[aerodp] + standard_name = atmosphere_optical_thickness_due_to_ambient_aerosol_particles + long_name = vertical integrated optical depth for various aerosol species + units = none + dimensions = (horizontal_dimension,number_of_species_for_aerosol_optical_depth) + type = real + kind = kind_phys + intent = in + optional = F +[cldsa] + standard_name = cloud_area_fraction_for_radiation + long_name = fraction of clouds for low, middle, high, total and BL + units = frac + dimensions = (horizontal_dimension,5) + type = real + kind = kind_phys + intent = in + optional = F +[mtopa] + standard_name = model_layer_number_at_cloud_top + long_name = vertical indices for low, middle and high cloud tops + units = index + dimensions = (horizontal_dimension,3) + type = integer + intent = in + optional = F +[mbota] + standard_name = model_layer_number_at_cloud_base + long_name = vertical indices for low, middle and high cloud bases + units = index + dimensions = (horizontal_dimension,3) + type = integer + intent = in + optional = F +[cld_frac] + standard_name = total_cloud_fraction + long_name = layer total cloud fraction + units = frac + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[cldtausw] + standard_name = RRTMGP_cloud_optical_depth_layers_at_0_55mu_band + long_name = approx .55mu band layer cloud optical depth + units = none + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sw_gas_props] + standard_name = coefficients_for_sw_gas_optics + long_name = DDT containing spectral information for RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[flxprf_sw] + standard_name = RRTMGP_sw_fluxes + long_name = sw fluxes total sky / csk and up / down at levels + units = W m-2 + dimensions = (horizontal_dimension,adjusted_vertical_level_dimension_plus_one) + type = profsw_type + intent = inout + optional = T +[hsw0] + standard_name = RRTMGP_sw_heating_rate_clear_sky + long_name = RRTMGP shortwave clear sky heating rate + units = K s-1 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = inout + optional = T +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F diff --git a/physics/GFS_rrtmgp_sw_pre.F90 b/physics/GFS_rrtmgp_sw_pre.F90 new file mode 100644 index 000000000..6987c3e4a --- /dev/null +++ b/physics/GFS_rrtmgp_sw_pre.F90 @@ -0,0 +1,155 @@ +module GFS_rrtmgp_sw_pre + use physparam + use machine, only: & + kind_phys ! Working type + use GFS_typedefs, only: & + GFS_sfcprop_type, & ! Surface fields + GFS_control_type, & ! Model control parameters + GFS_grid_type, & ! Grid and interpolation related data + GFS_coupling_type, & ! + GFS_statein_type, & ! + GFS_radtend_type, & ! Radiation tendencies needed in physics + GFS_interstitial_type + use module_radiation_astronomy,only: & + coszmn ! Function to compute cos(SZA) + use module_radiation_surface, only: & + NF_ALBD, & ! Number of surface albedo categories (4; nir-direct, nir-diffuse, uvvis-direct, uvvis-diffuse) + setalb ! Routine to compute surface albedo + use surface_perturbation, only: & + cdfnor ! Routine to compute CDF (used to compute percentiles) + use mo_gas_optics_rrtmgp, only: & + ty_gas_optics_rrtmgp + public GFS_rrtmgp_sw_pre_run,GFS_rrtmgp_sw_pre_init,GFS_rrtmgp_sw_pre_finalize + +contains + + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_sw_pre_init + ! ######################################################################################### + subroutine GFS_rrtmgp_sw_pre_init () + end subroutine GFS_rrtmgp_sw_pre_init + + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_sw_pre_run + ! ######################################################################################### +!> \section arg_table_GFS_rrtmgp_sw_pre_run +!! \htmlinclude GFS_rrtmgp_sw_pre.html +!! + subroutine GFS_rrtmgp_sw_pre_run(Model, Grid, Sfcprop, Statein, ncol, p_lay, p_lev, & + tv_lay, relhum, tracer, sw_gas_props, nday, idxday, alb1d, sfc_alb_nir_dir, & + sfc_alb_nir_dif, sfc_alb_uvvis_dir, sfc_alb_uvvis_dif, RadTend, Coupling, & + errmsg, errflg) + + ! Inputs + type(GFS_control_type), intent(in) :: & + Model ! DDT: FV3-GFS model control parameters + type(GFS_grid_type), intent(in) :: & + Grid ! DDT: FV3-GFS grid and interpolation related data + type(GFS_sfcprop_type), intent(in) :: & + Sfcprop ! DDT: FV3-GFS surface fields + type(GFS_statein_type), intent(in) :: & + Statein ! DDT: FV3-GFS prognostic state data in from dycore + integer, intent(in) :: & + ncol ! Number of horizontal grid points + real(kind_phys), dimension(ncol,Model%levs),intent(in) :: & + p_lay, & ! Layer pressure + tv_lay, & ! Layer virtual-temperature + relhum ! Layer relative-humidity + real(kind_phys), dimension(ncol, Model%levs, 2:Model%ntrac),intent(in) :: & + tracer + real(kind_phys), dimension(ncol,Model%levs+1),intent(in) :: & + p_lev ! Pressure @ layer interfaces (Pa) + type(ty_gas_optics_rrtmgp),intent(in) :: & + sw_gas_props ! RRTMGP DDT: spectral information for SW calculation + + ! Outputs + integer, intent(out) :: & + nday ! Number of daylit points + integer, dimension(ncol), intent(out) :: & + idxday ! Indices for daylit points + real(kind_phys), dimension(ncol), intent(out) :: & + alb1d ! Surface albedo pertubation + real(kind_phys), dimension(sw_gas_props%get_nband(),ncol), intent(out) :: & + sfc_alb_nir_dir, & ! Surface albedo (direct) + sfc_alb_nir_dif, & ! Surface albedo (diffuse) + sfc_alb_uvvis_dir, & ! Surface albedo (direct) + sfc_alb_uvvis_dif ! Surface albedo (diffuse) + type(GFS_radtend_type), intent(inout) :: & + Radtend ! DDT: FV3-GFS radiation tendencies + type(GFS_coupling_type), intent(inout) :: & + Coupling ! DDT: FV3-GFS coupling arrays + character(len=*), intent(out) :: & + errmsg ! Error message + integer, intent(out) :: & + errflg ! Error flag + + ! Local variables + integer :: i, j, iCol, iBand, iLay + real(kind_phys), dimension(ncol, NF_ALBD) :: sfcalb + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. Model%lsswr) return + + ! ####################################################################################### + ! Compute cosine of zenith angle (only when SW is called) + ! ####################################################################################### + call coszmn (Grid%xlon, Grid%sinlat, Grid%coslat, Model%solhr, NCOL, Model%me, & + Radtend%coszen, Radtend%coszdg) + + ! ####################################################################################### + ! For SW gather daylit points + ! ####################################################################################### + nday = 0 + idxday = 0 + do i = 1, NCOL + if (Radtend%coszen(i) >= 0.0001) then + nday = nday + 1 + idxday(nday) = i + endif + enddo + + ! ####################################################################################### + ! mg, sfc-perts + ! --- scale random patterns for surface perturbations with perturbation size + ! --- turn vegetation fraction pattern into percentile pattern + ! ####################################################################################### + alb1d(:) = 0. + if (Model%do_sfcperts) then + if (Model%pertalb(1) > 0.) then + do i=1,ncol + call cdfnor(Coupling%sfc_wts(i,5),alb1d(i)) + enddo + endif + endif + + ! ####################################################################################### + ! Call module_radiation_surface::setalb() to setup surface albedo. + ! ####################################################################################### + call setalb (Sfcprop%slmsk, Sfcprop%snowd, Sfcprop%sncovr, Sfcprop%snoalb, Sfcprop%zorl, & + Radtend%coszen, Sfcprop%tsfc, Sfcprop%tsfc, Sfcprop%hprime(:,1), Sfcprop%alvsf, & + Sfcprop%alnsf, Sfcprop%alvwf, Sfcprop%alnwf, Sfcprop%facsf, Sfcprop%facwf, & + Sfcprop%fice, Sfcprop%tisfc, NCOL, alb1d, Model%pertalb, sfcalb) + + ! Approximate mean surface albedo from vis- and nir- diffuse values. + Radtend%sfalb(:) = max(0.01, 0.5 * (sfcalb(:,2) + sfcalb(:,4))) + + ! Spread across all SW bands + do iBand=1,sw_gas_props%get_nband() + sfc_alb_nir_dir(iBand,1:NCOL) = sfcalb(1:NCOL,1) + sfc_alb_nir_dif(iBand,1:NCOL) = sfcalb(1:NCOL,2) + sfc_alb_uvvis_dir(iBand,1:NCOL) = sfcalb(1:NCOL,3) + sfc_alb_uvvis_dif(iBand,1:NCOL) = sfcalb(1:NCOL,4) + enddo + + end subroutine GFS_rrtmgp_sw_pre_run + + ! ######################################################################################### + ! SUBROUTINE GFS_rrtmgp_sw_pre_finalize + ! ######################################################################################### + subroutine GFS_rrtmgp_sw_pre_finalize () + end subroutine GFS_rrtmgp_sw_pre_finalize + +end module GFS_rrtmgp_sw_pre diff --git a/physics/GFS_rrtmgp_sw_pre.meta b/physics/GFS_rrtmgp_sw_pre.meta new file mode 100644 index 000000000..73df740e1 --- /dev/null +++ b/physics/GFS_rrtmgp_sw_pre.meta @@ -0,0 +1,194 @@ +[ccpp-arg-table] + name = GFS_rrtmgp_sw_pre_run + type = scheme +[Model] + standard_name = GFS_control_type_instance + long_name = instance of derived type GFS_control_type + units = DDT + dimensions = () + type = GFS_control_type + intent = in + optional = F +[Grid] + standard_name = GFS_grid_type_instance + long_name = instance of derived type GFS_grid_type + units = DDT + dimensions = () + type = GFS_grid_type + intent = in + optional = F +[Sfcprop] + standard_name = GFS_sfcprop_type_instance + long_name = instance of derived type GFS_sfcprop_type + units = DDT + dimensions = () + type = GFS_sfcprop_type + intent = in + optional = F +[Statein] + standard_name = GFS_statein_type_instance + long_name = instance of derived type GFS_statein_type + units = DDT + dimensions = () + type = GFS_statein_type + intent = in + optional = F +[Radtend] + standard_name = GFS_radtend_type_instance + long_name = instance of derived type GFS_radtend_type + units = DDT + dimensions = () + type = GFS_radtend_type + intent = inout + optional = F +[Coupling] + standard_name = GFS_coupling_type_instance + long_name = Fortran DDT containing FV3-GFS fields to/from coupling with other components + units = DDT + dimensions = () + type = GFS_coupling_type + intent = inout + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal loop extent + units = count + dimensions = () + type = integer + intent = in + optional = F +[tv_lay] + standard_name = virtual_temperature + long_name = layer virtual temperature + units = K + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[relhum] + standard_name = relative_humidity + long_name = layer relative humidity + units = frac + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[p_lay] + standard_name = air_pressure_at_layer_for_RRTMGP_in_hPa + long_name = air pressure at vertical layer for radiation calculation + units = hPa + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[p_lev] + standard_name = air_pressure_at_interface_for_RRTMGP_in_hPa + long_name = air pressure at vertical interface for radiation calculation + units = hPa + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[tracer] + standard_name = chemical_tracers + long_name = chemical tracers + units = g g-1 + dimensions = (horizontal_dimension,vertical_dimension,number_of_tracers) + type = real + kind = kind_phys + intent = in + optional = F +[sw_gas_props] + standard_name = coefficients_for_sw_gas_optics + long_name = DDT containing spectral information for RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[alb1d] + standard_name = surface_albedo_perturbation + long_name = surface albedo perturbation + units = frac + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[sfc_alb_nir_dir] + standard_name = surface_albedo_nearIR_direct + long_name = near-IR (direct) surface albedo (sfc_alb_nir_dir) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[sfc_alb_nir_dif] + standard_name = surface_albedo_nearIR_diffuse + long_name = near-IR (diffuse) surface albedo (sfc_alb_nir_dif) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[sfc_alb_uvvis_dir] + standard_name = surface_albedo_uvvis_dir + long_name = UVVIS (direct) surface albedo (sfc_alb_uvvis_dir) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[sfc_alb_uvvis_dif] + standard_name = surface_albedo_uvvis_dif + long_name = UVVIS (diffuse) surface albedo (sfc_alb_uvvis_dif) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[nday] + standard_name = daytime_points_dimension + long_name = daytime points dimension + units = count + dimensions = () + type = integer + intent = out + optional = F +[idxday] + standard_name = daytime_points + long_name = daytime points + units = index + dimensions = (horizontal_dimension) + type = integer + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F +######################################################################## +[ccpp-arg-table] + name = GFS_rrtmgp_sw_pre_finalize + type = scheme \ No newline at end of file diff --git a/physics/radlw_param.meta b/physics/radlw_param.meta index a06a89512..61aee1d37 100644 --- a/physics/radlw_param.meta +++ b/physics/radlw_param.meta @@ -23,3 +23,9 @@ units = DDT dimensions = () type = sfcflw_type +[proflw_type] + standard_name = proflw_type + long_name = definition of type proflw_type + units = DDT + dimensions = () + type = proflw_type diff --git a/physics/radsw_param.meta b/physics/radsw_param.meta index 9f7c8a35a..e0eb5ece8 100644 --- a/physics/radsw_param.meta +++ b/physics/radsw_param.meta @@ -34,3 +34,9 @@ units = DDT dimensions = () type = cmpfsw_type +[profsw_type] + standard_name = profsw_type + long_name = definition of type profsw_type + units = DDT + dimensions = () + type = profsw_type diff --git a/physics/rrtmg_lw_cloud_optics.F90 b/physics/rrtmg_lw_cloud_optics.F90 new file mode 100644 index 000000000..31551d797 --- /dev/null +++ b/physics/rrtmg_lw_cloud_optics.F90 @@ -0,0 +1,821 @@ +module mo_rrtmg_lw_cloud_optics + use machine, only: kind_phys + use physparam, only: ilwcliq, ilwcice, iovrlw + use mersenne_twister, only: random_setseed, random_number, random_stat + + implicit none + + ! Parameter used for RRTMG cloud-optics + integer,parameter :: & + nBandsLW_RRTMG = 16 + ! ipat is bands index for ebert & curry ice cloud (for iflagice=1) + integer,dimension(nBandsLW_RRTMG),parameter :: & + ipat = (/ 1, 2, 3, 3, 3, 4, 4, 4, 5, 5, 5, 5, 5, 5, 5, 5 /) + real(kind_phys), parameter :: & + absrain = 0.33e-3, & ! Rain drop absorption coefficient \f$(m^{2}/g)\f$ . + abssnow0 = 1.5, & ! Snow flake absorption coefficient (micron), fu coeff + abssnow1 = 2.34e-3 ! Snow flake absorption coefficient \f$(m^{2}/g)\f$, ncar coef + + ! Reset diffusivity angle for Bands 2-3 and 5-9 to vary (between 1.50 + ! and 1.80) as a function of total column water vapor. the function + ! has been defined to minimize flux and cooling rate errors in these bands + ! over a wide range of precipitable water values. + ! *NOTE* This is done in GFS_rrtmgp_lw_pre.F90:_run() + real (kind_phys), dimension(nbandsLW_RRTMG) :: & + a0 = (/ 1.66, 1.55, 1.58, 1.66, 1.54, 1.454, 1.89, 1.33, & + 1.668, 1.66, 1.66, 1.66, 1.66, 1.66, 1.66, 1.66 /), & + a1 = (/ 0.00, 0.25, 0.22, 0.00, 0.13, 0.446, -0.10, 0.40, & + -0.006, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00 /), & + a2 = (/ 0.00, -12.0, -11.7, 0.00, -0.72, -0.243, 0.19, -0.062, & + 0.414, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00 /) + real(kind_phys),parameter :: & + diffusivityLow = 1.50, & ! Minimum diffusivity angle for bands 2-3 and 5-9 + diffusivityHigh = 1.80, & ! Maximum diffusivity angle for bands 2-3 and 5-9 + diffusivityB1410 = 1.66 ! Diffusivity for bands 1, 4, and 10 + + ! RRTMG LW cloud property coefficients + real(kind_phys) , dimension(58,nBandsLW_RRTMG),parameter :: & + absliq1 = reshape(source=(/ & + 1.64047e-03, 6.90533e-02, 7.72017e-02, 7.78054e-02, 7.69523e-02, & !1 + 7.58058e-02, 7.46400e-02, 7.35123e-02, 7.24162e-02, 7.13225e-02, & !1 + 6.99145e-02, 6.66409e-02, 6.36582e-02, 6.09425e-02, 5.84593e-02, & !1 + 5.61743e-02, 5.40571e-02, 5.20812e-02, 5.02245e-02, 4.84680e-02, & !1 + 4.67959e-02, 4.51944e-02, 4.36516e-02, 4.21570e-02, 4.07015e-02, & !1 + 3.92766e-02, 3.78747e-02, 3.64886e-02, 3.53632e-02, 3.41992e-02, & !1 + 3.31016e-02, 3.20643e-02, 3.10817e-02, 3.01490e-02, 2.92620e-02, & !1 + 2.84171e-02, 2.76108e-02, 2.68404e-02, 2.61031e-02, 2.53966e-02, & !1 + 2.47189e-02, 2.40678e-02, 2.34418e-02, 2.28392e-02, 2.22586e-02, & !1 + 2.16986e-02, 2.11580e-02, 2.06356e-02, 2.01305e-02, 1.96417e-02, & !1 + 1.91682e-02, 1.87094e-02, 1.82643e-02, 1.78324e-02, 1.74129e-02, & !1 + 1.70052e-02, 1.66088e-02, 1.62231e-02, & !1 + 2.19486e-01, 1.80687e-01, 1.59150e-01, 1.44731e-01, 1.33703e-01, & !2 + 1.24355e-01, 1.15756e-01, 1.07318e-01, 9.86119e-02, 8.92739e-02, & !2 + 8.34911e-02, 7.70773e-02, 7.15240e-02, 6.66615e-02, 6.23641e-02, & !2 + 5.85359e-02, 5.51020e-02, 5.20032e-02, 4.91916e-02, 4.66283e-02, & !2 + 4.42813e-02, 4.21236e-02, 4.01330e-02, 3.82905e-02, 3.65797e-02, & !2 + 3.49869e-02, 3.35002e-02, 3.21090e-02, 3.08957e-02, 2.97601e-02, & !2 + 2.86966e-02, 2.76984e-02, 2.67599e-02, 2.58758e-02, 2.50416e-02, & !2 + 2.42532e-02, 2.35070e-02, 2.27997e-02, 2.21284e-02, 2.14904e-02, & !2 + 2.08834e-02, 2.03051e-02, 1.97536e-02, 1.92271e-02, 1.87239e-02, & !2 + 1.82425e-02, 1.77816e-02, 1.73399e-02, 1.69162e-02, 1.65094e-02, & !2 + 1.61187e-02, 1.57430e-02, 1.53815e-02, 1.50334e-02, 1.46981e-02, & !2 + 1.43748e-02, 1.40628e-02, 1.37617e-02, & !2 + 2.95174e-01, 2.34765e-01, 1.98038e-01, 1.72114e-01, 1.52083e-01, & !3 + 1.35654e-01, 1.21613e-01, 1.09252e-01, 9.81263e-02, 8.79448e-02, & !3 + 8.12566e-02, 7.44563e-02, 6.86374e-02, 6.36042e-02, 5.92094e-02, & !3 + 5.53402e-02, 5.19087e-02, 4.88455e-02, 4.60951e-02, 4.36124e-02, & !3 + 4.13607e-02, 3.93096e-02, 3.74338e-02, 3.57119e-02, 3.41261e-02, & !3 + 3.26610e-02, 3.13036e-02, 3.00425e-02, 2.88497e-02, 2.78077e-02, & !3 + 2.68317e-02, 2.59158e-02, 2.50545e-02, 2.42430e-02, 2.34772e-02, & !3 + 2.27533e-02, 2.20679e-02, 2.14181e-02, 2.08011e-02, 2.02145e-02, & !3 + 1.96561e-02, 1.91239e-02, 1.86161e-02, 1.81311e-02, 1.76673e-02, & !3 + 1.72234e-02, 1.67981e-02, 1.63903e-02, 1.59989e-02, 1.56230e-02, & !3 + 1.52615e-02, 1.49138e-02, 1.45791e-02, 1.42565e-02, 1.39455e-02, & !3 + 1.36455e-02, 1.33559e-02, 1.30761e-02, & !3 + 3.00925e-01, 2.36949e-01, 1.96947e-01, 1.68692e-01, 1.47190e-01, & !4 + 1.29986e-01, 1.15719e-01, 1.03568e-01, 9.30028e-02, 8.36658e-02, & !4 + 7.71075e-02, 7.07002e-02, 6.52284e-02, 6.05024e-02, 5.63801e-02, & !4 + 5.27534e-02, 4.95384e-02, 4.66690e-02, 4.40925e-02, 4.17664e-02, & !4 + 3.96559e-02, 3.77326e-02, 3.59727e-02, 3.43561e-02, 3.28662e-02, & !4 + 3.14885e-02, 3.02110e-02, 2.90231e-02, 2.78948e-02, 2.69109e-02, & !4 + 2.59884e-02, 2.51217e-02, 2.43058e-02, 2.35364e-02, 2.28096e-02, & !4 + 2.21218e-02, 2.14700e-02, 2.08515e-02, 2.02636e-02, 1.97041e-02, & !4 + 1.91711e-02, 1.86625e-02, 1.81769e-02, 1.77126e-02, 1.72683e-02, & !4 + 1.68426e-02, 1.64344e-02, 1.60427e-02, 1.56664e-02, 1.53046e-02, & !4 + 1.49565e-02, 1.46214e-02, 1.42985e-02, 1.39871e-02, 1.36866e-02, & !4 + 1.33965e-02, 1.31162e-02, 1.28453e-02, & !4 + 2.64691e-01, 2.12018e-01, 1.78009e-01, 1.53539e-01, 1.34721e-01, & !5 + 1.19580e-01, 1.06996e-01, 9.62772e-02, 8.69710e-02, 7.87670e-02, & !5 + 7.29272e-02, 6.70920e-02, 6.20977e-02, 5.77732e-02, 5.39910e-02, & !5 + 5.06538e-02, 4.76866e-02, 4.50301e-02, 4.26374e-02, 4.04704e-02, & !5 + 3.84981e-02, 3.66948e-02, 3.50394e-02, 3.35141e-02, 3.21038e-02, & !5 + 3.07957e-02, 2.95788e-02, 2.84438e-02, 2.73790e-02, 2.64390e-02, & !5 + 2.55565e-02, 2.47263e-02, 2.39437e-02, 2.32047e-02, 2.25056e-02, & !5 + 2.18433e-02, 2.12149e-02, 2.06177e-02, 2.00495e-02, 1.95081e-02, & !5 + 1.89917e-02, 1.84984e-02, 1.80269e-02, 1.75755e-02, 1.71431e-02, & !5 + 1.67283e-02, 1.63303e-02, 1.59478e-02, 1.55801e-02, 1.52262e-02, & !5 + 1.48853e-02, 1.45568e-02, 1.42400e-02, 1.39342e-02, 1.36388e-02, & !5 + 1.33533e-02, 1.30773e-02, 1.28102e-02, & !5 + 8.81182e-02, 1.06745e-01, 9.79753e-02, 8.99625e-02, 8.35200e-02, & !6 + 7.81899e-02, 7.35939e-02, 6.94696e-02, 6.56266e-02, 6.19148e-02, & !6 + 5.83355e-02, 5.49306e-02, 5.19642e-02, 4.93325e-02, 4.69659e-02, & !6 + 4.48148e-02, 4.28431e-02, 4.10231e-02, 3.93332e-02, 3.77563e-02, & !6 + 3.62785e-02, 3.48882e-02, 3.35758e-02, 3.23333e-02, 3.11536e-02, & !6 + 3.00310e-02, 2.89601e-02, 2.79365e-02, 2.70502e-02, 2.62618e-02, & !6 + 2.55025e-02, 2.47728e-02, 2.40726e-02, 2.34013e-02, 2.27583e-02, & !6 + 2.21422e-02, 2.15522e-02, 2.09869e-02, 2.04453e-02, 1.99260e-02, & !6 + 1.94280e-02, 1.89501e-02, 1.84913e-02, 1.80506e-02, 1.76270e-02, & !6 + 1.72196e-02, 1.68276e-02, 1.64500e-02, 1.60863e-02, 1.57357e-02, & !6 + 1.53975e-02, 1.50710e-02, 1.47558e-02, 1.44511e-02, 1.41566e-02, & !6 + 1.38717e-02, 1.35960e-02, 1.33290e-02, & !6 + 4.32174e-02, 7.36078e-02, 6.98340e-02, 6.65231e-02, 6.41948e-02, & !7 + 6.23551e-02, 6.06638e-02, 5.88680e-02, 5.67124e-02, 5.38629e-02, & !7 + 4.99579e-02, 4.86289e-02, 4.70120e-02, 4.52854e-02, 4.35466e-02, & !7 + 4.18480e-02, 4.02169e-02, 3.86658e-02, 3.71992e-02, 3.58168e-02, & !7 + 3.45155e-02, 3.32912e-02, 3.21390e-02, 3.10538e-02, 3.00307e-02, & !7 + 2.90651e-02, 2.81524e-02, 2.72885e-02, 2.62821e-02, 2.55744e-02, & !7 + 2.48799e-02, 2.42029e-02, 2.35460e-02, 2.29108e-02, 2.22981e-02, & !7 + 2.17079e-02, 2.11402e-02, 2.05945e-02, 2.00701e-02, 1.95663e-02, & !7 + 1.90824e-02, 1.86174e-02, 1.81706e-02, 1.77411e-02, 1.73281e-02, & !7 + 1.69307e-02, 1.65483e-02, 1.61801e-02, 1.58254e-02, 1.54835e-02, & !7 + 1.51538e-02, 1.48358e-02, 1.45288e-02, 1.42322e-02, 1.39457e-02, & !7 + 1.36687e-02, 1.34008e-02, 1.31416e-02, & !7 + 1.41881e-01, 7.15419e-02, 6.30335e-02, 6.11132e-02, 6.01931e-02, & !8 + 5.92420e-02, 5.78968e-02, 5.58876e-02, 5.28923e-02, 4.84462e-02, & !8 + 4.60839e-02, 4.56013e-02, 4.45410e-02, 4.31866e-02, 4.17026e-02, & !8 + 4.01850e-02, 3.86892e-02, 3.72461e-02, 3.58722e-02, 3.45749e-02, & !8 + 3.33564e-02, 3.22155e-02, 3.11494e-02, 3.01541e-02, 2.92253e-02, & !8 + 2.83584e-02, 2.75488e-02, 2.67925e-02, 2.57692e-02, 2.50704e-02, & !8 + 2.43918e-02, 2.37350e-02, 2.31005e-02, 2.24888e-02, 2.18996e-02, & !8 + 2.13325e-02, 2.07870e-02, 2.02623e-02, 1.97577e-02, 1.92724e-02, & !8 + 1.88056e-02, 1.83564e-02, 1.79241e-02, 1.75079e-02, 1.71070e-02, & !8 + 1.67207e-02, 1.63482e-02, 1.59890e-02, 1.56424e-02, 1.53077e-02, & !8 + 1.49845e-02, 1.46722e-02, 1.43702e-02, 1.40782e-02, 1.37955e-02, & !8 + 1.35219e-02, 1.32569e-02, 1.30000e-02, & !8 + 6.72726e-02, 6.61013e-02, 6.47866e-02, 6.33780e-02, 6.18985e-02, & !9 + 6.03335e-02, 5.86136e-02, 5.65876e-02, 5.39839e-02, 5.03536e-02, & !9 + 4.71608e-02, 4.63630e-02, 4.50313e-02, 4.34526e-02, 4.17876e-02, & !9 + 4.01261e-02, 3.85171e-02, 3.69860e-02, 3.55442e-02, 3.41954e-02, & !9 + 3.29384e-02, 3.17693e-02, 3.06832e-02, 2.96745e-02, 2.87374e-02, & !9 + 2.78662e-02, 2.70557e-02, 2.63008e-02, 2.52450e-02, 2.45424e-02, & !9 + 2.38656e-02, 2.32144e-02, 2.25885e-02, 2.19873e-02, 2.14099e-02, & !9 + 2.08554e-02, 2.03230e-02, 1.98116e-02, 1.93203e-02, 1.88482e-02, & !9 + 1.83944e-02, 1.79578e-02, 1.75378e-02, 1.71335e-02, 1.67440e-02, & !9 + 1.63687e-02, 1.60069e-02, 1.56579e-02, 1.53210e-02, 1.49958e-02, & !9 + 1.46815e-02, 1.43778e-02, 1.40841e-02, 1.37999e-02, 1.35249e-02, & !9 + 1.32585e-02, 1.30004e-02, 1.27502e-02, & !9 + 7.97040e-02, 7.63844e-02, 7.36499e-02, 7.13525e-02, 6.93043e-02, & !10 + 6.72807e-02, 6.50227e-02, 6.22395e-02, 5.86093e-02, 5.37815e-02, & !10 + 5.14682e-02, 4.97214e-02, 4.77392e-02, 4.56961e-02, 4.36858e-02, & !10 + 4.17569e-02, 3.99328e-02, 3.82224e-02, 3.66265e-02, 3.51416e-02, & !10 + 3.37617e-02, 3.24798e-02, 3.12887e-02, 3.01812e-02, 2.91505e-02, & !10 + 2.81900e-02, 2.72939e-02, 2.64568e-02, 2.54165e-02, 2.46832e-02, & !10 + 2.39783e-02, 2.33017e-02, 2.26531e-02, 2.20314e-02, 2.14359e-02, & !10 + 2.08653e-02, 2.03187e-02, 1.97947e-02, 1.92924e-02, 1.88106e-02, & !10 + 1.83483e-02, 1.79043e-02, 1.74778e-02, 1.70678e-02, 1.66735e-02, & !10 + 1.62941e-02, 1.59286e-02, 1.55766e-02, 1.52371e-02, 1.49097e-02, & !10 + 1.45937e-02, 1.42885e-02, 1.39936e-02, 1.37085e-02, 1.34327e-02, & !10 + 1.31659e-02, 1.29075e-02, 1.26571e-02, & !10 + 1.49438e-01, 1.33535e-01, 1.21542e-01, 1.11743e-01, 1.03263e-01, & !11 + 9.55774e-02, 8.83382e-02, 8.12943e-02, 7.42533e-02, 6.70609e-02, & !11 + 6.38761e-02, 5.97788e-02, 5.59841e-02, 5.25318e-02, 4.94132e-02, & !11 + 4.66014e-02, 4.40644e-02, 4.17706e-02, 3.96910e-02, 3.77998e-02, & !11 + 3.60742e-02, 3.44947e-02, 3.30442e-02, 3.17079e-02, 3.04730e-02, & !11 + 2.93283e-02, 2.82642e-02, 2.72720e-02, 2.61789e-02, 2.53277e-02, & !11 + 2.45237e-02, 2.37635e-02, 2.30438e-02, 2.23615e-02, 2.17140e-02, & !11 + 2.10987e-02, 2.05133e-02, 1.99557e-02, 1.94241e-02, 1.89166e-02, & !11 + 1.84317e-02, 1.79679e-02, 1.75238e-02, 1.70983e-02, 1.66901e-02, & !11 + 1.62983e-02, 1.59219e-02, 1.55599e-02, 1.52115e-02, 1.48761e-02, & !11 + 1.45528e-02, 1.42411e-02, 1.39402e-02, 1.36497e-02, 1.33690e-02, & !11 + 1.30976e-02, 1.28351e-02, 1.25810e-02, & !11 + 3.71985e-02, 3.88586e-02, 3.99070e-02, 4.04351e-02, 4.04610e-02, & !12 + 3.99834e-02, 3.89953e-02, 3.74886e-02, 3.54551e-02, 3.28870e-02, & !12 + 3.32576e-02, 3.22444e-02, 3.12384e-02, 3.02584e-02, 2.93146e-02, & !12 + 2.84120e-02, 2.75525e-02, 2.67361e-02, 2.59618e-02, 2.52280e-02, & !12 + 2.45327e-02, 2.38736e-02, 2.32487e-02, 2.26558e-02, 2.20929e-02, & !12 + 2.15579e-02, 2.10491e-02, 2.05648e-02, 1.99749e-02, 1.95704e-02, & !12 + 1.91731e-02, 1.87839e-02, 1.84032e-02, 1.80315e-02, 1.76689e-02, & !12 + 1.73155e-02, 1.69712e-02, 1.66362e-02, 1.63101e-02, 1.59928e-02, & !12 + 1.56842e-02, 1.53840e-02, 1.50920e-02, 1.48080e-02, 1.45318e-02, & !12 + 1.42631e-02, 1.40016e-02, 1.37472e-02, 1.34996e-02, 1.32586e-02, & !12 + 1.30239e-02, 1.27954e-02, 1.25728e-02, 1.23559e-02, 1.21445e-02, & !12 + 1.19385e-02, 1.17376e-02, 1.15417e-02, & !12 + 3.11868e-02, 4.48357e-02, 4.90224e-02, 4.96406e-02, 4.86806e-02, & !13 + 4.69610e-02, 4.48630e-02, 4.25795e-02, 4.02138e-02, 3.78236e-02, & !13 + 3.74266e-02, 3.60384e-02, 3.47074e-02, 3.34434e-02, 3.22499e-02, & !13 + 3.11264e-02, 3.00704e-02, 2.90784e-02, 2.81463e-02, 2.72702e-02, & !13 + 2.64460e-02, 2.56698e-02, 2.49381e-02, 2.42475e-02, 2.35948e-02, & !13 + 2.29774e-02, 2.23925e-02, 2.18379e-02, 2.11793e-02, 2.07076e-02, & !13 + 2.02470e-02, 1.97981e-02, 1.93613e-02, 1.89367e-02, 1.85243e-02, & !13 + 1.81240e-02, 1.77356e-02, 1.73588e-02, 1.69935e-02, 1.66392e-02, & !13 + 1.62956e-02, 1.59624e-02, 1.56393e-02, 1.53259e-02, 1.50219e-02, & !13 + 1.47268e-02, 1.44404e-02, 1.41624e-02, 1.38925e-02, 1.36302e-02, & !13 + 1.33755e-02, 1.31278e-02, 1.28871e-02, 1.26530e-02, 1.24253e-02, & !13 + 1.22038e-02, 1.19881e-02, 1.17782e-02, & !13 + 1.58988e-02, 3.50652e-02, 4.00851e-02, 4.07270e-02, 3.98101e-02, & !14 + 3.83306e-02, 3.66829e-02, 3.50327e-02, 3.34497e-02, 3.19609e-02, & !14 + 3.13712e-02, 3.03348e-02, 2.93415e-02, 2.83973e-02, 2.75037e-02, & !14 + 2.66604e-02, 2.58654e-02, 2.51161e-02, 2.44100e-02, 2.37440e-02, & !14 + 2.31154e-02, 2.25215e-02, 2.19599e-02, 2.14282e-02, 2.09242e-02, & !14 + 2.04459e-02, 1.99915e-02, 1.95594e-02, 1.90254e-02, 1.86598e-02, & !14 + 1.82996e-02, 1.79455e-02, 1.75983e-02, 1.72584e-02, 1.69260e-02, & !14 + 1.66013e-02, 1.62843e-02, 1.59752e-02, 1.56737e-02, 1.53799e-02, & !14 + 1.50936e-02, 1.48146e-02, 1.45429e-02, 1.42782e-02, 1.40203e-02, & !14 + 1.37691e-02, 1.35243e-02, 1.32858e-02, 1.30534e-02, 1.28270e-02, & !14 + 1.26062e-02, 1.23909e-02, 1.21810e-02, 1.19763e-02, 1.17766e-02, & !14 + 1.15817e-02, 1.13915e-02, 1.12058e-02, & !14 + 5.02079e-03, 2.17615e-02, 2.55449e-02, 2.59484e-02, 2.53650e-02, & !15 + 2.45281e-02, 2.36843e-02, 2.29159e-02, 2.22451e-02, 2.16716e-02, & !15 + 2.11451e-02, 2.05817e-02, 2.00454e-02, 1.95372e-02, 1.90567e-02, & !15 + 1.86028e-02, 1.81742e-02, 1.77693e-02, 1.73866e-02, 1.70244e-02, & !15 + 1.66815e-02, 1.63563e-02, 1.60477e-02, 1.57544e-02, 1.54755e-02, & !15 + 1.52097e-02, 1.49564e-02, 1.47146e-02, 1.43684e-02, 1.41728e-02, & !15 + 1.39762e-02, 1.37797e-02, 1.35838e-02, 1.33891e-02, 1.31961e-02, & !15 + 1.30051e-02, 1.28164e-02, 1.26302e-02, 1.24466e-02, 1.22659e-02, & !15 + 1.20881e-02, 1.19131e-02, 1.17412e-02, 1.15723e-02, 1.14063e-02, & !15 + 1.12434e-02, 1.10834e-02, 1.09264e-02, 1.07722e-02, 1.06210e-02, & !15 + 1.04725e-02, 1.03269e-02, 1.01839e-02, 1.00436e-02, 9.90593e-03, & !15 + 9.77080e-03, 9.63818e-03, 9.50800e-03, & !15 + 5.64971e-02, 9.04736e-02, 8.11726e-02, 7.05450e-02, 6.20052e-02, & !16 + 5.54286e-02, 5.03503e-02, 4.63791e-02, 4.32290e-02, 4.06959e-02, & !16 + 3.74690e-02, 3.52964e-02, 3.33799e-02, 3.16774e-02, 3.01550e-02, & !16 + 2.87856e-02, 2.75474e-02, 2.64223e-02, 2.53953e-02, 2.44542e-02, & !16 + 2.35885e-02, 2.27894e-02, 2.20494e-02, 2.13622e-02, 2.07222e-02, & !16 + 2.01246e-02, 1.95654e-02, 1.90408e-02, 1.84398e-02, 1.80021e-02, & !16 + 1.75816e-02, 1.71775e-02, 1.67889e-02, 1.64152e-02, 1.60554e-02, & !16 + 1.57089e-02, 1.53751e-02, 1.50531e-02, 1.47426e-02, 1.44428e-02, & !16 + 1.41532e-02, 1.38734e-02, 1.36028e-02, 1.33410e-02, 1.30875e-02, & !16 + 1.28420e-02, 1.26041e-02, 1.23735e-02, 1.21497e-02, 1.19325e-02, & !16 + 1.17216e-02, 1.15168e-02, 1.13177e-02, 1.11241e-02, 1.09358e-02, & !16 + 1.07525e-02, 1.05741e-02, 1.04003e-02/), & !16 + shape=(/58,nBandsLW_RRTMG/)) + + real(kind_phys), dimension(2),parameter :: & + absice0 = (/0.005,1.0/) + + real(kind_phys), dimension(2,5),parameter :: & + absice1 = reshape(source=(/ & + 0.0036, 1.136, 0.0068, 0.600, 0.0003, 1.338, 0.0016, 1.166, 0.0020, 1.118 /),& + shape=(/2,5/)) + + real(kind_phys), dimension(43, nBandsLW_RRTMG),parameter :: & + absice2 = reshape(source=(/ & + 7.798999e-02, 6.340479e-02, 5.417973e-02, 4.766245e-02, 4.272663e-02, & !1 + 3.880939e-02, 3.559544e-02, 3.289241e-02, 3.057511e-02, 2.855800e-02, & !1 + 2.678022e-02, 2.519712e-02, 2.377505e-02, 2.248806e-02, 2.131578e-02, & !1 + 2.024194e-02, 1.925337e-02, 1.833926e-02, 1.749067e-02, 1.670007e-02, & !1 + 1.596113e-02, 1.526845e-02, 1.461739e-02, 1.400394e-02, 1.342462e-02, & !1 + 1.287639e-02, 1.235656e-02, 1.186279e-02, 1.139297e-02, 1.094524e-02, & !1 + 1.051794e-02, 1.010956e-02, 9.718755e-03, 9.344316e-03, 8.985139e-03, & !1 + 8.640223e-03, 8.308656e-03, 7.989606e-03, 7.682312e-03, 7.386076e-03, & !1 + 7.100255e-03, 6.824258e-03, 6.557540e-03, & !1 + 2.784879e-02, 2.709863e-02, 2.619165e-02, 2.529230e-02, 2.443225e-02, & !2 + 2.361575e-02, 2.284021e-02, 2.210150e-02, 2.139548e-02, 2.071840e-02, & !2 + 2.006702e-02, 1.943856e-02, 1.883064e-02, 1.824120e-02, 1.766849e-02, & !2 + 1.711099e-02, 1.656737e-02, 1.603647e-02, 1.551727e-02, 1.500886e-02, & !2 + 1.451045e-02, 1.402132e-02, 1.354084e-02, 1.306842e-02, 1.260355e-02, & !2 + 1.214575e-02, 1.169460e-02, 1.124971e-02, 1.081072e-02, 1.037731e-02, & !2 + 9.949167e-03, 9.526021e-03, 9.107615e-03, 8.693714e-03, 8.284096e-03, & !2 + 7.878558e-03, 7.476910e-03, 7.078974e-03, 6.684586e-03, 6.293589e-03, & !2 + 5.905839e-03, 5.521200e-03, 5.139543e-03, & !2 + 1.065397e-01, 8.005726e-02, 6.546428e-02, 5.589131e-02, 4.898681e-02, & !3 + 4.369932e-02, 3.947901e-02, 3.600676e-02, 3.308299e-02, 3.057561e-02, & !3 + 2.839325e-02, 2.647040e-02, 2.475872e-02, 2.322164e-02, 2.183091e-02, & !3 + 2.056430e-02, 1.940407e-02, 1.833586e-02, 1.734787e-02, 1.643034e-02, & !3 + 1.557512e-02, 1.477530e-02, 1.402501e-02, 1.331924e-02, 1.265364e-02, & !3 + 1.202445e-02, 1.142838e-02, 1.086257e-02, 1.032445e-02, 9.811791e-03, & !3 + 9.322587e-03, 8.855053e-03, 8.407591e-03, 7.978763e-03, 7.567273e-03, & !3 + 7.171949e-03, 6.791728e-03, 6.425642e-03, 6.072809e-03, 5.732424e-03, & !3 + 5.403748e-03, 5.086103e-03, 4.778865e-03, & !3 + 1.804566e-01, 1.168987e-01, 8.680442e-02, 6.910060e-02, 5.738174e-02, & !4 + 4.902332e-02, 4.274585e-02, 3.784923e-02, 3.391734e-02, 3.068690e-02, & !4 + 2.798301e-02, 2.568480e-02, 2.370600e-02, 2.198337e-02, 2.046940e-02, & !4 + 1.912777e-02, 1.793016e-02, 1.685420e-02, 1.588193e-02, 1.499882e-02, & !4 + 1.419293e-02, 1.345440e-02, 1.277496e-02, 1.214769e-02, 1.156669e-02, & !4 + 1.102694e-02, 1.052412e-02, 1.005451e-02, 9.614854e-03, 9.202335e-03, & !4 + 8.814470e-03, 8.449077e-03, 8.104223e-03, 7.778195e-03, 7.469466e-03, & !4 + 7.176671e-03, 6.898588e-03, 6.634117e-03, 6.382264e-03, 6.142134e-03, & !4 + 5.912913e-03, 5.693862e-03, 5.484308e-03, & !4 + 2.131806e-01, 1.311372e-01, 9.407171e-02, 7.299442e-02, 5.941273e-02, & !5 + 4.994043e-02, 4.296242e-02, 3.761113e-02, 3.337910e-02, 2.994978e-02, & !5 + 2.711556e-02, 2.473461e-02, 2.270681e-02, 2.095943e-02, 1.943839e-02, & !5 + 1.810267e-02, 1.692057e-02, 1.586719e-02, 1.492275e-02, 1.407132e-02, & !5 + 1.329989e-02, 1.259780e-02, 1.195618e-02, 1.136761e-02, 1.082583e-02, & !5 + 1.032552e-02, 9.862158e-03, 9.431827e-03, 9.031157e-03, 8.657217e-03, & !5 + 8.307449e-03, 7.979609e-03, 7.671724e-03, 7.382048e-03, 7.109032e-03, & !5 + 6.851298e-03, 6.607615e-03, 6.376881e-03, 6.158105e-03, 5.950394e-03, & !5 + 5.752942e-03, 5.565019e-03, 5.385963e-03, & !5 + 1.546177e-01, 1.039251e-01, 7.910347e-02, 6.412429e-02, 5.399997e-02, & !6 + 4.664937e-02, 4.104237e-02, 3.660781e-02, 3.300218e-02, 3.000586e-02, & !6 + 2.747148e-02, 2.529633e-02, 2.340647e-02, 2.174723e-02, 2.027731e-02, & !6 + 1.896487e-02, 1.778492e-02, 1.671761e-02, 1.574692e-02, 1.485978e-02, & !6 + 1.404543e-02, 1.329489e-02, 1.260066e-02, 1.195636e-02, 1.135657e-02, & !6 + 1.079664e-02, 1.027257e-02, 9.780871e-03, 9.318505e-03, 8.882815e-03, & !6 + 8.471458e-03, 8.082364e-03, 7.713696e-03, 7.363817e-03, 7.031264e-03, & !6 + 6.714725e-03, 6.413021e-03, 6.125086e-03, 5.849958e-03, 5.586764e-03, & !6 + 5.334707e-03, 5.093066e-03, 4.861179e-03, & !6 + 7.583404e-02, 6.181558e-02, 5.312027e-02, 4.696039e-02, 4.225986e-02, & !7 + 3.849735e-02, 3.538340e-02, 3.274182e-02, 3.045798e-02, 2.845343e-02, & !7 + 2.667231e-02, 2.507353e-02, 2.362606e-02, 2.230595e-02, 2.109435e-02, & !7 + 1.997617e-02, 1.893916e-02, 1.797328e-02, 1.707016e-02, 1.622279e-02, & !7 + 1.542523e-02, 1.467241e-02, 1.395997e-02, 1.328414e-02, 1.264164e-02, & !7 + 1.202958e-02, 1.144544e-02, 1.088697e-02, 1.035218e-02, 9.839297e-03, & !7 + 9.346733e-03, 8.873057e-03, 8.416980e-03, 7.977335e-03, 7.553066e-03, & !7 + 7.143210e-03, 6.746888e-03, 6.363297e-03, 5.991700e-03, 5.631422e-03, & !7 + 5.281840e-03, 4.942378e-03, 4.612505e-03, & !7 + 9.022185e-02, 6.922700e-02, 5.710674e-02, 4.898377e-02, 4.305946e-02, & !8 + 3.849553e-02, 3.484183e-02, 3.183220e-02, 2.929794e-02, 2.712627e-02, & !8 + 2.523856e-02, 2.357810e-02, 2.210286e-02, 2.078089e-02, 1.958747e-02, & !8 + 1.850310e-02, 1.751218e-02, 1.660205e-02, 1.576232e-02, 1.498440e-02, & !8 + 1.426107e-02, 1.358624e-02, 1.295474e-02, 1.236212e-02, 1.180456e-02, & !8 + 1.127874e-02, 1.078175e-02, 1.031106e-02, 9.864433e-03, 9.439878e-03, & !8 + 9.035637e-03, 8.650140e-03, 8.281981e-03, 7.929895e-03, 7.592746e-03, & !8 + 7.269505e-03, 6.959238e-03, 6.661100e-03, 6.374317e-03, 6.098185e-03, & !8 + 5.832059e-03, 5.575347e-03, 5.327504e-03, & !8 + 1.294087e-01, 8.788217e-02, 6.728288e-02, 5.479720e-02, 4.635049e-02, & !9 + 4.022253e-02, 3.555576e-02, 3.187259e-02, 2.888498e-02, 2.640843e-02, & !9 + 2.431904e-02, 2.253038e-02, 2.098024e-02, 1.962267e-02, 1.842293e-02, & !9 + 1.735426e-02, 1.639571e-02, 1.553060e-02, 1.474552e-02, 1.402953e-02, & !9 + 1.337363e-02, 1.277033e-02, 1.221336e-02, 1.169741e-02, 1.121797e-02, & !9 + 1.077117e-02, 1.035369e-02, 9.962643e-03, 9.595509e-03, 9.250088e-03, & !9 + 8.924447e-03, 8.616876e-03, 8.325862e-03, 8.050057e-03, 7.788258e-03, & !9 + 7.539388e-03, 7.302478e-03, 7.076656e-03, 6.861134e-03, 6.655197e-03, & !9 + 6.458197e-03, 6.269543e-03, 6.088697e-03, & !9 + 1.593628e-01, 1.014552e-01, 7.458955e-02, 5.903571e-02, 4.887582e-02, & !10 + 4.171159e-02, 3.638480e-02, 3.226692e-02, 2.898717e-02, 2.631256e-02, & !10 + 2.408925e-02, 2.221156e-02, 2.060448e-02, 1.921325e-02, 1.799699e-02, & !10 + 1.692456e-02, 1.597177e-02, 1.511961e-02, 1.435289e-02, 1.365933e-02, & !10 + 1.302890e-02, 1.245334e-02, 1.192576e-02, 1.144037e-02, 1.099230e-02, & !10 + 1.057739e-02, 1.019208e-02, 9.833302e-03, 9.498395e-03, 9.185047e-03, & !10 + 8.891237e-03, 8.615185e-03, 8.355325e-03, 8.110267e-03, 7.878778e-03, & !10 + 7.659759e-03, 7.452224e-03, 7.255291e-03, 7.068166e-03, 6.890130e-03, & !10 + 6.720536e-03, 6.558794e-03, 6.404371e-03, & !10 + 1.656227e-01, 1.032129e-01, 7.487359e-02, 5.871431e-02, 4.828355e-02, & !11 + 4.099989e-02, 3.562924e-02, 3.150755e-02, 2.824593e-02, 2.560156e-02, & !11 + 2.341503e-02, 2.157740e-02, 2.001169e-02, 1.866199e-02, 1.748669e-02, & !11 + 1.645421e-02, 1.554015e-02, 1.472535e-02, 1.399457e-02, 1.333553e-02, & !11 + 1.273821e-02, 1.219440e-02, 1.169725e-02, 1.124104e-02, 1.082096e-02, & !11 + 1.043290e-02, 1.007336e-02, 9.739338e-03, 9.428223e-03, 9.137756e-03, & !11 + 8.865964e-03, 8.611115e-03, 8.371686e-03, 8.146330e-03, 7.933852e-03, & !11 + 7.733187e-03, 7.543386e-03, 7.363597e-03, 7.193056e-03, 7.031072e-03, & !11 + 6.877024e-03, 6.730348e-03, 6.590531e-03, & !11 + 9.194591e-02, 6.446867e-02, 4.962034e-02, 4.042061e-02, 3.418456e-02, & !12 + 2.968856e-02, 2.629900e-02, 2.365572e-02, 2.153915e-02, 1.980791e-02, & !12 + 1.836689e-02, 1.714979e-02, 1.610900e-02, 1.520946e-02, 1.442476e-02, & !12 + 1.373468e-02, 1.312345e-02, 1.257858e-02, 1.209010e-02, 1.164990e-02, & !12 + 1.125136e-02, 1.088901e-02, 1.055827e-02, 1.025531e-02, 9.976896e-03, & !12 + 9.720255e-03, 9.483022e-03, 9.263160e-03, 9.058902e-03, 8.868710e-03, & !12 + 8.691240e-03, 8.525312e-03, 8.369886e-03, 8.224042e-03, 8.086961e-03, & !12 + 7.957917e-03, 7.836258e-03, 7.721400e-03, 7.612821e-03, 7.510045e-03, & !12 + 7.412648e-03, 7.320242e-03, 7.232476e-03, & !12 + 1.437021e-01, 8.872535e-02, 6.392420e-02, 4.991833e-02, 4.096790e-02, & !13 + 3.477881e-02, 3.025782e-02, 2.681909e-02, 2.412102e-02, 2.195132e-02, & !13 + 2.017124e-02, 1.868641e-02, 1.743044e-02, 1.635529e-02, 1.542540e-02, & !13 + 1.461388e-02, 1.390003e-02, 1.326766e-02, 1.270395e-02, 1.219860e-02, & !13 + 1.174326e-02, 1.133107e-02, 1.095637e-02, 1.061442e-02, 1.030126e-02, & !13 + 1.001352e-02, 9.748340e-03, 9.503256e-03, 9.276155e-03, 9.065205e-03, & !13 + 8.868808e-03, 8.685571e-03, 8.514268e-03, 8.353820e-03, 8.203272e-03, & !13 + 8.061776e-03, 7.928578e-03, 7.803001e-03, 7.684443e-03, 7.572358e-03, & !13 + 7.466258e-03, 7.365701e-03, 7.270286e-03, & !13 + 1.288870e-01, 8.160295e-02, 5.964745e-02, 4.703790e-02, 3.888637e-02, & !14 + 3.320115e-02, 2.902017e-02, 2.582259e-02, 2.330224e-02, 2.126754e-02, & !14 + 1.959258e-02, 1.819130e-02, 1.700289e-02, 1.598320e-02, 1.509942e-02, & !14 + 1.432666e-02, 1.364572e-02, 1.304156e-02, 1.250220e-02, 1.201803e-02, & !14 + 1.158123e-02, 1.118537e-02, 1.082513e-02, 1.049605e-02, 1.019440e-02, & !14 + 9.916989e-03, 9.661116e-03, 9.424457e-03, 9.205005e-03, 9.001022e-03, & !14 + 8.810992e-03, 8.633588e-03, 8.467646e-03, 8.312137e-03, 8.166151e-03, & !14 + 8.028878e-03, 7.899597e-03, 7.777663e-03, 7.662498e-03, 7.553581e-03, & !14 + 7.450444e-03, 7.352662e-03, 7.259851e-03, & !14 + 8.254229e-02, 5.808787e-02, 4.492166e-02, 3.675028e-02, 3.119623e-02, & !15 + 2.718045e-02, 2.414450e-02, 2.177073e-02, 1.986526e-02, 1.830306e-02, & !15 + 1.699991e-02, 1.589698e-02, 1.495199e-02, 1.413374e-02, 1.341870e-02, & !15 + 1.278883e-02, 1.223002e-02, 1.173114e-02, 1.128322e-02, 1.087900e-02, & !15 + 1.051254e-02, 1.017890e-02, 9.873991e-03, 9.594347e-03, 9.337044e-03, & !15 + 9.099589e-03, 8.879842e-03, 8.675960e-03, 8.486341e-03, 8.309594e-03, & !15 + 8.144500e-03, 7.989986e-03, 7.845109e-03, 7.709031e-03, 7.581007e-03, & !15 + 7.460376e-03, 7.346544e-03, 7.238978e-03, 7.137201e-03, 7.040780e-03, & !15 + 6.949325e-03, 6.862483e-03, 6.779931e-03, & !15 + 1.382062e-01, 8.643227e-02, 6.282935e-02, 4.934783e-02, 4.063891e-02, & !16 + 3.455591e-02, 3.007059e-02, 2.662897e-02, 2.390631e-02, 2.169972e-02, & !16 + 1.987596e-02, 1.834393e-02, 1.703924e-02, 1.591513e-02, 1.493679e-02, & !16 + 1.407780e-02, 1.331775e-02, 1.264061e-02, 1.203364e-02, 1.148655e-02, & !16 + 1.099099e-02, 1.054006e-02, 1.012807e-02, 9.750215e-03, 9.402477e-03, & !16 + 9.081428e-03, 8.784143e-03, 8.508107e-03, 8.251146e-03, 8.011373e-03, & !16 + 7.787140e-03, 7.577002e-03, 7.379687e-03, 7.194071e-03, 7.019158e-03, & !16 + 6.854061e-03, 6.697986e-03, 6.550224e-03, 6.410138e-03, 6.277153e-03, & !16 + 6.150751e-03, 6.030462e-03, 5.915860e-03/), & !16 + shape=(/43,nBandsLW_RRTMG/)) + + real(kind_phys) , dimension(46,nBandsLW_RRTMG),parameter :: & + absice3 = reshape(source=(/ & + 3.110649e-03, 4.666352e-02, 6.606447e-02, 6.531678e-02, 6.012598e-02, & !1 + 5.437494e-02, 4.906411e-02, 4.441146e-02, 4.040585e-02, 3.697334e-02, & !1 + 3.403027e-02, 3.149979e-02, 2.931596e-02, 2.742365e-02, 2.577721e-02, & !1 + 2.433888e-02, 2.307732e-02, 2.196644e-02, 2.098437e-02, 2.011264e-02, & !1 + 1.933561e-02, 1.863992e-02, 1.801407e-02, 1.744812e-02, 1.693346e-02, & !1 + 1.646252e-02, 1.602866e-02, 1.562600e-02, 1.524933e-02, 1.489399e-02, & !1 + 1.455580e-02, 1.423098e-02, 1.391612e-02, 1.360812e-02, 1.330413e-02, & !1 + 1.300156e-02, 1.269801e-02, 1.239127e-02, 1.207928e-02, 1.176014e-02, & !1 + 1.143204e-02, 1.109334e-02, 1.074243e-02, 1.037786e-02, 9.998198e-03, & !1 + 9.602126e-03, & !1 + 3.984966e-04, 1.681097e-02, 2.627680e-02, 2.767465e-02, 2.700722e-02, & !2 + 2.579180e-02, 2.448677e-02, 2.323890e-02, 2.209096e-02, 2.104882e-02, & !2 + 2.010547e-02, 1.925003e-02, 1.847128e-02, 1.775883e-02, 1.710358e-02, & !2 + 1.649769e-02, 1.593449e-02, 1.540829e-02, 1.491429e-02, 1.444837e-02, & !2 + 1.400704e-02, 1.358729e-02, 1.318654e-02, 1.280258e-02, 1.243346e-02, & !2 + 1.207750e-02, 1.173325e-02, 1.139941e-02, 1.107487e-02, 1.075861e-02, & !2 + 1.044975e-02, 1.014753e-02, 9.851229e-03, 9.560240e-03, 9.274003e-03, & !2 + 8.992020e-03, 8.713845e-03, 8.439074e-03, 8.167346e-03, 7.898331e-03, & !2 + 7.631734e-03, 7.367286e-03, 7.104742e-03, 6.843882e-03, 6.584504e-03, & !2 + 6.326424e-03, & !2 + 6.933163e-02, 8.540475e-02, 7.701816e-02, 6.771158e-02, 5.986953e-02, & !3 + 5.348120e-02, 4.824962e-02, 4.390563e-02, 4.024411e-02, 3.711404e-02, & !3 + 3.440426e-02, 3.203200e-02, 2.993478e-02, 2.806474e-02, 2.638464e-02, & !3 + 2.486516e-02, 2.348288e-02, 2.221890e-02, 2.105780e-02, 1.998687e-02, & !3 + 1.899552e-02, 1.807490e-02, 1.721750e-02, 1.641693e-02, 1.566773e-02, & !3 + 1.496515e-02, 1.430509e-02, 1.368398e-02, 1.309865e-02, 1.254634e-02, & !3 + 1.202456e-02, 1.153114e-02, 1.106409e-02, 1.062166e-02, 1.020224e-02, & !3 + 9.804381e-03, 9.426771e-03, 9.068205e-03, 8.727578e-03, 8.403876e-03, & !3 + 8.096160e-03, 7.803564e-03, 7.525281e-03, 7.260560e-03, 7.008697e-03, & !3 + 6.769036e-03, & !3 + 1.765735e-01, 1.382700e-01, 1.095129e-01, 8.987475e-02, 7.591185e-02, & !4 + 6.554169e-02, 5.755500e-02, 5.122083e-02, 4.607610e-02, 4.181475e-02, & !4 + 3.822697e-02, 3.516432e-02, 3.251897e-02, 3.021073e-02, 2.817876e-02, & !4 + 2.637607e-02, 2.476582e-02, 2.331871e-02, 2.201113e-02, 2.082388e-02, & !4 + 1.974115e-02, 1.874983e-02, 1.783894e-02, 1.699922e-02, 1.622280e-02, & !4 + 1.550296e-02, 1.483390e-02, 1.421064e-02, 1.362880e-02, 1.308460e-02, & !4 + 1.257468e-02, 1.209611e-02, 1.164628e-02, 1.122287e-02, 1.082381e-02, & !4 + 1.044725e-02, 1.009154e-02, 9.755166e-03, 9.436783e-03, 9.135163e-03, & !4 + 8.849193e-03, 8.577856e-03, 8.320225e-03, 8.075451e-03, 7.842755e-03, & !4 + 7.621418e-03, & !4 + 2.339673e-01, 1.692124e-01, 1.291656e-01, 1.033837e-01, 8.562949e-02, & !5 + 7.273526e-02, 6.298262e-02, 5.537015e-02, 4.927787e-02, 4.430246e-02, & !5 + 4.017061e-02, 3.669072e-02, 3.372455e-02, 3.116995e-02, 2.894977e-02, & !5 + 2.700471e-02, 2.528842e-02, 2.376420e-02, 2.240256e-02, 2.117959e-02, & !5 + 2.007567e-02, 1.907456e-02, 1.816271e-02, 1.732874e-02, 1.656300e-02, & !5 + 1.585725e-02, 1.520445e-02, 1.459852e-02, 1.403419e-02, 1.350689e-02, & !5 + 1.301260e-02, 1.254781e-02, 1.210941e-02, 1.169468e-02, 1.130118e-02, & !5 + 1.092675e-02, 1.056945e-02, 1.022757e-02, 9.899560e-03, 9.584021e-03, & !5 + 9.279705e-03, 8.985479e-03, 8.700322e-03, 8.423306e-03, 8.153590e-03, & !5 + 7.890412e-03, & !5 + 1.145369e-01, 1.174566e-01, 9.917866e-02, 8.332990e-02, 7.104263e-02, & !6 + 6.153370e-02, 5.405472e-02, 4.806281e-02, 4.317918e-02, 3.913795e-02, & !6 + 3.574916e-02, 3.287437e-02, 3.041067e-02, 2.828017e-02, 2.642292e-02, & !6 + 2.479206e-02, 2.335051e-02, 2.206851e-02, 2.092195e-02, 1.989108e-02, & !6 + 1.895958e-02, 1.811385e-02, 1.734245e-02, 1.663573e-02, 1.598545e-02, & !6 + 1.538456e-02, 1.482700e-02, 1.430750e-02, 1.382150e-02, 1.336499e-02, & !6 + 1.293447e-02, 1.252685e-02, 1.213939e-02, 1.176968e-02, 1.141555e-02, & !6 + 1.107508e-02, 1.074655e-02, 1.042839e-02, 1.011923e-02, 9.817799e-03, & !6 + 9.522962e-03, 9.233688e-03, 8.949041e-03, 8.668171e-03, 8.390301e-03, & !6 + 8.114723e-03, & !6 + 1.222345e-02, 5.344230e-02, 5.523465e-02, 5.128759e-02, 4.676925e-02, & !7 + 4.266150e-02, 3.910561e-02, 3.605479e-02, 3.342843e-02, 3.115052e-02, & !7 + 2.915776e-02, 2.739935e-02, 2.583499e-02, 2.443266e-02, 2.316681e-02, & !7 + 2.201687e-02, 2.096619e-02, 2.000112e-02, 1.911044e-02, 1.828481e-02, & !7 + 1.751641e-02, 1.679866e-02, 1.612598e-02, 1.549360e-02, 1.489742e-02, & !7 + 1.433392e-02, 1.380002e-02, 1.329305e-02, 1.281068e-02, 1.235084e-02, & !7 + 1.191172e-02, 1.149171e-02, 1.108936e-02, 1.070341e-02, 1.033271e-02, & !7 + 9.976220e-03, 9.633021e-03, 9.302273e-03, 8.983216e-03, 8.675161e-03, & !7 + 8.377478e-03, 8.089595e-03, 7.810986e-03, 7.541170e-03, 7.279706e-03, & !7 + 7.026186e-03, & !7 + 6.711058e-02, 6.918198e-02, 6.127484e-02, 5.411944e-02, 4.836902e-02, & !8 + 4.375293e-02, 3.998077e-02, 3.683587e-02, 3.416508e-02, 3.186003e-02, & !8 + 2.984290e-02, 2.805671e-02, 2.645895e-02, 2.501733e-02, 2.370689e-02, & !8 + 2.250808e-02, 2.140532e-02, 2.038609e-02, 1.944018e-02, 1.855918e-02, & !8 + 1.773609e-02, 1.696504e-02, 1.624106e-02, 1.555990e-02, 1.491793e-02, & !8 + 1.431197e-02, 1.373928e-02, 1.319743e-02, 1.268430e-02, 1.219799e-02, & !8 + 1.173682e-02, 1.129925e-02, 1.088393e-02, 1.048961e-02, 1.011516e-02, & !8 + 9.759543e-03, 9.421813e-03, 9.101089e-03, 8.796559e-03, 8.507464e-03, & !8 + 8.233098e-03, 7.972798e-03, 7.725942e-03, 7.491940e-03, 7.270238e-03, & !8 + 7.060305e-03, & !8 + 1.236780e-01, 9.222386e-02, 7.383997e-02, 6.204072e-02, 5.381029e-02, & !9 + 4.770678e-02, 4.296928e-02, 3.916131e-02, 3.601540e-02, 3.335878e-02, & !9 + 3.107493e-02, 2.908247e-02, 2.732282e-02, 2.575276e-02, 2.433968e-02, & !9 + 2.305852e-02, 2.188966e-02, 2.081757e-02, 1.982974e-02, 1.891599e-02, & !9 + 1.806794e-02, 1.727865e-02, 1.654227e-02, 1.585387e-02, 1.520924e-02, & !9 + 1.460476e-02, 1.403730e-02, 1.350416e-02, 1.300293e-02, 1.253153e-02, & !9 + 1.208808e-02, 1.167094e-02, 1.127862e-02, 1.090979e-02, 1.056323e-02, & !9 + 1.023786e-02, 9.932665e-03, 9.646744e-03, 9.379250e-03, 9.129409e-03, & !9 + 8.896500e-03, 8.679856e-03, 8.478852e-03, 8.292904e-03, 8.121463e-03, & !9 + 7.964013e-03, & !9 + 1.655966e-01, 1.134205e-01, 8.714344e-02, 7.129241e-02, 6.063739e-02, & !10 + 5.294203e-02, 4.709309e-02, 4.247476e-02, 3.871892e-02, 3.559206e-02, & !10 + 3.293893e-02, 3.065226e-02, 2.865558e-02, 2.689288e-02, 2.532221e-02, & !10 + 2.391150e-02, 2.263582e-02, 2.147549e-02, 2.041476e-02, 1.944089e-02, & !10 + 1.854342e-02, 1.771371e-02, 1.694456e-02, 1.622989e-02, 1.556456e-02, & !10 + 1.494415e-02, 1.436491e-02, 1.382354e-02, 1.331719e-02, 1.284339e-02, & !10 + 1.239992e-02, 1.198486e-02, 1.159647e-02, 1.123323e-02, 1.089375e-02, & !10 + 1.057679e-02, 1.028124e-02, 1.000607e-02, 9.750376e-03, 9.513303e-03, & !10 + 9.294082e-03, 9.092003e-03, 8.906412e-03, 8.736702e-03, 8.582314e-03, & !10 + 8.442725e-03, & !10 + 1.775615e-01, 1.180046e-01, 8.929607e-02, 7.233500e-02, 6.108333e-02, & !11 + 5.303642e-02, 4.696927e-02, 4.221206e-02, 3.836768e-02, 3.518576e-02, & !11 + 3.250063e-02, 3.019825e-02, 2.819758e-02, 2.643943e-02, 2.487953e-02, & !11 + 2.348414e-02, 2.222705e-02, 2.108762e-02, 2.004936e-02, 1.909892e-02, & !11 + 1.822539e-02, 1.741975e-02, 1.667449e-02, 1.598330e-02, 1.534084e-02, & !11 + 1.474253e-02, 1.418446e-02, 1.366325e-02, 1.317597e-02, 1.272004e-02, & !11 + 1.229321e-02, 1.189350e-02, 1.151915e-02, 1.116859e-02, 1.084042e-02, & !11 + 1.053338e-02, 1.024636e-02, 9.978326e-03, 9.728357e-03, 9.495613e-03, & !11 + 9.279327e-03, 9.078798e-03, 8.893383e-03, 8.722488e-03, 8.565568e-03, & !11 + 8.422115e-03, & !11 + 9.465447e-02, 6.432047e-02, 5.060973e-02, 4.267283e-02, 3.741843e-02, & !12 + 3.363096e-02, 3.073531e-02, 2.842405e-02, 2.651789e-02, 2.490518e-02, & !12 + 2.351273e-02, 2.229056e-02, 2.120335e-02, 2.022541e-02, 1.933763e-02, & !12 + 1.852546e-02, 1.777763e-02, 1.708528e-02, 1.644134e-02, 1.584009e-02, & !12 + 1.527684e-02, 1.474774e-02, 1.424955e-02, 1.377957e-02, 1.333549e-02, & !12 + 1.291534e-02, 1.251743e-02, 1.214029e-02, 1.178265e-02, 1.144337e-02, & !12 + 1.112148e-02, 1.081609e-02, 1.052642e-02, 1.025178e-02, 9.991540e-03, & !12 + 9.745130e-03, 9.512038e-03, 9.291797e-03, 9.083980e-03, 8.888195e-03, & !12 + 8.704081e-03, 8.531306e-03, 8.369560e-03, 8.218558e-03, 8.078032e-03, & !12 + 7.947730e-03, & !12 + 1.560311e-01, 9.961097e-02, 7.502949e-02, 6.115022e-02, 5.214952e-02, & !13 + 4.578149e-02, 4.099731e-02, 3.724174e-02, 3.419343e-02, 3.165356e-02, & !13 + 2.949251e-02, 2.762222e-02, 2.598073e-02, 2.452322e-02, 2.321642e-02, & !13 + 2.203516e-02, 2.096002e-02, 1.997579e-02, 1.907036e-02, 1.823401e-02, & !13 + 1.745879e-02, 1.673819e-02, 1.606678e-02, 1.544003e-02, 1.485411e-02, & !13 + 1.430574e-02, 1.379215e-02, 1.331092e-02, 1.285996e-02, 1.243746e-02, & !13 + 1.204183e-02, 1.167164e-02, 1.132567e-02, 1.100281e-02, 1.070207e-02, & !13 + 1.042258e-02, 1.016352e-02, 9.924197e-03, 9.703953e-03, 9.502199e-03, & !13 + 9.318400e-03, 9.152066e-03, 9.002749e-03, 8.870038e-03, 8.753555e-03, & !13 + 8.652951e-03, & !13 + 1.559547e-01, 9.896700e-02, 7.441231e-02, 6.061469e-02, 5.168730e-02, & !14 + 4.537821e-02, 4.064106e-02, 3.692367e-02, 3.390714e-02, 3.139438e-02, & !14 + 2.925702e-02, 2.740783e-02, 2.578547e-02, 2.434552e-02, 2.305506e-02, & !14 + 2.188910e-02, 2.082842e-02, 1.985789e-02, 1.896553e-02, 1.814165e-02, & !14 + 1.737839e-02, 1.666927e-02, 1.600891e-02, 1.539279e-02, 1.481712e-02, & !14 + 1.427865e-02, 1.377463e-02, 1.330266e-02, 1.286068e-02, 1.244689e-02, & !14 + 1.205973e-02, 1.169780e-02, 1.135989e-02, 1.104492e-02, 1.075192e-02, & !14 + 1.048004e-02, 1.022850e-02, 9.996611e-03, 9.783753e-03, 9.589361e-03, & !14 + 9.412924e-03, 9.253977e-03, 9.112098e-03, 8.986903e-03, 8.878039e-03, & !14 + 8.785184e-03, & !14 + 1.102926e-01, 7.176622e-02, 5.530316e-02, 4.606056e-02, 4.006116e-02, & !15 + 3.579628e-02, 3.256909e-02, 3.001360e-02, 2.791920e-02, 2.615617e-02, & !15 + 2.464023e-02, 2.331426e-02, 2.213817e-02, 2.108301e-02, 2.012733e-02, & !15 + 1.925493e-02, 1.845331e-02, 1.771269e-02, 1.702531e-02, 1.638493e-02, & !15 + 1.578648e-02, 1.522579e-02, 1.469940e-02, 1.420442e-02, 1.373841e-02, & !15 + 1.329931e-02, 1.288535e-02, 1.249502e-02, 1.212700e-02, 1.178015e-02, & !15 + 1.145348e-02, 1.114612e-02, 1.085730e-02, 1.058633e-02, 1.033263e-02, & !15 + 1.009564e-02, 9.874895e-03, 9.669960e-03, 9.480449e-03, 9.306014e-03, & !15 + 9.146339e-03, 9.001138e-03, 8.870154e-03, 8.753148e-03, 8.649907e-03, & !15 + 8.560232e-03, & !15 + 1.688344e-01, 1.077072e-01, 7.994467e-02, 6.403862e-02, 5.369850e-02, & !16 + 4.641582e-02, 4.099331e-02, 3.678724e-02, 3.342069e-02, 3.065831e-02, & !16 + 2.834557e-02, 2.637680e-02, 2.467733e-02, 2.319286e-02, 2.188299e-02, & !16 + 2.071701e-02, 1.967121e-02, 1.872692e-02, 1.786931e-02, 1.708641e-02, & !16 + 1.636846e-02, 1.570743e-02, 1.509665e-02, 1.453052e-02, 1.400433e-02, & !16 + 1.351407e-02, 1.305631e-02, 1.262810e-02, 1.222688e-02, 1.185044e-02, & !16 + 1.149683e-02, 1.116436e-02, 1.085153e-02, 1.055701e-02, 1.027961e-02, & !16 + 1.001831e-02, 9.772141e-03, 9.540280e-03, 9.321966e-03, 9.116517e-03, & !16 + 8.923315e-03, 8.741803e-03, 8.571472e-03, 8.411860e-03, 8.262543e-03, & !16 + 8.123136e-03/), & !16 + shape=(/46,nBandsLW_RRTMG/)) +contains + ! ####################################################################################### + ! subroutine rrtmg_lw_cloud_optics + ! ####################################################################################### + subroutine rrtmg_lw_cloud_optics(ncol, nlay, nBandsLW, cld_lwp, cld_ref_liq, cld_iwp, & + cld_ref_ice, cld_rwp, cld_ref_rain, cld_swp, cld_ref_snow, cld_frac, tau_cld) + ! Inputs + integer,intent(in) :: & + nBandsLW, & ! Number of spectral bands + ncol, & ! Number of horizontal gridpoints + nlay ! Number of vertical layers + real(kind_phys), dimension(ncol,nlay), intent(in) :: & + cld_frac, & ! Cloud-fraction (1) + cld_lwp, & ! Cloud liquid water path (g/m2) + cld_ref_liq, & ! Effective radius (liquid) (micron) + cld_iwp, & ! Cloud ice water path (g/m2) + cld_ref_ice, & ! Effective radius (ice) (micron) + cld_rwp, & ! Cloud rain water path (g/m2) + cld_ref_rain, & ! Effective radius (rain-drop) (micron) + cld_swp, & ! Cloud snow-water path (g/m2) + cld_ref_snow ! Effective radius (snow-flake) (micron) + + ! Outputs + real(kind_phys),dimension(ncol,nlay,nBandsLW),intent(out) :: & + tau_cld + + ! Local variables + integer :: ij,ik,ib,index,ia + real(kind_phys) :: factor,fint,cld_ref_iceTemp,tau_snow, tau_rain + real(kind_phys),dimension(nBandsLW) :: tau_liq, tau_ice + + tau_cld(:,:,:) = 0._kind_phys + + if (ilwcliq .gt. 0) then + do ij=1,ncol + do ik=1,nlay + if (cld_frac(ij,ik) .gt. 0.) then + ! Rain optical-depth (No band dependence) + tau_rain = absrain*cld_rwp(ij,ik) + + ! Snow optical-depth (No band dependence) + if (cld_swp(ij,ik) .gt. 0. .and. cld_ref_snow(ij,ik) .gt. 10._kind_phys) then + tau_snow = abssnow0*1.05756*cld_swp(ij,ik)/cld_ref_snow(ij,ik) + else + tau_snow = 0. + endif + + ! Liquid water opitcal-depth + if (cld_lwp(ij,ik) .le. 0.) then + tau_liq(:) = 0. + else + if (ilwcliq .eq. 1) then + factor = cld_ref_liq(ij,ik) - 1.5 + index = max( 1, min( 57, int( factor ) )) + fint = factor - float(index) + do ib=1,nBandsLW + tau_liq(ib) = max(0., cld_lwp(ij,ik)*(absliq1(index,ib) + & + fint*(absliq1(index+1,ib)-absliq1(index,ib)) )) + enddo + endif + endif + + ! Ice water optical-depth + if (cld_iwp(ij,ik) .le. 0.) then + tau_ice(:) = 0. + else + ! 1) Ebert and curry approach for all particle sizes. (bound between 13-130microns) + if (ilwcice .eq. 1) then + cld_ref_iceTemp = min(130., max(13.,real(cld_ref_ice(ij,ik)))) + do ib=1,nBandsLW + ia = ipat(ib) ! eb_&_c band index for ice cloud coeff + tau_ice(ib) = max(0., cld_iwp(ij,ik)*(absice1(1,ia) + absice1(2,ia)/cld_ref_iceTemp) ) + enddo + + ! 2) Streamer approach for ice effective radius between 5.0 and 131.0 microns + ! and ebert and curry approach for ice eff radius greater than 131.0 microns. + ! no smoothing between the transition of the two methods + elseif (ilwcice .eq. 2) then + factor = (cld_ref_ice(ij,ik) - 2.) / 3. + index = max( 1, min( 42, int( factor ) )) + fint = factor - float(index) + do ib = 1, nBandsLW + tau_ice(ib) = max(0., cld_iwp(ij,ik)*(absice2(index,ib) + & + fint*(absice2(index+1,ib) - absice2(index,ib)) )) + enddo + ! 3) Fu's approach for ice effective radius between 4.8 and 135 microns + ! (generalized effective size from 5 to 140 microns) + elseif (ilwcice .eq. 3) then + cld_ref_iceTemp = max(5., 1.0315*cld_ref_ice(ij,ik)) ! v4.71 value + factor = (cld_ref_iceTemp - 2.) / 3. + index = max( 1, min( 45, int( factor ) )) + fint = factor - float(index) + do ib = 1, nBandsLW + tau_ice(ib) = max(0., cld_iwp(ij,ik)*(absice3(index,ib) + & + fint*(absice3(index+1,ib) - absice3(index,ib)) )) + enddo + endif + endif + else + tau_rain = 0. + tau_snow = 0. + tau_liq(:) = 0. + tau_ice(:) = 0. + endif + ! Cloud optical depth + do ib = 1, nBandsLW + tau_cld(ij,ik,ib) = tau_ice(ib) + tau_liq(ib) + tau_rain + tau_snow + enddo + end do + end do + endif + end subroutine rrtmg_lw_cloud_optics + ! ####################################################################################### + ! SUBROUTINE mcica_subcol_lw + ! ####################################################################################### + subroutine mcica_subcol_lw(ncol, nlay, ngpts, cld_frac, icseed, dzlyr, de_lgth, cld_frac_mcica) + ! Inputs + integer,intent(in) :: & + ncol, & ! Number of horizontal gridpoints + nlay, & ! Number of vertical layers + ngpts ! Number of spectral g-points + integer,dimension(ncol),intent(in) :: & + icseed ! Permutation seed for each column. + real(kind_phys), dimension(ncol), intent(in) :: & + de_lgth ! Cloud decorrelation length (km) + real(kind_phys), dimension(ncol,nlay), intent(in) :: & + cld_frac, & ! Cloud-fraction + dzlyr ! Layer thinkness (km) + ! Outputs + !real(kind_phys),dimension(ncol,nlay,ngpts),intent(out) :: & + logical,dimension(ncol,nlay,ngpts),intent(out) :: & + cld_frac_mcica + ! Local variables + type(random_stat) :: stat + integer :: icol,n,k,k1 + real(kind_phys) :: tem1 + real(kind_phys),dimension(ngpts) :: rand1D + real(kind_phys),dimension(nlay*ngpts) :: rand2D + real(kind_phys),dimension(ngpts,nlay) :: cdfunc,cdfun2 + real(kind_phys),dimension(nlay) :: fac_lcf + logical,dimension(ngpts,nlay) :: lcloudy + + ! Loop over all columns + do icol=1,ncol + ! Call random_setseed() to advance random number generator by "icseed" values. + call random_setseed(icseed(icol),stat) + + ! ################################################################################### + ! Sub-column set up according to overlapping assumption: + ! - For random overlap, pick a random value at every level + ! - For max-random overlap, pick a random value at every level + ! - For maximum overlap, pick same random numebr at every level + ! ################################################################################### + select case ( iovrlw ) + ! ################################################################################### + ! 0) Random overlap + ! ################################################################################### + case( 0 ) + call random_number(rand2D,stat) + k1 = 0 + do n = 1, ngpts + do k = 1, nlay + k1 = k1 + 1 + cdfunc(n,k) = rand2d(k1) + enddo + enddo + + ! ################################################################################### + ! 1) Maximum-random overlap + ! ################################################################################### + case(1) + call random_number(rand2D,stat) + k1 = 0 + do n = 1, ngpts + do k = 1, nlay + k1 = k1 + 1 + cdfunc(n,k) = rand2d(k1) + enddo + enddo + + ! First pick a random number for bottom (or top) layer. + ! then walk up the column: (aer's code) + ! if layer below is cloudy, use the same rand num in the layer below + ! if layer below is clear, use a new random number + do k = 2, nlay + k1 = k - 1 + tem1 = 1._kind_phys - cld_frac(icol,k1) + do n = 1, ngpts + if ( cdfunc(n,k1) > tem1 ) then + cdfunc(n,k) = cdfunc(n,k1) + else + cdfunc(n,k) = cdfunc(n,k) * tem1 + endif + enddo + enddo + + ! ################################################################################### + ! 2) Maximum overlap + ! ################################################################################### + case(2) + call random_number(rand1d,stat) + do n = 1, ngpts + tem1 = rand1d(n) + do k = 1, nlay + cdfunc(n,k) = tem1 + enddo + enddo + + ! ################################################################################### + ! 3) Decorrelation length + ! ################################################################################### + case(3) + ! Compute overlapping factors based on layer midpoint distances and decorrelation + ! depths + do k = nlay, 2, -1 + fac_lcf(k) = exp( -0.5 * (dzlyr(iCol,k)+dzlyr(iCol,k-1)) / de_lgth(iCol) ) + enddo + + ! Setup 2 sets of random numbers + call random_number ( rand2d, stat ) + k1 = 0 + do k = 1, nlay + do n = 1, ngpts + k1 = k1 + 1 + cdfunc(n,k) = rand2d(k1) + enddo + enddo + ! + call random_number ( rand2d, stat ) + k1 = 0 + do k = 1, nlay + do n = 1, ngpts + k1 = k1 + 1 + cdfun2(n,k) = rand2d(k1) + enddo + enddo + + ! Then working from the top down: + ! if a random number (from an independent set -cdfun2) is smaller then the + ! scale factor: use the upper layer's number, otherwise use a new random + ! number (keep the original assigned one). + do k = nlay-1, 1, -1 + k1 = k + 1 + do n = 1, ngpts + if ( cdfun2(n,k) <= fac_lcf(k1) ) then + cdfunc(n,k) = cdfunc(n,k1) + endif + enddo + enddo + + end select + + ! ################################################################################### + ! Generate subcolumn cloud mask (.false./.true. for clear/cloudy) + ! ################################################################################### + do k = 1, nlay + tem1 = 1._kind_phys - cld_frac(icol,k) + do n = 1, ngpts + lcloudy(n,k) = cdfunc(n,k) >= tem1 + if (lcloudy(n,k)) then + cld_frac_mcica(icol,k,n) = .true. + else + cld_frac_mcica(icol,k,n) = .false. + endif + enddo + enddo + enddo ! END LOOP OVER COLUMNS + end subroutine mcica_subcol_lw + +end module mo_rrtmg_lw_cloud_optics diff --git a/physics/rrtmg_sw_cloud_optics.F90 b/physics/rrtmg_sw_cloud_optics.F90 new file mode 100644 index 000000000..7ff57039e --- /dev/null +++ b/physics/rrtmg_sw_cloud_optics.F90 @@ -0,0 +1,2412 @@ +module mo_rrtmg_sw_cloud_optics + use machine, only: kind_phys + use physparam, only: iswcliq, iswcice, iovrsw + use mersenne_twister, only: random_setseed, random_number, random_stat + implicit none + + ! Parameters used for RRTMG cloud-optics + integer,parameter :: & + nBandsSW_RRTMG = 14 + real(kind_phys),parameter :: & + a0r = 3.07e-3 + real(kind_phys),dimension(nBandsSW_RRTMG),parameter :: & + b0r = (/0.466, 0.437, 0.416, 0.391, 0.374, 0.352, 0.183, & + 0.048, 0.012, 0.000, 0.000, 0.000, 0.000, 0.496/) + real(kind_phys),dimension(nBandsSW_RRTMG),parameter :: & + b0s = (/0.460, 0.460, 0.460, 0.460, 0.460, 0.460, 0.460, & + 0.000, 0.000, 0.000, 0.000, 0.000, 0.000, 0.460/) + real(kind_phys),dimension(nBandsSW_RRTMG),parameter :: & + b1s = (/0.000, 0.000, 0.000, 0.000, 0.000, 0.000, 0.000, & + 1.62e-5, 1.62e-5, 0.000, 0.000, 0.000, 0.000, 0.000/) + real(kind_phys),dimension(nBandsSW_RRTMG),parameter :: & + c0r = (/0.975, 0.965, 0.960, 0.955, 0.952, 0.950, 0.944, & + 0.894, 0.884, 0.883, 0.883, 0.883, 0.883, 0.980/) + real(kind_phys),dimension(nBandsSW_RRTMG),parameter :: & + c0s = (/0.970, 0.970, 0.970, 0.970, 0.970, 0.970, 0.970, & + 0.970, 0.970, 0.700, 0.700, 0.700, 0.700, 0.970/) + + ! RRTMG SW cloud property coefficients + ! Liquid + real(kind_phys),dimension(58,nBandsSW_RRTMG),parameter :: & ! + extliq1 = reshape(source= (/ & ! + 8.981463e-01, 6.317895e-01, 4.557508e-01, 3.481624e-01, 2.797950e-01, & ! 1 + 2.342753e-01, 2.026934e-01, 1.800102e-01, 1.632408e-01, 1.505384e-01, & ! + 1.354524e-01, 1.246520e-01, 1.154342e-01, 1.074756e-01, 1.005353e-01, & ! + 9.442987e-02, 8.901760e-02, 8.418693e-02, 7.984904e-02, 7.593229e-02, & ! + 7.237827e-02, 6.913887e-02, 6.617415e-02, 6.345061e-02, 6.094001e-02, & ! + 5.861834e-02, 5.646506e-02, 5.446250e-02, 5.249596e-02, 5.081114e-02, & ! + 4.922243e-02, 4.772189e-02, 4.630243e-02, 4.495766e-02, 4.368189e-02, & ! + 4.246995e-02, 4.131720e-02, 4.021941e-02, 3.917276e-02, 3.817376e-02, & ! + 3.721926e-02, 3.630635e-02, 3.543237e-02, 3.459491e-02, 3.379171e-02, & ! + 3.302073e-02, 3.228007e-02, 3.156798e-02, 3.088284e-02, 3.022315e-02, & ! + 2.958753e-02, 2.897468e-02, 2.838340e-02, 2.781258e-02, 2.726117e-02, & ! + 2.672821e-02, 2.621278e-02, 2.5714e-02, & ! + 8.293797e-01, 6.048371e-01, 4.465706e-01, 3.460387e-01, 2.800064e-01, & ! 2 + 2.346584e-01, 2.022399e-01, 1.782626e-01, 1.600153e-01, 1.457903e-01, & ! + 1.334061e-01, 1.228548e-01, 1.138396e-01, 1.060486e-01, 9.924856e-02, & ! + 9.326208e-02, 8.795158e-02, 8.320883e-02, 7.894750e-02, 7.509792e-02, & ! + 7.160323e-02, 6.841653e-02, 6.549889e-02, 6.281763e-02, 6.034516e-02, & ! + 5.805802e-02, 5.593615e-02, 5.396226e-02, 5.202302e-02, 5.036246e-02, & ! + 4.879606e-02, 4.731610e-02, 4.591565e-02, 4.458852e-02, 4.332912e-02, & ! + 4.213243e-02, 4.099390e-02, 3.990941e-02, 3.887522e-02, 3.788792e-02, & ! + 3.694440e-02, 3.604183e-02, 3.517760e-02, 3.434934e-02, 3.355485e-02, & ! + 3.279211e-02, 3.205925e-02, 3.135458e-02, 3.067648e-02, 3.002349e-02, & ! + 2.939425e-02, 2.878748e-02, 2.820200e-02, 2.763673e-02, 2.709062e-02, & ! + 2.656272e-02, 2.605214e-02, 2.5558e-02, & ! + 9.193685e-01, 6.128292e-01, 4.344150e-01, 3.303048e-01, 2.659500e-01, & ! 3 + 2.239727e-01, 1.953457e-01, 1.751012e-01, 1.603515e-01, 1.493360e-01, & ! + 1.323791e-01, 1.219335e-01, 1.130076e-01, 1.052926e-01, 9.855839e-02, & ! + 9.262925e-02, 8.736918e-02, 8.267112e-02, 7.844965e-02, 7.463585e-02, & ! + 7.117343e-02, 6.801601e-02, 6.512503e-02, 6.246815e-02, 6.001806e-02, & ! + 5.775154e-02, 5.564872e-02, 5.369250e-02, 5.176284e-02, 5.011536e-02, & ! + 4.856099e-02, 4.709211e-02, 4.570193e-02, 4.438430e-02, 4.313375e-02, & ! + 4.194529e-02, 4.081443e-02, 3.973712e-02, 3.870966e-02, 3.772866e-02, & ! + 3.679108e-02, 3.589409e-02, 3.503514e-02, 3.421185e-02, 3.342206e-02, & ! + 3.266377e-02, 3.193513e-02, 3.123447e-02, 3.056018e-02, 2.991081e-02, & ! + 2.928502e-02, 2.868154e-02, 2.809920e-02, 2.753692e-02, 2.699367e-02, & ! + 2.646852e-02, 2.596057e-02, 2.5469e-02, & ! + 9.136931e-01, 5.743244e-01, 4.080708e-01, 3.150572e-01, 2.577261e-01, & ! 4 + 2.197900e-01, 1.933037e-01, 1.740212e-01, 1.595056e-01, 1.482756e-01, & ! + 1.312164e-01, 1.209246e-01, 1.121227e-01, 1.045095e-01, 9.785967e-02, & ! + 9.200149e-02, 8.680170e-02, 8.215531e-02, 7.797850e-02, 7.420361e-02, & ! + 7.077530e-02, 6.764798e-02, 6.478369e-02, 6.215063e-02, 5.972189e-02, & ! + 5.747458e-02, 5.538913e-02, 5.344866e-02, 5.153216e-02, 4.989745e-02, & ! + 4.835476e-02, 4.689661e-02, 4.551629e-02, 4.420777e-02, 4.296563e-02, & ! + 4.178497e-02, 4.066137e-02, 3.959081e-02, 3.856963e-02, 3.759452e-02, & ! + 3.666244e-02, 3.577061e-02, 3.491650e-02, 3.409777e-02, 3.331227e-02, & ! + 3.255803e-02, 3.183322e-02, 3.113617e-02, 3.046530e-02, 2.981918e-02, & ! + 2.919646e-02, 2.859591e-02, 2.801635e-02, 2.745671e-02, 2.691599e-02, & ! + 2.639324e-02, 2.588759e-02, 2.5398e-02, & ! + 8.447548e-01, 5.326840e-01, 3.921523e-01, 3.119082e-01, 2.597055e-01, & ! 5 + 2.228737e-01, 1.954157e-01, 1.741155e-01, 1.570881e-01, 1.431520e-01, & ! + 1.302034e-01, 1.200491e-01, 1.113571e-01, 1.038330e-01, 9.725657e-02, & ! + 9.145949e-02, 8.631112e-02, 8.170840e-02, 7.756901e-02, 7.382641e-02, & ! + 7.042616e-02, 6.732338e-02, 6.448069e-02, 6.186672e-02, 5.945494e-02, & ! + 5.722277e-02, 5.515089e-02, 5.322262e-02, 5.132153e-02, 4.969799e-02, & ! + 4.816556e-02, 4.671686e-02, 4.534525e-02, 4.404480e-02, 4.281014e-02, & ! + 4.163643e-02, 4.051930e-02, 3.945479e-02, 3.843927e-02, 3.746945e-02, & ! + 3.654234e-02, 3.565518e-02, 3.480547e-02, 3.399088e-02, 3.320930e-02, & ! + 3.245876e-02, 3.173745e-02, 3.104371e-02, 3.037600e-02, 2.973287e-02, & ! + 2.911300e-02, 2.851516e-02, 2.793818e-02, 2.738101e-02, 2.684264e-02, & ! + 2.632214e-02, 2.581863e-02, 2.5331e-02, & ! + 7.727642e-01, 5.034865e-01, 3.808673e-01, 3.080333e-01, 2.586453e-01, & ! 6 + 2.224989e-01, 1.947060e-01, 1.725821e-01, 1.545096e-01, 1.394456e-01, & ! + 1.288683e-01, 1.188852e-01, 1.103317e-01, 1.029214e-01, 9.643967e-02, & ! + 9.072239e-02, 8.564194e-02, 8.109758e-02, 7.700875e-02, 7.331026e-02, & ! + 6.994879e-02, 6.688028e-02, 6.406807e-02, 6.148133e-02, 5.909400e-02, & ! + 5.688388e-02, 5.483197e-02, 5.292185e-02, 5.103763e-02, 4.942905e-02, & ! + 4.791039e-02, 4.647438e-02, 4.511453e-02, 4.382497e-02, 4.260043e-02, & ! + 4.143616e-02, 4.032784e-02, 3.927155e-02, 3.826375e-02, 3.730117e-02, & ! + 3.638087e-02, 3.550013e-02, 3.465646e-02, 3.384759e-02, 3.307141e-02, & ! + 3.232598e-02, 3.160953e-02, 3.092040e-02, 3.025706e-02, 2.961810e-02, & ! + 2.900220e-02, 2.840814e-02, 2.783478e-02, 2.728106e-02, 2.674599e-02, & ! + 2.622864e-02, 2.572816e-02, 2.5244e-02, & ! + 7.416833e-01, 4.959591e-01, 3.775057e-01, 3.056353e-01, 2.565943e-01, & ! 7 + 2.206935e-01, 1.931479e-01, 1.712860e-01, 1.534837e-01, 1.386906e-01, & ! + 1.281198e-01, 1.182344e-01, 1.097595e-01, 1.024137e-01, 9.598552e-02, & ! + 9.031320e-02, 8.527093e-02, 8.075927e-02, 7.669869e-02, 7.302481e-02, & ! + 6.968491e-02, 6.663542e-02, 6.384008e-02, 6.126838e-02, 5.889452e-02, & ! + 5.669654e-02, 5.465558e-02, 5.275540e-02, 5.087937e-02, 4.927904e-02, & ! + 4.776796e-02, 4.633895e-02, 4.498557e-02, 4.370202e-02, 4.248306e-02, & ! + 4.132399e-02, 4.022052e-02, 3.916878e-02, 3.816523e-02, 3.720665e-02, & ! + 3.629011e-02, 3.541290e-02, 3.457257e-02, 3.376685e-02, 3.299365e-02, & ! + 3.225105e-02, 3.153728e-02, 3.085069e-02, 3.018977e-02, 2.955310e-02, & ! + 2.893940e-02, 2.834742e-02, 2.777606e-02, 2.722424e-02, 2.669099e-02, & ! + 2.617539e-02, 2.567658e-02, 2.5194e-02, & ! + 7.058580e-01, 4.866573e-01, 3.712238e-01, 2.998638e-01, 2.513441e-01, & ! 8 + 2.161972e-01, 1.895576e-01, 1.686669e-01, 1.518437e-01, 1.380046e-01, & ! + 1.267564e-01, 1.170399e-01, 1.087026e-01, 1.014704e-01, 9.513729e-02, & ! + 8.954555e-02, 8.457221e-02, 8.012009e-02, 7.611136e-02, 7.248294e-02, & ! + 6.918317e-02, 6.616934e-02, 6.340584e-02, 6.086273e-02, 5.851465e-02, & ! + 5.634001e-02, 5.432027e-02, 5.243946e-02, 5.058070e-02, 4.899628e-02, & ! + 4.749975e-02, 4.608411e-02, 4.474303e-02, 4.347082e-02, 4.226237e-02, & ! + 4.111303e-02, 4.001861e-02, 3.897528e-02, 3.797959e-02, 3.702835e-02, & ! + 3.611867e-02, 3.524791e-02, 3.441364e-02, 3.361360e-02, 3.284577e-02, & ! + 3.210823e-02, 3.139923e-02, 3.071716e-02, 3.006052e-02, 2.942791e-02, & ! + 2.881806e-02, 2.822974e-02, 2.766185e-02, 2.711335e-02, 2.658326e-02, & ! + 2.607066e-02, 2.557473e-02, 2.5095e-02, & ! + 6.822779e-01, 4.750373e-01, 3.634834e-01, 2.940726e-01, 2.468060e-01, & ! 9 + 2.125768e-01, 1.866586e-01, 1.663588e-01, 1.500326e-01, 1.366192e-01, & ! + 1.253472e-01, 1.158052e-01, 1.076101e-01, 1.004954e-01, 9.426089e-02, & ! + 8.875268e-02, 8.385090e-02, 7.946063e-02, 7.550578e-02, 7.192466e-02, & ! + 6.866669e-02, 6.569001e-02, 6.295971e-02, 6.044642e-02, 5.812526e-02, & ! + 5.597500e-02, 5.397746e-02, 5.211690e-02, 5.027505e-02, 4.870703e-02, & ! + 4.722555e-02, 4.582373e-02, 4.449540e-02, 4.323497e-02, 4.203742e-02, & ! + 4.089821e-02, 3.981321e-02, 3.877867e-02, 3.779118e-02, 3.684762e-02, & ! + 3.594514e-02, 3.508114e-02, 3.425322e-02, 3.345917e-02, 3.269698e-02, & ! + 3.196477e-02, 3.126082e-02, 3.058352e-02, 2.993141e-02, 2.930310e-02, & ! + 2.869732e-02, 2.811289e-02, 2.754869e-02, 2.700371e-02, 2.647698e-02, & ! + 2.596760e-02, 2.547473e-02, 2.4998e-02, & ! + 6.666233e-01, 4.662044e-01, 3.579517e-01, 2.902984e-01, 2.440475e-01, & ! 10 + 2.104431e-01, 1.849277e-01, 1.648970e-01, 1.487555e-01, 1.354714e-01, & ! + 1.244173e-01, 1.149913e-01, 1.068903e-01, 9.985323e-02, 9.368351e-02, & ! + 8.823009e-02, 8.337507e-02, 7.902511e-02, 7.510529e-02, 7.155482e-02, & ! + 6.832386e-02, 6.537113e-02, 6.266218e-02, 6.016802e-02, 5.786408e-02, & ! + 5.572939e-02, 5.374598e-02, 5.189830e-02, 5.006825e-02, 4.851081e-02, & ! + 4.703906e-02, 4.564623e-02, 4.432621e-02, 4.307349e-02, 4.188312e-02, & ! + 4.075060e-02, 3.967183e-02, 3.864313e-02, 3.766111e-02, 3.672269e-02, & ! + 3.582505e-02, 3.496559e-02, 3.414196e-02, 3.335198e-02, 3.259362e-02, & ! + 3.186505e-02, 3.116454e-02, 3.049052e-02, 2.984152e-02, 2.921617e-02, & ! + 2.861322e-02, 2.803148e-02, 2.746986e-02, 2.692733e-02, 2.640295e-02, & ! + 2.589582e-02, 2.540510e-02, 2.4930e-02, & ! + 6.535669e-01, 4.585865e-01, 3.529226e-01, 2.867245e-01, 2.413848e-01, & ! 11 + 2.083956e-01, 1.833191e-01, 1.636150e-01, 1.477247e-01, 1.346392e-01, & ! + 1.236449e-01, 1.143095e-01, 1.062828e-01, 9.930773e-02, 9.319029e-02, & ! + 8.778150e-02, 8.296497e-02, 7.864847e-02, 7.475799e-02, 7.123343e-02, & ! + 6.802549e-02, 6.509332e-02, 6.240285e-02, 5.992538e-02, 5.763657e-02, & ! + 5.551566e-02, 5.354483e-02, 5.170870e-02, 4.988866e-02, 4.834061e-02, & ! + 4.687751e-02, 4.549264e-02, 4.417999e-02, 4.293410e-02, 4.175006e-02, & ! + 4.062344e-02, 3.955019e-02, 3.852663e-02, 3.754943e-02, 3.661553e-02, & ! + 3.572214e-02, 3.486669e-02, 3.404683e-02, 3.326040e-02, 3.250542e-02, & ! + 3.178003e-02, 3.108254e-02, 3.041139e-02, 2.976511e-02, 2.914235e-02, & ! + 2.854187e-02, 2.796247e-02, 2.740309e-02, 2.686271e-02, 2.634038e-02, & ! + 2.583520e-02, 2.534636e-02, 2.4873e-02, & ! + 6.448790e-01, 4.541425e-01, 3.503348e-01, 2.850494e-01, 2.401966e-01, & ! 12 + 2.074811e-01, 1.825631e-01, 1.629515e-01, 1.471142e-01, 1.340574e-01, & ! + 1.231462e-01, 1.138628e-01, 1.058802e-01, 9.894286e-02, 9.285818e-02, & ! + 8.747802e-02, 8.268676e-02, 7.839271e-02, 7.452230e-02, 7.101580e-02, & ! + 6.782418e-02, 6.490685e-02, 6.222991e-02, 5.976484e-02, 5.748742e-02, & ! + 5.537703e-02, 5.341593e-02, 5.158883e-02, 4.977355e-02, 4.823172e-02, & ! + 4.677430e-02, 4.539465e-02, 4.408680e-02, 4.284533e-02, 4.166539e-02, & ! + 4.054257e-02, 3.947283e-02, 3.845256e-02, 3.747842e-02, 3.654737e-02, & ! + 3.565665e-02, 3.480370e-02, 3.398620e-02, 3.320198e-02, 3.244908e-02, & ! + 3.172566e-02, 3.103002e-02, 3.036062e-02, 2.971600e-02, 2.909482e-02, & ! + 2.849582e-02, 2.791785e-02, 2.735982e-02, 2.682072e-02, 2.629960e-02, & ! + 2.579559e-02, 2.530786e-02, 2.4836e-02, & ! + 6.422688e-01, 4.528453e-01, 3.497232e-01, 2.847724e-01, 2.400815e-01, & ! 13 + 2.074403e-01, 1.825502e-01, 1.629415e-01, 1.470934e-01, 1.340183e-01, & ! + 1.230935e-01, 1.138049e-01, 1.058201e-01, 9.888245e-02, 9.279878e-02, & ! + 8.742053e-02, 8.263175e-02, 7.834058e-02, 7.447327e-02, 7.097000e-02, & ! + 6.778167e-02, 6.486765e-02, 6.219400e-02, 5.973215e-02, 5.745790e-02, & ! + 5.535059e-02, 5.339250e-02, 5.156831e-02, 4.975308e-02, 4.821235e-02, & ! + 4.675596e-02, 4.537727e-02, 4.407030e-02, 4.282968e-02, 4.165053e-02, & ! + 4.052845e-02, 3.945941e-02, 3.843980e-02, 3.746628e-02, 3.653583e-02, & ! + 3.564567e-02, 3.479326e-02, 3.397626e-02, 3.319253e-02, 3.244008e-02, & ! + 3.171711e-02, 3.102189e-02, 3.035289e-02, 2.970866e-02, 2.908784e-02, & ! + 2.848920e-02, 2.791156e-02, 2.735385e-02, 2.681507e-02, 2.629425e-02, & ! + 2.579053e-02, 2.530308e-02, 2.4831e-02, & ! + 4.614710e-01, 4.556116e-01, 4.056568e-01, 3.529833e-01, 3.060334e-01, & ! 14 + 2.658127e-01, 2.316095e-01, 2.024325e-01, 1.773749e-01, 1.556867e-01, & ! + 1.455558e-01, 1.332882e-01, 1.229052e-01, 1.140067e-01, 1.062981e-01, & ! + 9.955703e-02, 9.361333e-02, 8.833420e-02, 8.361467e-02, 7.937071e-02, & ! + 7.553420e-02, 7.204942e-02, 6.887031e-02, 6.595851e-02, 6.328178e-02, & ! + 6.081286e-02, 5.852854e-02, 5.640892e-02, 5.431269e-02, 5.252561e-02, & ! + 5.084345e-02, 4.925727e-02, 4.775910e-02, 4.634182e-02, 4.499907e-02, & ! + 4.372512e-02, 4.251484e-02, 4.136357e-02, 4.026710e-02, 3.922162e-02, & ! + 3.822365e-02, 3.727004e-02, 3.635790e-02, 3.548457e-02, 3.464764e-02, & ! + 3.384488e-02, 3.307424e-02, 3.233384e-02, 3.162192e-02, 3.093688e-02, & ! + 3.027723e-02, 2.964158e-02, 2.902864e-02, 2.843722e-02, 2.786621e-02, & ! + 2.731457e-02, 2.678133e-02, 2.6266e-02/), & ! + shape = (/58,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(58,nBandsSW_RRTMG),parameter :: & ! + extliq2 = reshape(source= (/ & ! + 9.004493E-01, 6.366723E-01, 4.542354E-01, 3.468253E-01, 2.816431E-01, & ! 1 + 2.383415E-01, 2.070854E-01, 1.831854E-01, 1.642115E-01, 1.487539E-01, & ! + 1.359169E-01, 1.250900E-01, 1.158354E-01, 1.078400E-01, 1.008646E-01, & ! + 9.472307E-02, 8.928000E-02, 8.442308E-02, 8.005924E-02, 7.612231E-02, & ! + 7.255153E-02, 6.929539E-02, 6.631769E-02, 6.358153E-02, 6.106231E-02, & ! + 5.873077E-02, 5.656924E-02, 5.455769E-02, 5.267846E-02, 5.091923E-02, & ! + 4.926692E-02, 4.771154E-02, 4.623923E-02, 4.484385E-02, 4.351539E-02, & ! + 4.224615E-02, 4.103385E-02, 3.986538E-02, 3.874077E-02, 3.765462E-02, & ! + 3.660077E-02, 3.557384E-02, 3.457615E-02, 3.360308E-02, 3.265000E-02, & ! + 3.171770E-02, 3.080538E-02, 2.990846E-02, 2.903000E-02, 2.816461E-02, & ! + 2.731539E-02, 2.648231E-02, 2.566308E-02, 2.485923E-02, 2.407000E-02, & ! + 2.329615E-02, 2.253769E-02, 2.179615E-02, & ! + 6.741200e-01, 5.390739e-01, 4.198767e-01, 3.332553e-01, 2.735633e-01, & ! 2 + 2.317727e-01, 2.012760e-01, 1.780400e-01, 1.596927e-01, 1.447980e-01, & ! + 1.324480e-01, 1.220347e-01, 1.131327e-01, 1.054313e-01, 9.870534e-02, & ! + 9.278200e-02, 8.752599e-02, 8.282933e-02, 7.860600e-02, 7.479133e-02, & ! + 7.132800e-02, 6.816733e-02, 6.527401e-02, 6.261266e-02, 6.015934e-02, & ! + 5.788867e-02, 5.578134e-02, 5.381667e-02, 5.198133e-02, 5.026067e-02, & ! + 4.864466e-02, 4.712267e-02, 4.568066e-02, 4.431200e-02, 4.300867e-02, & ! + 4.176600e-02, 4.057400e-02, 3.942534e-02, 3.832066e-02, 3.725068e-02, & ! + 3.621400e-02, 3.520533e-02, 3.422333e-02, 3.326400e-02, 3.232467e-02, & ! + 3.140535e-02, 3.050400e-02, 2.962000e-02, 2.875267e-02, 2.789800e-02, & ! + 2.705934e-02, 2.623667e-02, 2.542667e-02, 2.463200e-02, 2.385267e-02, & ! + 2.308667e-02, 2.233667e-02, 2.160067e-02, & ! + 9.250861e-01, 6.245692e-01, 4.347038e-01, 3.320208e-01, 2.714869e-01, & ! 3 + 2.309516e-01, 2.012592e-01, 1.783315e-01, 1.600369e-01, 1.451000e-01, & ! + 1.326838e-01, 1.222069e-01, 1.132554e-01, 1.055146e-01, 9.876000e-02, & ! + 9.281386e-02, 8.754000e-02, 8.283078e-02, 7.860077e-02, 7.477769e-02, & ! + 7.130847e-02, 6.814461e-02, 6.524615e-02, 6.258462e-02, 6.012847e-02, & ! + 5.785462e-02, 5.574231e-02, 5.378000e-02, 5.194461e-02, 5.022462e-02, & ! + 4.860846e-02, 4.708462e-02, 4.564154e-02, 4.427462e-02, 4.297231e-02, & ! + 4.172769e-02, 4.053693e-02, 3.939000e-02, 3.828462e-02, 3.721692e-02, & ! + 3.618000e-02, 3.517077e-02, 3.418923e-02, 3.323077e-02, 3.229154e-02, & ! + 3.137154e-02, 3.047154e-02, 2.959077e-02, 2.872308e-02, 2.786846e-02, & ! + 2.703077e-02, 2.620923e-02, 2.540077e-02, 2.460615e-02, 2.382693e-02, & ! + 2.306231e-02, 2.231231e-02, 2.157923e-02, & ! + 9.298960e-01, 5.776460e-01, 4.083450e-01, 3.211160e-01, 2.666390e-01, & ! 4 + 2.281990e-01, 1.993250e-01, 1.768080e-01, 1.587810e-01, 1.440390e-01, & ! + 1.317720e-01, 1.214150e-01, 1.125540e-01, 1.048890e-01, 9.819600e-02, & ! + 9.230201e-02, 8.706900e-02, 8.239698e-02, 7.819500e-02, 7.439899e-02, & ! + 7.095300e-02, 6.780700e-02, 6.492900e-02, 6.228600e-02, 5.984600e-02, & ! + 5.758599e-02, 5.549099e-02, 5.353801e-02, 5.171400e-02, 5.000500e-02, & ! + 4.840000e-02, 4.688500e-02, 4.545100e-02, 4.409300e-02, 4.279700e-02, & ! + 4.156100e-02, 4.037700e-02, 3.923800e-02, 3.813800e-02, 3.707600e-02, & ! + 3.604500e-02, 3.504300e-02, 3.406500e-02, 3.310800e-02, 3.217700e-02, & ! + 3.126600e-02, 3.036800e-02, 2.948900e-02, 2.862400e-02, 2.777500e-02, & ! + 2.694200e-02, 2.612300e-02, 2.531700e-02, 2.452800e-02, 2.375100e-02, & ! + 2.299100e-02, 2.224300e-02, 2.151201e-02, & ! + 8.780964e-01, 5.407031e-01, 3.961100e-01, 3.166645e-01, 2.640455e-01, & ! 5 + 2.261070e-01, 1.974820e-01, 1.751775e-01, 1.573415e-01, 1.427725e-01, & ! + 1.306535e-01, 1.204195e-01, 1.116650e-01, 1.040915e-01, 9.747550e-02, & ! + 9.164800e-02, 8.647649e-02, 8.185501e-02, 7.770200e-02, 7.394749e-02, & ! + 7.053800e-02, 6.742700e-02, 6.457999e-02, 6.196149e-02, 5.954450e-02, & ! + 5.730650e-02, 5.522949e-02, 5.329450e-02, 5.148500e-02, 4.979000e-02, & ! + 4.819600e-02, 4.669301e-02, 4.527050e-02, 4.391899e-02, 4.263500e-02, & ! + 4.140500e-02, 4.022850e-02, 3.909500e-02, 3.800199e-02, 3.694600e-02, & ! + 3.592000e-02, 3.492250e-02, 3.395050e-02, 3.300150e-02, 3.207250e-02, & ! + 3.116250e-02, 3.027100e-02, 2.939500e-02, 2.853500e-02, 2.768900e-02, & ! + 2.686000e-02, 2.604350e-02, 2.524150e-02, 2.445350e-02, 2.368049e-02, & ! + 2.292150e-02, 2.217800e-02, 2.144800e-02, & ! + 7.937480e-01, 5.123036e-01, 3.858181e-01, 3.099622e-01, 2.586829e-01, & ! 6 + 2.217587e-01, 1.939755e-01, 1.723397e-01, 1.550258e-01, 1.408600e-01, & ! + 1.290545e-01, 1.190661e-01, 1.105039e-01, 1.030848e-01, 9.659387e-02, & ! + 9.086775e-02, 8.577807e-02, 8.122452e-02, 7.712711e-02, 7.342193e-02, & ! + 7.005387e-02, 6.697840e-02, 6.416000e-02, 6.156903e-02, 5.917484e-02, & ! + 5.695807e-02, 5.489968e-02, 5.298097e-02, 5.118806e-02, 4.950645e-02, & ! + 4.792710e-02, 4.643581e-02, 4.502484e-02, 4.368547e-02, 4.241001e-02, & ! + 4.118936e-02, 4.002193e-02, 3.889711e-02, 3.781322e-02, 3.676387e-02, & ! + 3.574549e-02, 3.475548e-02, 3.379033e-02, 3.284678e-02, 3.192420e-02, & ! + 3.102032e-02, 3.013484e-02, 2.926258e-02, 2.840839e-02, 2.756742e-02, & ! + 2.674258e-02, 2.593064e-02, 2.513258e-02, 2.435000e-02, 2.358064e-02, & ! + 2.282581e-02, 2.208548e-02, 2.135936e-02, & ! + 7.533129e-01, 5.033129e-01, 3.811271e-01, 3.062757e-01, 2.558729e-01, & ! 7 + 2.196828e-01, 1.924372e-01, 1.711714e-01, 1.541086e-01, 1.401114e-01, & ! + 1.284257e-01, 1.185200e-01, 1.100243e-01, 1.026529e-01, 9.620142e-02, & ! + 9.050714e-02, 8.544428e-02, 8.091714e-02, 7.684000e-02, 7.315429e-02, & ! + 6.980143e-02, 6.673999e-02, 6.394000e-02, 6.136000e-02, 5.897715e-02, & ! + 5.677000e-02, 5.472285e-02, 5.281286e-02, 5.102858e-02, 4.935429e-02, & ! + 4.778000e-02, 4.629714e-02, 4.489142e-02, 4.355857e-02, 4.228715e-02, & ! + 4.107285e-02, 3.990857e-02, 3.879000e-02, 3.770999e-02, 3.666429e-02, & ! + 3.565000e-02, 3.466286e-02, 3.370143e-02, 3.276143e-02, 3.184143e-02, & ! + 3.094000e-02, 3.005714e-02, 2.919000e-02, 2.833714e-02, 2.750000e-02, & ! + 2.667714e-02, 2.586714e-02, 2.507143e-02, 2.429143e-02, 2.352428e-02, & ! + 2.277143e-02, 2.203429e-02, 2.130857e-02, & ! + 7.079894e-01, 4.878198e-01, 3.719852e-01, 3.001873e-01, 2.514795e-01, & ! 8 + 2.163013e-01, 1.897100e-01, 1.689033e-01, 1.521793e-01, 1.384449e-01, & ! + 1.269666e-01, 1.172326e-01, 1.088745e-01, 1.016224e-01, 9.527085e-02, & ! + 8.966240e-02, 8.467543e-02, 8.021144e-02, 7.619344e-02, 7.255676e-02, & ! + 6.924996e-02, 6.623030e-02, 6.346261e-02, 6.091499e-02, 5.856325e-02, & ! + 5.638385e-02, 5.435930e-02, 5.247156e-02, 5.070699e-02, 4.905230e-02, & ! + 4.749499e-02, 4.602611e-02, 4.463581e-02, 4.331543e-02, 4.205647e-02, & ! + 4.085241e-02, 3.969978e-02, 3.859033e-02, 3.751877e-02, 3.648168e-02, & ! + 3.547468e-02, 3.449553e-02, 3.354072e-02, 3.260732e-02, 3.169438e-02, & ! + 3.079969e-02, 2.992146e-02, 2.905875e-02, 2.821201e-02, 2.737873e-02, & ! + 2.656052e-02, 2.575586e-02, 2.496511e-02, 2.418783e-02, 2.342500e-02, & ! + 2.267646e-02, 2.194177e-02, 2.122146e-02, & ! + 6.850164e-01, 4.762468e-01, 3.642001e-01, 2.946012e-01, 2.472001e-01, & ! 9 + 2.128588e-01, 1.868537e-01, 1.664893e-01, 1.501142e-01, 1.366620e-01, & ! + 1.254147e-01, 1.158721e-01, 1.076732e-01, 1.005530e-01, 9.431306e-02, & ! + 8.879891e-02, 8.389232e-02, 7.949714e-02, 7.553857e-02, 7.195474e-02, & ! + 6.869413e-02, 6.571444e-02, 6.298286e-02, 6.046779e-02, 5.814474e-02, & ! + 5.599141e-02, 5.399114e-02, 5.212443e-02, 5.037870e-02, 4.874321e-02, & ! + 4.720219e-02, 4.574813e-02, 4.437160e-02, 4.306460e-02, 4.181810e-02, & ! + 4.062603e-02, 3.948252e-02, 3.838256e-02, 3.732049e-02, 3.629192e-02, & ! + 3.529301e-02, 3.432190e-02, 3.337412e-02, 3.244842e-02, 3.154175e-02, & ! + 3.065253e-02, 2.978063e-02, 2.892367e-02, 2.808221e-02, 2.725478e-02, & ! + 2.644174e-02, 2.564175e-02, 2.485508e-02, 2.408303e-02, 2.332365e-02, & ! + 2.257890e-02, 2.184824e-02, 2.113224e-02, & ! + 6.673017e-01, 4.664520e-01, 3.579398e-01, 2.902234e-01, 2.439904e-01, & ! 10 + 2.104149e-01, 1.849277e-01, 1.649234e-01, 1.488087e-01, 1.355515e-01, & ! + 1.244562e-01, 1.150329e-01, 1.069321e-01, 9.989310e-02, 9.372070e-02, & ! + 8.826450e-02, 8.340622e-02, 7.905378e-02, 7.513109e-02, 7.157859e-02, & ! + 6.834588e-02, 6.539114e-02, 6.268150e-02, 6.018621e-02, 5.788098e-02, & ! + 5.574351e-02, 5.375699e-02, 5.190412e-02, 5.017099e-02, 4.854497e-02, & ! + 4.701490e-02, 4.557030e-02, 4.420249e-02, 4.290304e-02, 4.166427e-02, & ! + 4.047820e-02, 3.934232e-02, 3.824778e-02, 3.719236e-02, 3.616931e-02, & ! + 3.517597e-02, 3.420856e-02, 3.326566e-02, 3.234346e-02, 3.144122e-02, & ! + 3.055684e-02, 2.968798e-02, 2.883519e-02, 2.799635e-02, 2.717228e-02, & ! + 2.636182e-02, 2.556424e-02, 2.478114e-02, 2.401086e-02, 2.325657e-02, & ! + 2.251506e-02, 2.178594e-02, 2.107301e-02, & ! + 6.552414e-01, 4.599454e-01, 3.538626e-01, 2.873547e-01, 2.418033e-01, & ! 11 + 2.086660e-01, 1.834885e-01, 1.637142e-01, 1.477767e-01, 1.346583e-01, & ! + 1.236734e-01, 1.143412e-01, 1.063148e-01, 9.933905e-02, 9.322026e-02, & ! + 8.780979e-02, 8.299230e-02, 7.867554e-02, 7.478450e-02, 7.126053e-02, & ! + 6.805276e-02, 6.512143e-02, 6.243211e-02, 5.995541e-02, 5.766712e-02, & ! + 5.554484e-02, 5.357246e-02, 5.173222e-02, 5.001069e-02, 4.839505e-02, & ! + 4.687471e-02, 4.543861e-02, 4.407857e-02, 4.278577e-02, 4.155331e-02, & ! + 4.037322e-02, 3.924302e-02, 3.815376e-02, 3.710172e-02, 3.608296e-02, & ! + 3.509330e-02, 3.412980e-02, 3.319009e-02, 3.227106e-02, 3.137157e-02, & ! + 3.048950e-02, 2.962365e-02, 2.877297e-02, 2.793726e-02, 2.711500e-02, & ! + 2.630666e-02, 2.551206e-02, 2.473052e-02, 2.396287e-02, 2.320861e-02, & ! + 2.246810e-02, 2.174162e-02, 2.102927e-02, & ! + 6.430901e-01, 4.532134e-01, 3.496132e-01, 2.844655e-01, 2.397347e-01, & ! 12 + 2.071236e-01, 1.822976e-01, 1.627640e-01, 1.469961e-01, 1.340006e-01, & ! + 1.231069e-01, 1.138441e-01, 1.058706e-01, 9.893678e-02, 9.285166e-02, & ! + 8.746871e-02, 8.267411e-02, 7.837656e-02, 7.450257e-02, 7.099318e-02, & ! + 6.779929e-02, 6.487987e-02, 6.220168e-02, 5.973530e-02, 5.745636e-02, & ! + 5.534344e-02, 5.337986e-02, 5.154797e-02, 4.983404e-02, 4.822582e-02, & ! + 4.671228e-02, 4.528321e-02, 4.392997e-02, 4.264325e-02, 4.141647e-02, & ! + 4.024259e-02, 3.911767e-02, 3.803309e-02, 3.698782e-02, 3.597140e-02, & ! + 3.498774e-02, 3.402852e-02, 3.309340e-02, 3.217818e-02, 3.128292e-02, & ! + 3.040486e-02, 2.954230e-02, 2.869545e-02, 2.786261e-02, 2.704372e-02, & ! + 2.623813e-02, 2.544668e-02, 2.466788e-02, 2.390313e-02, 2.315136e-02, & ! + 2.241391e-02, 2.168921e-02, 2.097903e-02, & ! + 6.367074e-01, 4.495768e-01, 3.471263e-01, 2.826149e-01, 2.382868e-01, & ! 13 + 2.059640e-01, 1.813562e-01, 1.619881e-01, 1.463436e-01, 1.334402e-01, & ! + 1.226166e-01, 1.134096e-01, 1.054829e-01, 9.858838e-02, 9.253790e-02, & ! + 8.718582e-02, 8.241830e-02, 7.814482e-02, 7.429212e-02, 7.080165e-02, & ! + 6.762385e-02, 6.471838e-02, 6.205388e-02, 5.959726e-02, 5.732871e-02, & ! + 5.522402e-02, 5.326793e-02, 5.144230e-02, 4.973440e-02, 4.813188e-02, & ! + 4.662283e-02, 4.519798e-02, 4.384833e-02, 4.256541e-02, 4.134253e-02, & ! + 4.017136e-02, 3.904911e-02, 3.796779e-02, 3.692364e-02, 3.591182e-02, & ! + 3.492930e-02, 3.397230e-02, 3.303920e-02, 3.212572e-02, 3.123278e-02, & ! + 3.035519e-02, 2.949493e-02, 2.864985e-02, 2.781840e-02, 2.700197e-02, & ! + 2.619682e-02, 2.540674e-02, 2.462966e-02, 2.386613e-02, 2.311602e-02, & ! + 2.237846e-02, 2.165660e-02, 2.094756e-02, & ! + 4.298416e-01, 4.391639e-01, 3.975030e-01, 3.443028e-01, 2.957345e-01, & ! 14 + 2.556461e-01, 2.234755e-01, 1.976636e-01, 1.767428e-01, 1.595611e-01, & ! + 1.452636e-01, 1.332156e-01, 1.229481e-01, 1.141059e-01, 1.064208e-01, & ! + 9.968527e-02, 9.373833e-02, 8.845221e-02, 8.372112e-02, 7.946667e-02, & ! + 7.561807e-02, 7.212029e-02, 6.893166e-02, 6.600944e-02, 6.332277e-02, & ! + 6.084277e-02, 5.854721e-02, 5.641361e-02, 5.442639e-02, 5.256750e-02, & ! + 5.082499e-02, 4.918556e-02, 4.763694e-02, 4.617222e-02, 4.477861e-02, & ! + 4.344861e-02, 4.217999e-02, 4.096111e-02, 3.978638e-02, 3.865361e-02, & ! + 3.755473e-02, 3.649028e-02, 3.545361e-02, 3.444361e-02, 3.345666e-02, & ! + 3.249167e-02, 3.154722e-02, 3.062083e-02, 2.971250e-02, 2.882083e-02, & ! + 2.794611e-02, 2.708778e-02, 2.624500e-02, 2.541750e-02, 2.460528e-02, & ! + 2.381194e-02, 2.303250e-02, 2.226833e-02/), & ! + shape = (/58,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(58,nBandsSW_RRTMG),parameter :: & ! + ssaliq1 = reshape(source= (/ & ! + 8.143821e-01, 7.836739e-01, 7.550722e-01, 7.306269e-01, 7.105612e-01, & ! 1 + 6.946649e-01, 6.825556e-01, 6.737762e-01, 6.678448e-01, 6.642830e-01, & ! + 6.679741e-01, 6.584607e-01, 6.505598e-01, 6.440951e-01, 6.388901e-01, & ! + 6.347689e-01, 6.315549e-01, 6.290718e-01, 6.271432e-01, 6.255928e-01, & ! + 6.242441e-01, 6.229207e-01, 6.214464e-01, 6.196445e-01, 6.173388e-01, & ! + 6.143527e-01, 6.105099e-01, 6.056339e-01, 6.108290e-01, 6.073939e-01, & ! + 6.043073e-01, 6.015473e-01, 5.990913e-01, 5.969173e-01, 5.950028e-01, & ! + 5.933257e-01, 5.918636e-01, 5.905944e-01, 5.894957e-01, 5.885453e-01, & ! + 5.877209e-01, 5.870003e-01, 5.863611e-01, 5.857811e-01, 5.852381e-01, & ! + 5.847098e-01, 5.841738e-01, 5.836081e-01, 5.829901e-01, 5.822979e-01, & ! + 5.815089e-01, 5.806011e-01, 5.795521e-01, 5.783396e-01, 5.769413e-01, & ! + 5.753351e-01, 5.734986e-01, 5.7141e-01, & ! + 8.165821e-01, 8.002015e-01, 7.816921e-01, 7.634131e-01, 7.463721e-01, & ! 2 + 7.312469e-01, 7.185883e-01, 7.088975e-01, 7.026671e-01, 7.004020e-01, & ! + 7.042138e-01, 6.960930e-01, 6.894243e-01, 6.840459e-01, 6.797957e-01, & ! + 6.765119e-01, 6.740325e-01, 6.721955e-01, 6.708391e-01, 6.698013e-01, & ! + 6.689201e-01, 6.680339e-01, 6.669805e-01, 6.655982e-01, 6.637250e-01, & ! + 6.611992e-01, 6.578588e-01, 6.535420e-01, 6.584449e-01, 6.553992e-01, & ! + 6.526547e-01, 6.501917e-01, 6.479905e-01, 6.460313e-01, 6.442945e-01, & ! + 6.427605e-01, 6.414094e-01, 6.402217e-01, 6.391775e-01, 6.382573e-01, & ! + 6.374413e-01, 6.367099e-01, 6.360433e-01, 6.354218e-01, 6.348257e-01, & ! + 6.342355e-01, 6.336313e-01, 6.329935e-01, 6.323023e-01, 6.315383e-01, & ! + 6.306814e-01, 6.297122e-01, 6.286110e-01, 6.273579e-01, 6.259333e-01, & ! + 6.243176e-01, 6.224910e-01, 6.2043e-01, & ! + 9.900163e-01, 9.854307e-01, 9.797730e-01, 9.733113e-01, 9.664245e-01, & ! 3 + 9.594976e-01, 9.529055e-01, 9.470112e-01, 9.421695e-01, 9.387304e-01, & ! + 9.344918e-01, 9.305302e-01, 9.267048e-01, 9.230072e-01, 9.194289e-01, & ! + 9.159616e-01, 9.125968e-01, 9.093260e-01, 9.061409e-01, 9.030330e-01, & ! + 8.999940e-01, 8.970154e-01, 8.940888e-01, 8.912058e-01, 8.883579e-01, & ! + 8.855368e-01, 8.827341e-01, 8.799413e-01, 8.777423e-01, 8.749566e-01, & ! + 8.722298e-01, 8.695605e-01, 8.669469e-01, 8.643875e-01, 8.618806e-01, & ! + 8.594246e-01, 8.570179e-01, 8.546589e-01, 8.523459e-01, 8.500773e-01, & ! + 8.478516e-01, 8.456670e-01, 8.435219e-01, 8.414148e-01, 8.393439e-01, & ! + 8.373078e-01, 8.353047e-01, 8.333330e-01, 8.313911e-01, 8.294774e-01, & ! + 8.275904e-01, 8.257282e-01, 8.238893e-01, 8.220721e-01, 8.202751e-01, & ! + 8.184965e-01, 8.167346e-01, 8.1499e-01, & ! + 9.999916e-01, 9.987396e-01, 9.966900e-01, 9.950738e-01, 9.937531e-01, & ! 4 + 9.925912e-01, 9.914525e-01, 9.902018e-01, 9.887046e-01, 9.868263e-01, & ! + 9.849039e-01, 9.832372e-01, 9.815265e-01, 9.797770e-01, 9.779940e-01, & ! + 9.761827e-01, 9.743481e-01, 9.724955e-01, 9.706303e-01, 9.687575e-01, & ! + 9.668823e-01, 9.650100e-01, 9.631457e-01, 9.612947e-01, 9.594622e-01, & ! + 9.576534e-01, 9.558734e-01, 9.541275e-01, 9.522059e-01, 9.504258e-01, & ! + 9.486459e-01, 9.468676e-01, 9.450921e-01, 9.433208e-01, 9.415548e-01, & ! + 9.397955e-01, 9.380441e-01, 9.363022e-01, 9.345706e-01, 9.328510e-01, & ! + 9.311445e-01, 9.294524e-01, 9.277761e-01, 9.261167e-01, 9.244755e-01, & ! + 9.228540e-01, 9.212534e-01, 9.196748e-01, 9.181197e-01, 9.165894e-01, & ! + 9.150851e-01, 9.136080e-01, 9.121596e-01, 9.107410e-01, 9.093536e-01, & ! + 9.079987e-01, 9.066775e-01, 9.0539e-01, & ! + 9.979493e-01, 9.964113e-01, 9.950014e-01, 9.937045e-01, 9.924964e-01, & ! 5 + 9.913546e-01, 9.902575e-01, 9.891843e-01, 9.881136e-01, 9.870238e-01, & ! + 9.859934e-01, 9.849372e-01, 9.838873e-01, 9.828434e-01, 9.818052e-01, & ! + 9.807725e-01, 9.797450e-01, 9.787225e-01, 9.777047e-01, 9.766914e-01, & ! + 9.756823e-01, 9.746771e-01, 9.736756e-01, 9.726775e-01, 9.716827e-01, & ! + 9.706907e-01, 9.697014e-01, 9.687145e-01, 9.678060e-01, 9.668108e-01, & ! + 9.658218e-01, 9.648391e-01, 9.638629e-01, 9.628936e-01, 9.619313e-01, & ! + 9.609763e-01, 9.600287e-01, 9.590888e-01, 9.581569e-01, 9.572330e-01, & ! + 9.563176e-01, 9.554108e-01, 9.545128e-01, 9.536239e-01, 9.527443e-01, & ! + 9.518741e-01, 9.510137e-01, 9.501633e-01, 9.493230e-01, 9.484931e-01, & ! + 9.476740e-01, 9.468656e-01, 9.460683e-01, 9.452824e-01, 9.445080e-01, & ! + 9.437454e-01, 9.429948e-01, 9.4226e-01, & ! + 9.988742e-01, 9.982668e-01, 9.976935e-01, 9.971497e-01, 9.966314e-01, & ! 6 + 9.961344e-01, 9.956545e-01, 9.951873e-01, 9.947286e-01, 9.942741e-01, & ! + 9.938457e-01, 9.933947e-01, 9.929473e-01, 9.925032e-01, 9.920621e-01, & ! + 9.916237e-01, 9.911875e-01, 9.907534e-01, 9.903209e-01, 9.898898e-01, & ! + 9.894597e-01, 9.890304e-01, 9.886015e-01, 9.881726e-01, 9.877435e-01, & ! + 9.873138e-01, 9.868833e-01, 9.864516e-01, 9.860698e-01, 9.856317e-01, & ! + 9.851957e-01, 9.847618e-01, 9.843302e-01, 9.839008e-01, 9.834739e-01, & ! + 9.830494e-01, 9.826275e-01, 9.822083e-01, 9.817918e-01, 9.813782e-01, & ! + 9.809675e-01, 9.805598e-01, 9.801552e-01, 9.797538e-01, 9.793556e-01, & ! + 9.789608e-01, 9.785695e-01, 9.781817e-01, 9.777975e-01, 9.774171e-01, & ! + 9.770404e-01, 9.766676e-01, 9.762988e-01, 9.759340e-01, 9.755733e-01, & ! + 9.752169e-01, 9.748649e-01, 9.7452e-01, & ! + 9.994441e-01, 9.991608e-01, 9.988949e-01, 9.986439e-01, 9.984054e-01, & ! 7 + 9.981768e-01, 9.979557e-01, 9.977396e-01, 9.975258e-01, 9.973120e-01, & ! + 9.971011e-01, 9.968852e-01, 9.966708e-01, 9.964578e-01, 9.962462e-01, & ! + 9.960357e-01, 9.958264e-01, 9.956181e-01, 9.954108e-01, 9.952043e-01, & ! + 9.949987e-01, 9.947937e-01, 9.945892e-01, 9.943853e-01, 9.941818e-01, & ! + 9.939786e-01, 9.937757e-01, 9.935728e-01, 9.933922e-01, 9.931825e-01, & ! + 9.929739e-01, 9.927661e-01, 9.925592e-01, 9.923534e-01, 9.921485e-01, & ! + 9.919447e-01, 9.917421e-01, 9.915406e-01, 9.913403e-01, 9.911412e-01, & ! + 9.909435e-01, 9.907470e-01, 9.905519e-01, 9.903581e-01, 9.901659e-01, & ! + 9.899751e-01, 9.897858e-01, 9.895981e-01, 9.894120e-01, 9.892276e-01, & ! + 9.890447e-01, 9.888637e-01, 9.886845e-01, 9.885070e-01, 9.883314e-01, & ! + 9.881576e-01, 9.879859e-01, 9.8782e-01, & ! + 9.999138e-01, 9.998730e-01, 9.998338e-01, 9.997965e-01, 9.997609e-01, & ! 8 + 9.997270e-01, 9.996944e-01, 9.996629e-01, 9.996321e-01, 9.996016e-01, & ! + 9.995690e-01, 9.995372e-01, 9.995057e-01, 9.994744e-01, 9.994433e-01, & ! + 9.994124e-01, 9.993817e-01, 9.993510e-01, 9.993206e-01, 9.992903e-01, & ! + 9.992600e-01, 9.992299e-01, 9.991998e-01, 9.991698e-01, 9.991398e-01, & ! + 9.991098e-01, 9.990799e-01, 9.990499e-01, 9.990231e-01, 9.989920e-01, & ! + 9.989611e-01, 9.989302e-01, 9.988996e-01, 9.988690e-01, 9.988386e-01, & ! + 9.988084e-01, 9.987783e-01, 9.987485e-01, 9.987187e-01, 9.986891e-01, & ! + 9.986598e-01, 9.986306e-01, 9.986017e-01, 9.985729e-01, 9.985443e-01, & ! + 9.985160e-01, 9.984879e-01, 9.984600e-01, 9.984324e-01, 9.984050e-01, & ! + 9.983778e-01, 9.983509e-01, 9.983243e-01, 9.982980e-01, 9.982719e-01, & ! + 9.982461e-01, 9.982206e-01, 9.9820e-01, & ! + 9.999985e-01, 9.999979e-01, 9.999972e-01, 9.999966e-01, 9.999961e-01, & ! 9 + 9.999955e-01, 9.999950e-01, 9.999944e-01, 9.999938e-01, 9.999933e-01, & ! + 9.999927e-01, 9.999921e-01, 9.999915e-01, 9.999910e-01, 9.999904e-01, & ! + 9.999899e-01, 9.999893e-01, 9.999888e-01, 9.999882e-01, 9.999877e-01, & ! + 9.999871e-01, 9.999866e-01, 9.999861e-01, 9.999855e-01, 9.999850e-01, & ! + 9.999844e-01, 9.999839e-01, 9.999833e-01, 9.999828e-01, 9.999823e-01, & ! + 9.999817e-01, 9.999812e-01, 9.999807e-01, 9.999801e-01, 9.999796e-01, & ! + 9.999791e-01, 9.999786e-01, 9.999781e-01, 9.999776e-01, 9.999770e-01, & ! + 9.999765e-01, 9.999761e-01, 9.999756e-01, 9.999751e-01, 9.999746e-01, & ! + 9.999741e-01, 9.999736e-01, 9.999732e-01, 9.999727e-01, 9.999722e-01, & ! + 9.999718e-01, 9.999713e-01, 9.999709e-01, 9.999705e-01, 9.999701e-01, & ! + 9.999697e-01, 9.999692e-01, 9.9997e-01, & ! + 9.999999e-01, 9.999998e-01, 9.999997e-01, 9.999997e-01, 9.999997e-01, & ! 10 + 9.999996e-01, 9.999996e-01, 9.999995e-01, 9.999995e-01, 9.999994e-01, & ! + 9.999994e-01, 9.999993e-01, 9.999993e-01, 9.999992e-01, 9.999992e-01, & ! + 9.999991e-01, 9.999991e-01, 9.999991e-01, 9.999990e-01, 9.999989e-01, & ! + 9.999989e-01, 9.999989e-01, 9.999988e-01, 9.999988e-01, 9.999987e-01, & ! + 9.999987e-01, 9.999986e-01, 9.999986e-01, 9.999985e-01, 9.999985e-01, & ! + 9.999984e-01, 9.999984e-01, 9.999984e-01, 9.999983e-01, 9.999983e-01, & ! + 9.999982e-01, 9.999982e-01, 9.999982e-01, 9.999981e-01, 9.999980e-01, & ! + 9.999980e-01, 9.999980e-01, 9.999979e-01, 9.999979e-01, 9.999978e-01, & ! + 9.999978e-01, 9.999977e-01, 9.999977e-01, 9.999977e-01, 9.999976e-01, & ! + 9.999976e-01, 9.999975e-01, 9.999975e-01, 9.999974e-01, 9.999974e-01, & ! + 9.999974e-01, 9.999973e-01, 1.0000e+00, & ! + 9.999997e-01, 9.999995e-01, 9.999993e-01, 9.999992e-01, 9.999990e-01, & ! 11 + 9.999989e-01, 9.999988e-01, 9.999987e-01, 9.999986e-01, 9.999985e-01, & ! + 9.999984e-01, 9.999983e-01, 9.999982e-01, 9.999981e-01, 9.999980e-01, & ! + 9.999978e-01, 9.999977e-01, 9.999976e-01, 9.999975e-01, 9.999974e-01, & ! + 9.999973e-01, 9.999972e-01, 9.999970e-01, 9.999969e-01, 9.999968e-01, & ! + 9.999967e-01, 9.999966e-01, 9.999965e-01, 9.999964e-01, 9.999963e-01, & ! + 9.999962e-01, 9.999961e-01, 9.999959e-01, 9.999958e-01, 9.999957e-01, & ! + 9.999956e-01, 9.999955e-01, 9.999954e-01, 9.999953e-01, 9.999952e-01, & ! + 9.999951e-01, 9.999949e-01, 9.999949e-01, 9.999947e-01, 9.999946e-01, & ! + 9.999945e-01, 9.999944e-01, 9.999943e-01, 9.999942e-01, 9.999941e-01, & ! + 9.999940e-01, 9.999939e-01, 9.999938e-01, 9.999937e-01, 9.999936e-01, & ! + 9.999935e-01, 9.999934e-01, 9.9999e-01, & ! + 9.999984e-01, 9.999976e-01, 9.999969e-01, 9.999962e-01, 9.999956e-01, & ! 12 + 9.999950e-01, 9.999945e-01, 9.999940e-01, 9.999935e-01, 9.999931e-01, & ! + 9.999926e-01, 9.999920e-01, 9.999914e-01, 9.999908e-01, 9.999903e-01, & ! + 9.999897e-01, 9.999891e-01, 9.999886e-01, 9.999880e-01, 9.999874e-01, & ! + 9.999868e-01, 9.999863e-01, 9.999857e-01, 9.999851e-01, 9.999846e-01, & ! + 9.999840e-01, 9.999835e-01, 9.999829e-01, 9.999824e-01, 9.999818e-01, & ! + 9.999812e-01, 9.999806e-01, 9.999800e-01, 9.999795e-01, 9.999789e-01, & ! + 9.999783e-01, 9.999778e-01, 9.999773e-01, 9.999767e-01, 9.999761e-01, & ! + 9.999756e-01, 9.999750e-01, 9.999745e-01, 9.999739e-01, 9.999734e-01, & ! + 9.999729e-01, 9.999723e-01, 9.999718e-01, 9.999713e-01, 9.999708e-01, & ! + 9.999703e-01, 9.999697e-01, 9.999692e-01, 9.999687e-01, 9.999683e-01, & ! + 9.999678e-01, 9.999673e-01, 9.9997e-01, & ! + 9.999981e-01, 9.999973e-01, 9.999965e-01, 9.999958e-01, 9.999951e-01, & ! 13 + 9.999943e-01, 9.999937e-01, 9.999930e-01, 9.999924e-01, 9.999918e-01, & ! + 9.999912e-01, 9.999905e-01, 9.999897e-01, 9.999890e-01, 9.999883e-01, & ! + 9.999876e-01, 9.999869e-01, 9.999862e-01, 9.999855e-01, 9.999847e-01, & ! + 9.999840e-01, 9.999834e-01, 9.999827e-01, 9.999819e-01, 9.999812e-01, & ! + 9.999805e-01, 9.999799e-01, 9.999791e-01, 9.999785e-01, 9.999778e-01, & ! + 9.999771e-01, 9.999764e-01, 9.999757e-01, 9.999750e-01, 9.999743e-01, & ! + 9.999736e-01, 9.999729e-01, 9.999722e-01, 9.999715e-01, 9.999709e-01, & ! + 9.999701e-01, 9.999695e-01, 9.999688e-01, 9.999682e-01, 9.999675e-01, & ! + 9.999669e-01, 9.999662e-01, 9.999655e-01, 9.999649e-01, 9.999642e-01, & ! + 9.999636e-01, 9.999630e-01, 9.999624e-01, 9.999618e-01, 9.999612e-01, & ! + 9.999606e-01, 9.999600e-01, 9.9996e-01, & ! + 8.505737e-01, 8.465102e-01, 8.394829e-01, 8.279508e-01, 8.110806e-01, & ! 14 + 7.900397e-01, 7.669615e-01, 7.444422e-01, 7.253055e-01, 7.124831e-01, & ! + 7.016434e-01, 6.885485e-01, 6.767340e-01, 6.661029e-01, 6.565577e-01, & ! + 6.480013e-01, 6.403373e-01, 6.334697e-01, 6.273034e-01, 6.217440e-01, & ! + 6.166983e-01, 6.120740e-01, 6.077796e-01, 6.037249e-01, 5.998207e-01, & ! + 5.959788e-01, 5.921123e-01, 5.881354e-01, 5.891285e-01, 5.851143e-01, & ! + 5.814653e-01, 5.781606e-01, 5.751792e-01, 5.724998e-01, 5.701016e-01, & ! + 5.679634e-01, 5.660642e-01, 5.643829e-01, 5.628984e-01, 5.615898e-01, & ! + 5.604359e-01, 5.594158e-01, 5.585083e-01, 5.576924e-01, 5.569470e-01, & ! + 5.562512e-01, 5.555838e-01, 5.549239e-01, 5.542503e-01, 5.535420e-01, & ! + 5.527781e-01, 5.519374e-01, 5.509989e-01, 5.499417e-01, 5.487445e-01, & ! + 5.473865e-01, 5.458466e-01, 5.4410e-01 /), & ! + shape = (/58,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(58,nBandsSW_RRTMG),parameter :: & ! + ssaliq2 = reshape(source= (/ & ! + 8.362119e-01, 8.098460e-01, 7.762291e-01, 7.486042e-01, 7.294172e-01, & ! 1 + 7.161000e-01, 7.060656e-01, 6.978387e-01, 6.907193e-01, 6.843551e-01, & ! + 6.785668e-01, 6.732450e-01, 6.683191e-01, 6.637264e-01, 6.594307e-01, & ! + 6.554033e-01, 6.516115e-01, 6.480295e-01, 6.446429e-01, 6.414306e-01, & ! + 6.383783e-01, 6.354750e-01, 6.327068e-01, 6.300665e-01, 6.275376e-01, & ! + 6.251245e-01, 6.228136e-01, 6.205944e-01, 6.184720e-01, 6.164330e-01, & ! + 6.144742e-01, 6.125962e-01, 6.108004e-01, 6.090740e-01, 6.074200e-01, & ! + 6.058381e-01, 6.043209e-01, 6.028681e-01, 6.014836e-01, 6.001626e-01, & ! + 5.988957e-01, 5.976864e-01, 5.965390e-01, 5.954379e-01, 5.943972e-01, & ! + 5.934019e-01, 5.924624e-01, 5.915579e-01, 5.907025e-01, 5.898913e-01, & ! + 5.891213e-01, 5.883815e-01, 5.876851e-01, 5.870158e-01, 5.863868e-01, & ! + 5.857821e-01, 5.852111e-01, 5.846579e-01, & ! + 6.995459e-01, 7.158012e-01, 7.076001e-01, 6.927244e-01, 6.786434e-01, & ! 2 + 6.673545e-01, 6.585859e-01, 6.516314e-01, 6.459010e-01, 6.410225e-01, & ! + 6.367574e-01, 6.329554e-01, 6.295119e-01, 6.263595e-01, 6.234462e-01, & ! + 6.207274e-01, 6.181755e-01, 6.157678e-01, 6.134880e-01, 6.113173e-01, & ! + 6.092495e-01, 6.072689e-01, 6.053717e-01, 6.035507e-01, 6.018001e-01, & ! + 6.001134e-01, 5.984951e-01, 5.969294e-01, 5.954256e-01, 5.939698e-01, & ! + 5.925716e-01, 5.912265e-01, 5.899270e-01, 5.886771e-01, 5.874746e-01, & ! + 5.863185e-01, 5.852077e-01, 5.841460e-01, 5.831249e-01, 5.821474e-01, & ! + 5.812078e-01, 5.803173e-01, 5.794616e-01, 5.786443e-01, 5.778617e-01, & ! + 5.771236e-01, 5.764191e-01, 5.757400e-01, 5.750971e-01, 5.744842e-01, & ! + 5.739012e-01, 5.733482e-01, 5.728175e-01, 5.723214e-01, 5.718383e-01, & ! + 5.713827e-01, 5.709471e-01, 5.705330e-01, & ! + 9.929711e-01, 9.896942e-01, 9.852408e-01, 9.806820e-01, 9.764512e-01, & ! 3 + 9.725375e-01, 9.688677e-01, 9.653832e-01, 9.620552e-01, 9.588522e-01, & ! + 9.557475e-01, 9.527265e-01, 9.497731e-01, 9.468756e-01, 9.440270e-01, & ! + 9.412230e-01, 9.384592e-01, 9.357287e-01, 9.330369e-01, 9.303778e-01, & ! + 9.277502e-01, 9.251546e-01, 9.225907e-01, 9.200553e-01, 9.175521e-01, & ! + 9.150773e-01, 9.126352e-01, 9.102260e-01, 9.078485e-01, 9.055057e-01, & ! + 9.031978e-01, 9.009306e-01, 8.987010e-01, 8.965177e-01, 8.943774e-01, & ! + 8.922869e-01, 8.902430e-01, 8.882551e-01, 8.863182e-01, 8.844373e-01, & ! + 8.826143e-01, 8.808499e-01, 8.791413e-01, 8.774940e-01, 8.759019e-01, & ! + 8.743650e-01, 8.728941e-01, 8.714712e-01, 8.701065e-01, 8.688008e-01, & ! + 8.675409e-01, 8.663295e-01, 8.651714e-01, 8.640637e-01, 8.629943e-01, & ! + 8.619762e-01, 8.609995e-01, 8.600581e-01, & ! + 9.910612e-01, 9.854226e-01, 9.795008e-01, 9.742920e-01, 9.695996e-01, & ! 4 + 9.652274e-01, 9.610648e-01, 9.570521e-01, 9.531397e-01, 9.493086e-01, & ! + 9.455413e-01, 9.418362e-01, 9.381902e-01, 9.346016e-01, 9.310718e-01, & ! + 9.275957e-01, 9.241757e-01, 9.208038e-01, 9.174802e-01, 9.142058e-01, & ! + 9.109753e-01, 9.077895e-01, 9.046433e-01, 9.015409e-01, 8.984784e-01, & ! + 8.954572e-01, 8.924748e-01, 8.895367e-01, 8.866395e-01, 8.837864e-01, & ! + 8.809819e-01, 8.782267e-01, 8.755231e-01, 8.728712e-01, 8.702802e-01, & ! + 8.677443e-01, 8.652733e-01, 8.628678e-01, 8.605300e-01, 8.582593e-01, & ! + 8.560596e-01, 8.539352e-01, 8.518782e-01, 8.498915e-01, 8.479790e-01, & ! + 8.461384e-01, 8.443645e-01, 8.426613e-01, 8.410229e-01, 8.394495e-01, & ! + 8.379428e-01, 8.364967e-01, 8.351117e-01, 8.337820e-01, 8.325091e-01, & ! + 8.312874e-01, 8.301169e-01, 8.289985e-01, & ! + 9.969802e-01, 9.950445e-01, 9.931448e-01, 9.914272e-01, 9.898652e-01, & ! 5 + 9.884250e-01, 9.870637e-01, 9.857482e-01, 9.844558e-01, 9.831755e-01, & ! + 9.819068e-01, 9.806477e-01, 9.794000e-01, 9.781666e-01, 9.769461e-01, & ! + 9.757386e-01, 9.745459e-01, 9.733650e-01, 9.721953e-01, 9.710398e-01, & ! + 9.698936e-01, 9.687583e-01, 9.676334e-01, 9.665192e-01, 9.654132e-01, & ! + 9.643208e-01, 9.632374e-01, 9.621625e-01, 9.611003e-01, 9.600518e-01, & ! + 9.590144e-01, 9.579922e-01, 9.569864e-01, 9.559948e-01, 9.550239e-01, & ! + 9.540698e-01, 9.531382e-01, 9.522280e-01, 9.513409e-01, 9.504772e-01, & ! + 9.496360e-01, 9.488220e-01, 9.480327e-01, 9.472693e-01, 9.465333e-01, & ! + 9.458211e-01, 9.451344e-01, 9.444732e-01, 9.438372e-01, 9.432268e-01, & ! + 9.426391e-01, 9.420757e-01, 9.415308e-01, 9.410102e-01, 9.405115e-01, & ! + 9.400326e-01, 9.395716e-01, 9.391313e-01, & ! + 9.980034e-01, 9.968572e-01, 9.958696e-01, 9.949747e-01, 9.941241e-01, & ! 6 + 9.933043e-01, 9.924971e-01, 9.916978e-01, 9.909023e-01, 9.901046e-01, & ! + 9.893087e-01, 9.885146e-01, 9.877195e-01, 9.869283e-01, 9.861379e-01, & ! + 9.853523e-01, 9.845715e-01, 9.837945e-01, 9.830217e-01, 9.822567e-01, & ! + 9.814935e-01, 9.807356e-01, 9.799815e-01, 9.792332e-01, 9.784845e-01, & ! + 9.777424e-01, 9.770042e-01, 9.762695e-01, 9.755416e-01, 9.748152e-01, & ! + 9.740974e-01, 9.733873e-01, 9.726813e-01, 9.719861e-01, 9.713010e-01, & ! + 9.706262e-01, 9.699647e-01, 9.693144e-01, 9.686794e-01, 9.680596e-01, & ! + 9.674540e-01, 9.668657e-01, 9.662926e-01, 9.657390e-01, 9.652019e-01, & ! + 9.646820e-01, 9.641784e-01, 9.636945e-01, 9.632260e-01, 9.627743e-01, & ! + 9.623418e-01, 9.619227e-01, 9.615194e-01, 9.611341e-01, 9.607629e-01, & ! + 9.604057e-01, 9.600622e-01, 9.597322e-01, & ! + 9.988219e-01, 9.981767e-01, 9.976168e-01, 9.971066e-01, 9.966195e-01, & ! 7 + 9.961566e-01, 9.956995e-01, 9.952481e-01, 9.947982e-01, 9.943495e-01, & ! + 9.938955e-01, 9.934368e-01, 9.929825e-01, 9.925239e-01, 9.920653e-01, & ! + 9.916096e-01, 9.911552e-01, 9.907067e-01, 9.902594e-01, 9.898178e-01, & ! + 9.893791e-01, 9.889453e-01, 9.885122e-01, 9.880837e-01, 9.876567e-01, & ! + 9.872331e-01, 9.868121e-01, 9.863938e-01, 9.859790e-01, 9.855650e-01, & ! + 9.851548e-01, 9.847491e-01, 9.843496e-01, 9.839521e-01, 9.835606e-01, & ! + 9.831771e-01, 9.827975e-01, 9.824292e-01, 9.820653e-01, 9.817124e-01, & ! + 9.813644e-01, 9.810291e-01, 9.807020e-01, 9.803864e-01, 9.800782e-01, & ! + 9.797821e-01, 9.794958e-01, 9.792179e-01, 9.789509e-01, 9.786940e-01, & ! + 9.784460e-01, 9.782090e-01, 9.779789e-01, 9.777553e-01, 9.775425e-01, & ! + 9.773387e-01, 9.771420e-01, 9.769529e-01, & ! + 9.998902e-01, 9.998395e-01, 9.997915e-01, 9.997442e-01, 9.997016e-01, & ! 8 + 9.996600e-01, 9.996200e-01, 9.995806e-01, 9.995411e-01, 9.995005e-01, & ! + 9.994589e-01, 9.994178e-01, 9.993766e-01, 9.993359e-01, 9.992948e-01, & ! + 9.992533e-01, 9.992120e-01, 9.991723e-01, 9.991313e-01, 9.990906e-01, & ! + 9.990510e-01, 9.990113e-01, 9.989716e-01, 9.989323e-01, 9.988923e-01, & ! + 9.988532e-01, 9.988140e-01, 9.987761e-01, 9.987373e-01, 9.986989e-01, & ! + 9.986597e-01, 9.986239e-01, 9.985861e-01, 9.985485e-01, 9.985123e-01, & ! + 9.984762e-01, 9.984415e-01, 9.984065e-01, 9.983722e-01, 9.983398e-01, & ! + 9.983078e-01, 9.982758e-01, 9.982461e-01, 9.982157e-01, 9.981872e-01, & ! + 9.981595e-01, 9.981324e-01, 9.981068e-01, 9.980811e-01, 9.980580e-01, & ! + 9.980344e-01, 9.980111e-01, 9.979908e-01, 9.979690e-01, 9.979492e-01, & ! + 9.979316e-01, 9.979116e-01, 9.978948e-01, & ! + 9.999978e-01, 9.999948e-01, 9.999915e-01, 9.999905e-01, 9.999896e-01, & ! 9 + 9.999887e-01, 9.999888e-01, 9.999888e-01, 9.999870e-01, 9.999854e-01, & ! + 9.999855e-01, 9.999856e-01, 9.999839e-01, 9.999834e-01, 9.999829e-01, & ! + 9.999809e-01, 9.999816e-01, 9.999793e-01, 9.999782e-01, 9.999779e-01, & ! + 9.999772e-01, 9.999764e-01, 9.999756e-01, 9.999744e-01, 9.999744e-01, & ! + 9.999736e-01, 9.999729e-01, 9.999716e-01, 9.999706e-01, 9.999692e-01, & ! + 9.999690e-01, 9.999675e-01, 9.999673e-01, 9.999660e-01, 9.999654e-01, & ! + 9.999647e-01, 9.999647e-01, 9.999625e-01, 9.999620e-01, 9.999614e-01, & ! + 9.999613e-01, 9.999607e-01, 9.999604e-01, 9.999594e-01, 9.999589e-01, & ! + 9.999586e-01, 9.999567e-01, 9.999550e-01, 9.999557e-01, 9.999542e-01, & ! + 9.999546e-01, 9.999539e-01, 9.999536e-01, 9.999526e-01, 9.999523e-01, & ! + 9.999508e-01, 9.999534e-01, 9.999507e-01, & ! + 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, & ! 10 + 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, & ! + 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, & ! + 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, 9.999995e-01, & ! + 9.999995e-01, 9.999990e-01, 9.999991e-01, 9.999991e-01, 9.999990e-01, & ! + 9.999989e-01, 9.999988e-01, 9.999988e-01, 9.999986e-01, 9.999988e-01, & ! + 9.999986e-01, 9.999987e-01, 9.999986e-01, 9.999985e-01, 9.999985e-01, & ! + 9.999985e-01, 9.999985e-01, 9.999983e-01, 9.999983e-01, 9.999981e-01, & ! + 9.999981e-01, 9.999986e-01, 9.999985e-01, 9.999983e-01, 9.999984e-01, & ! + 9.999982e-01, 9.999983e-01, 9.999982e-01, 9.999980e-01, 9.999981e-01, & ! + 9.999978e-01, 9.999979e-01, 9.999985e-01, 9.999985e-01, 9.999983e-01, & ! + 9.999983e-01, 9.999983e-01, 9.999983e-01, & ! + 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, & ! 11 + 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, & ! + 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, & ! + 1.000000e+00, 1.000000e+00, 1.000000e+00, 1.000000e+00, 9.999991e-01, & ! + 9.999990e-01, 9.999992e-01, 9.999995e-01, 9.999986e-01, 9.999994e-01, & ! + 9.999985e-01, 9.999980e-01, 9.999984e-01, 9.999983e-01, 9.999979e-01, & ! + 9.999969e-01, 9.999977e-01, 9.999971e-01, 9.999969e-01, 9.999969e-01, & ! + 9.999965e-01, 9.999970e-01, 9.999985e-01, 9.999973e-01, 9.999961e-01, & ! + 9.999968e-01, 9.999952e-01, 9.999970e-01, 9.999974e-01, 9.999965e-01, & ! + 9.999969e-01, 9.999970e-01, 9.999970e-01, 9.999960e-01, 9.999923e-01, & ! + 9.999958e-01, 9.999937e-01, 9.999960e-01, 9.999953e-01, 9.999946e-01, & ! + 9.999946e-01, 9.999957e-01, 9.999951e-01, & ! + 1.000000e+00, 1.000000e+00, 9.999983e-01, 9.999979e-01, 9.999965e-01, & ! 12 + 9.999949e-01, 9.999948e-01, 9.999918e-01, 9.999917e-01, 9.999923e-01, & ! + 9.999908e-01, 9.999889e-01, 9.999902e-01, 9.999895e-01, 9.999881e-01, & ! + 9.999882e-01, 9.999876e-01, 9.999866e-01, 9.999866e-01, 9.999858e-01, & ! + 9.999860e-01, 9.999852e-01, 9.999836e-01, 9.999831e-01, 9.999818e-01, & ! + 9.999808e-01, 9.999816e-01, 9.999800e-01, 9.999783e-01, 9.999780e-01, & ! + 9.999763e-01, 9.999746e-01, 9.999731e-01, 9.999713e-01, 9.999762e-01, & ! + 9.999740e-01, 9.999670e-01, 9.999703e-01, 9.999687e-01, 9.999666e-01, & ! + 9.999683e-01, 9.999667e-01, 9.999611e-01, 9.999635e-01, 9.999600e-01, & ! + 9.999635e-01, 9.999594e-01, 9.999601e-01, 9.999586e-01, 9.999559e-01, & ! + 9.999569e-01, 9.999558e-01, 9.999523e-01, 9.999535e-01, 9.999529e-01, & ! + 9.999553e-01, 9.999495e-01, 9.999490e-01, & ! + 9.999920e-01, 9.999873e-01, 9.999855e-01, 9.999832e-01, 9.999807e-01, & ! 13 + 9.999778e-01, 9.999754e-01, 9.999721e-01, 9.999692e-01, 9.999651e-01, & ! + 9.999621e-01, 9.999607e-01, 9.999567e-01, 9.999546e-01, 9.999521e-01, & ! + 9.999491e-01, 9.999457e-01, 9.999439e-01, 9.999403e-01, 9.999374e-01, & ! + 9.999353e-01, 9.999315e-01, 9.999282e-01, 9.999244e-01, 9.999234e-01, & ! + 9.999189e-01, 9.999130e-01, 9.999117e-01, 9.999073e-01, 9.999020e-01, & ! + 9.998993e-01, 9.998987e-01, 9.998922e-01, 9.998893e-01, 9.998869e-01, & ! + 9.998805e-01, 9.998778e-01, 9.998751e-01, 9.998708e-01, 9.998676e-01, & ! + 9.998624e-01, 9.998642e-01, 9.998582e-01, 9.998547e-01, 9.998546e-01, & ! + 9.998477e-01, 9.998487e-01, 9.998466e-01, 9.998403e-01, 9.998412e-01, & ! + 9.998406e-01, 9.998342e-01, 9.998326e-01, 9.998333e-01, 9.998328e-01, & ! + 9.998290e-01, 9.998276e-01, 9.998249e-01, & ! + 8.383753e-01, 8.461471e-01, 8.373325e-01, 8.212889e-01, 8.023834e-01, & ! 14 + 7.829501e-01, 7.641777e-01, 7.466000e-01, 7.304023e-01, 7.155998e-01, & ! + 7.021259e-01, 6.898840e-01, 6.787615e-01, 6.686479e-01, 6.594414e-01, & ! + 6.510417e-01, 6.433668e-01, 6.363335e-01, 6.298788e-01, 6.239398e-01, & ! + 6.184633e-01, 6.134055e-01, 6.087228e-01, 6.043786e-01, 6.003439e-01, & ! + 5.965910e-01, 5.930917e-01, 5.898280e-01, 5.867798e-01, 5.839264e-01, & ! + 5.812576e-01, 5.787592e-01, 5.764163e-01, 5.742189e-01, 5.721598e-01, & ! + 5.702286e-01, 5.684182e-01, 5.667176e-01, 5.651237e-01, 5.636253e-01, & ! + 5.622228e-01, 5.609074e-01, 5.596713e-01, 5.585089e-01, 5.574223e-01, & ! + 5.564002e-01, 5.554411e-01, 5.545397e-01, 5.536914e-01, 5.528967e-01, & ! + 5.521495e-01, 5.514457e-01, 5.507818e-01, 5.501623e-01, 5.495750e-01, & ! + 5.490192e-01, 5.484980e-01, 5.480046e-01/), & ! + shape = (/58,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(58,nBandsSW_RRTMG),parameter :: & ! + asyliq1 = reshape(source= (/ & ! + 8.133297e-01, 8.133528e-01, 8.173865e-01, 8.243205e-01, 8.333063e-01, & ! 1 + 8.436317e-01, 8.546611e-01, 8.657934e-01, 8.764345e-01, 8.859837e-01, & ! + 8.627394e-01, 8.824569e-01, 8.976887e-01, 9.089541e-01, 9.167699e-01, & ! + 9.216517e-01, 9.241147e-01, 9.246743e-01, 9.238469e-01, 9.221504e-01, & ! + 9.201045e-01, 9.182299e-01, 9.170491e-01, 9.170862e-01, 9.188653e-01, & ! + 9.229111e-01, 9.297468e-01, 9.398950e-01, 9.203269e-01, 9.260693e-01, & ! + 9.309373e-01, 9.349918e-01, 9.382935e-01, 9.409030e-01, 9.428809e-01, & ! + 9.442881e-01, 9.451851e-01, 9.456331e-01, 9.456926e-01, 9.454247e-01, & ! + 9.448902e-01, 9.441503e-01, 9.432661e-01, 9.422987e-01, 9.413094e-01, & ! + 9.403594e-01, 9.395102e-01, 9.388230e-01, 9.383594e-01, 9.381810e-01, & ! + 9.383489e-01, 9.389251e-01, 9.399707e-01, 9.415475e-01, 9.437167e-01, & ! + 9.465399e-01, 9.500786e-01, 9.5439e-01, & ! + 8.794448e-01, 8.819306e-01, 8.837667e-01, 8.853832e-01, 8.871010e-01, & ! 2 + 8.892675e-01, 8.922584e-01, 8.964666e-01, 9.022940e-01, 9.101456e-01, & ! + 8.839999e-01, 9.035610e-01, 9.184568e-01, 9.292315e-01, 9.364282e-01, & ! + 9.405887e-01, 9.422554e-01, 9.419703e-01, 9.402759e-01, 9.377159e-01, & ! + 9.348345e-01, 9.321769e-01, 9.302888e-01, 9.297166e-01, 9.310075e-01, & ! + 9.347080e-01, 9.413643e-01, 9.515216e-01, 9.306286e-01, 9.361781e-01, & ! + 9.408374e-01, 9.446692e-01, 9.477363e-01, 9.501013e-01, 9.518268e-01, & ! + 9.529756e-01, 9.536105e-01, 9.537938e-01, 9.535886e-01, 9.530574e-01, & ! + 9.522633e-01, 9.512688e-01, 9.501370e-01, 9.489306e-01, 9.477126e-01, & ! + 9.465459e-01, 9.454934e-01, 9.446183e-01, 9.439833e-01, 9.436519e-01, & ! + 9.436866e-01, 9.441508e-01, 9.451073e-01, 9.466195e-01, 9.487501e-01, & ! + 9.515621e-01, 9.551185e-01, 9.5948e-01, & ! + 8.478817e-01, 8.269312e-01, 8.161352e-01, 8.135960e-01, 8.173586e-01, & ! 3 + 8.254167e-01, 8.357072e-01, 8.461167e-01, 8.544952e-01, 8.586776e-01, & ! + 8.335562e-01, 8.524273e-01, 8.669052e-01, 8.775014e-01, 8.847277e-01, & ! + 8.890958e-01, 8.911173e-01, 8.913038e-01, 8.901669e-01, 8.882182e-01, & ! + 8.859692e-01, 8.839315e-01, 8.826164e-01, 8.825356e-01, 8.842004e-01, & ! + 8.881223e-01, 8.948131e-01, 9.047837e-01, 8.855951e-01, 8.911796e-01, & ! + 8.959229e-01, 8.998837e-01, 9.031209e-01, 9.056939e-01, 9.076609e-01, & ! + 9.090812e-01, 9.100134e-01, 9.105167e-01, 9.106496e-01, 9.104712e-01, & ! + 9.100404e-01, 9.094159e-01, 9.086568e-01, 9.078218e-01, 9.069697e-01, & ! + 9.061595e-01, 9.054499e-01, 9.048999e-01, 9.045683e-01, 9.045142e-01, & ! + 9.047962e-01, 9.054730e-01, 9.066037e-01, 9.082472e-01, 9.104623e-01, & ! + 9.133079e-01, 9.168427e-01, 9.2113e-01, & ! + 8.216697e-01, 7.982871e-01, 7.891147e-01, 7.909083e-01, 8.003833e-01, & ! 4 + 8.142516e-01, 8.292290e-01, 8.420356e-01, 8.493945e-01, 8.480316e-01, & ! + 8.212381e-01, 8.394984e-01, 8.534095e-01, 8.634813e-01, 8.702242e-01, & ! + 8.741483e-01, 8.757638e-01, 8.755808e-01, 8.741095e-01, 8.718604e-01, & ! + 8.693433e-01, 8.670686e-01, 8.655464e-01, 8.652872e-01, 8.668006e-01, & ! + 8.705973e-01, 8.771874e-01, 8.870809e-01, 8.678284e-01, 8.732315e-01, & ! + 8.778084e-01, 8.816166e-01, 8.847146e-01, 8.871603e-01, 8.890116e-01, & ! + 8.903266e-01, 8.911632e-01, 8.915796e-01, 8.916337e-01, 8.913834e-01, & ! + 8.908869e-01, 8.902022e-01, 8.893873e-01, 8.885001e-01, 8.875986e-01, & ! + 8.867411e-01, 8.859852e-01, 8.853891e-01, 8.850111e-01, 8.849089e-01, & ! + 8.851405e-01, 8.857639e-01, 8.868372e-01, 8.884185e-01, 8.905656e-01, & ! + 8.933368e-01, 8.967899e-01, 9.0098e-01, & ! + 8.063610e-01, 7.938147e-01, 7.921304e-01, 7.985092e-01, 8.101339e-01, & ! 5 + 8.242175e-01, 8.379913e-01, 8.486920e-01, 8.535547e-01, 8.498083e-01, & ! + 8.224849e-01, 8.405509e-01, 8.542436e-01, 8.640770e-01, 8.705653e-01, & ! + 8.742227e-01, 8.755630e-01, 8.751004e-01, 8.733491e-01, 8.708231e-01, & ! + 8.680365e-01, 8.655035e-01, 8.637381e-01, 8.632544e-01, 8.645665e-01, & ! + 8.681885e-01, 8.746346e-01, 8.844188e-01, 8.648180e-01, 8.700563e-01, & ! + 8.744672e-01, 8.781087e-01, 8.810393e-01, 8.833174e-01, 8.850011e-01, & ! + 8.861485e-01, 8.868183e-01, 8.870687e-01, 8.869579e-01, 8.865441e-01, & ! + 8.858857e-01, 8.850412e-01, 8.840686e-01, 8.830263e-01, 8.819726e-01, & ! + 8.809658e-01, 8.800642e-01, 8.793260e-01, 8.788099e-01, 8.785737e-01, & ! + 8.786758e-01, 8.791746e-01, 8.801283e-01, 8.815955e-01, 8.836340e-01, & ! + 8.863024e-01, 8.896592e-01, 8.9376e-01, & ! + 7.885899e-01, 7.937172e-01, 8.020658e-01, 8.123971e-01, 8.235502e-01, & ! 6 + 8.343776e-01, 8.437336e-01, 8.504711e-01, 8.534421e-01, 8.514978e-01, & ! + 8.238888e-01, 8.417463e-01, 8.552057e-01, 8.647853e-01, 8.710038e-01, & ! + 8.743798e-01, 8.754319e-01, 8.746786e-01, 8.726386e-01, 8.698303e-01, & ! + 8.667724e-01, 8.639836e-01, 8.619823e-01, 8.612870e-01, 8.624165e-01, & ! + 8.658893e-01, 8.722241e-01, 8.819394e-01, 8.620216e-01, 8.671239e-01, & ! + 8.713983e-01, 8.749032e-01, 8.776970e-01, 8.798385e-01, 8.813860e-01, & ! + 8.823980e-01, 8.829332e-01, 8.830500e-01, 8.828068e-01, 8.822623e-01, & ! + 8.814750e-01, 8.805031e-01, 8.794056e-01, 8.782407e-01, 8.770672e-01, & ! + 8.759432e-01, 8.749275e-01, 8.740784e-01, 8.734547e-01, 8.731146e-01, & ! + 8.731170e-01, 8.735199e-01, 8.743823e-01, 8.757625e-01, 8.777191e-01, & ! + 8.803105e-01, 8.835953e-01, 8.8763e-01, & ! + 7.811516e-01, 7.962229e-01, 8.096199e-01, 8.212996e-01, 8.312212e-01, & ! 7 + 8.393430e-01, 8.456236e-01, 8.500214e-01, 8.524950e-01, 8.530031e-01, & ! + 8.251485e-01, 8.429043e-01, 8.562461e-01, 8.656954e-01, 8.717737e-01, & ! + 8.750020e-01, 8.759022e-01, 8.749953e-01, 8.728027e-01, 8.698461e-01, & ! + 8.666466e-01, 8.637257e-01, 8.616047e-01, 8.608051e-01, 8.618483e-01, & ! + 8.652557e-01, 8.715487e-01, 8.812485e-01, 8.611645e-01, 8.662052e-01, & ! + 8.704173e-01, 8.738594e-01, 8.765901e-01, 8.786678e-01, 8.801517e-01, & ! + 8.810999e-01, 8.815713e-01, 8.816246e-01, 8.813185e-01, 8.807114e-01, & ! + 8.798621e-01, 8.788290e-01, 8.776713e-01, 8.764470e-01, 8.752152e-01, & ! + 8.740343e-01, 8.729631e-01, 8.720602e-01, 8.713842e-01, 8.709936e-01, & ! + 8.709475e-01, 8.713041e-01, 8.721221e-01, 8.734602e-01, 8.753774e-01, & ! + 8.779319e-01, 8.811825e-01, 8.8519e-01, & ! + 7.865744e-01, 8.093340e-01, 8.257596e-01, 8.369940e-01, 8.441574e-01, & ! 8 + 8.483602e-01, 8.507096e-01, 8.523139e-01, 8.542834e-01, 8.577321e-01, & ! + 8.288960e-01, 8.465308e-01, 8.597175e-01, 8.689830e-01, 8.748542e-01, & ! + 8.778584e-01, 8.785222e-01, 8.773728e-01, 8.749370e-01, 8.717419e-01, & ! + 8.683145e-01, 8.651816e-01, 8.628704e-01, 8.619077e-01, 8.628205e-01, & ! + 8.661356e-01, 8.723803e-01, 8.820815e-01, 8.616715e-01, 8.666389e-01, & ! + 8.707753e-01, 8.741398e-01, 8.767912e-01, 8.787885e-01, 8.801908e-01, & ! + 8.810570e-01, 8.814460e-01, 8.814167e-01, 8.810283e-01, 8.803395e-01, & ! + 8.794095e-01, 8.782971e-01, 8.770613e-01, 8.757610e-01, 8.744553e-01, & ! + 8.732031e-01, 8.720634e-01, 8.710951e-01, 8.703572e-01, 8.699086e-01, & ! + 8.698084e-01, 8.701155e-01, 8.708887e-01, 8.721872e-01, 8.740698e-01, & ! + 8.765957e-01, 8.798235e-01, 8.8381e-01, & ! + 8.069513e-01, 8.262939e-01, 8.398241e-01, 8.486352e-01, 8.538213e-01, & ! 9 + 8.564743e-01, 8.576854e-01, 8.585455e-01, 8.601452e-01, 8.635755e-01, & ! + 8.337383e-01, 8.512655e-01, 8.643049e-01, 8.733896e-01, 8.790535e-01, & ! + 8.818295e-01, 8.822518e-01, 8.808533e-01, 8.781676e-01, 8.747284e-01, & ! + 8.710690e-01, 8.677229e-01, 8.652236e-01, 8.641047e-01, 8.648993e-01, & ! + 8.681413e-01, 8.743640e-01, 8.841007e-01, 8.633558e-01, 8.682719e-01, & ! + 8.723543e-01, 8.756621e-01, 8.782547e-01, 8.801915e-01, 8.815318e-01, & ! + 8.823347e-01, 8.826598e-01, 8.825663e-01, 8.821135e-01, 8.813608e-01, & ! + 8.803674e-01, 8.791928e-01, 8.778960e-01, 8.765366e-01, 8.751738e-01, & ! + 8.738670e-01, 8.726755e-01, 8.716585e-01, 8.708755e-01, 8.703856e-01, & ! + 8.702483e-01, 8.705229e-01, 8.712687e-01, 8.725448e-01, 8.744109e-01, & ! + 8.769260e-01, 8.801496e-01, 8.8414e-01, & ! + 8.252182e-01, 8.379244e-01, 8.471709e-01, 8.535760e-01, 8.577540e-01, & ! 10 + 8.603183e-01, 8.618820e-01, 8.630578e-01, 8.644587e-01, 8.666970e-01, & ! + 8.362159e-01, 8.536817e-01, 8.666387e-01, 8.756240e-01, 8.811746e-01, & ! + 8.838273e-01, 8.841191e-01, 8.825871e-01, 8.797681e-01, 8.761992e-01, & ! + 8.724174e-01, 8.689593e-01, 8.663623e-01, 8.651632e-01, 8.658988e-01, & ! + 8.691064e-01, 8.753226e-01, 8.850847e-01, 8.641620e-01, 8.690500e-01, & ! + 8.731026e-01, 8.763795e-01, 8.789400e-01, 8.808438e-01, 8.821503e-01, & ! + 8.829191e-01, 8.832095e-01, 8.830813e-01, 8.825938e-01, 8.818064e-01, & ! + 8.807787e-01, 8.795704e-01, 8.782408e-01, 8.768493e-01, 8.754557e-01, & ! + 8.741193e-01, 8.728995e-01, 8.718561e-01, 8.710484e-01, 8.705360e-01, & ! + 8.703782e-01, 8.706347e-01, 8.713650e-01, 8.726285e-01, 8.744849e-01, & ! + 8.769933e-01, 8.802136e-01, 8.8421e-01, & ! + 8.370583e-01, 8.467920e-01, 8.537769e-01, 8.585136e-01, 8.615034e-01, & ! 11 + 8.632474e-01, 8.642468e-01, 8.650026e-01, 8.660161e-01, 8.677882e-01, & ! + 8.369760e-01, 8.543821e-01, 8.672699e-01, 8.761782e-01, 8.816454e-01, & ! + 8.842103e-01, 8.844114e-01, 8.827872e-01, 8.798766e-01, 8.762179e-01, & ! + 8.723500e-01, 8.688112e-01, 8.661403e-01, 8.648758e-01, 8.655563e-01, & ! + 8.687206e-01, 8.749072e-01, 8.846546e-01, 8.636289e-01, 8.684849e-01, & ! + 8.725054e-01, 8.757501e-01, 8.782785e-01, 8.801503e-01, 8.814249e-01, & ! + 8.821620e-01, 8.824211e-01, 8.822620e-01, 8.817440e-01, 8.809268e-01, & ! + 8.798699e-01, 8.786330e-01, 8.772756e-01, 8.758572e-01, 8.744374e-01, & ! + 8.730760e-01, 8.718323e-01, 8.707660e-01, 8.699366e-01, 8.694039e-01, & ! + 8.692271e-01, 8.694661e-01, 8.701803e-01, 8.714293e-01, 8.732727e-01, & ! + 8.757702e-01, 8.789811e-01, 8.8297e-01, & ! + 8.430819e-01, 8.510060e-01, 8.567270e-01, 8.606533e-01, 8.631934e-01, & ! 12 + 8.647554e-01, 8.657471e-01, 8.665760e-01, 8.676496e-01, 8.693754e-01, & ! + 8.384298e-01, 8.557913e-01, 8.686214e-01, 8.774605e-01, 8.828495e-01, & ! + 8.853287e-01, 8.854393e-01, 8.837215e-01, 8.807161e-01, 8.769639e-01, & ! + 8.730053e-01, 8.693812e-01, 8.666321e-01, 8.652988e-01, 8.659219e-01, & ! + 8.690419e-01, 8.751999e-01, 8.849360e-01, 8.638013e-01, 8.686371e-01, & ! + 8.726369e-01, 8.758605e-01, 8.783674e-01, 8.802176e-01, 8.814705e-01, & ! + 8.821859e-01, 8.824234e-01, 8.822429e-01, 8.817038e-01, 8.808658e-01, & ! + 8.797887e-01, 8.785323e-01, 8.771560e-01, 8.757196e-01, 8.742828e-01, & ! + 8.729052e-01, 8.716467e-01, 8.705666e-01, 8.697250e-01, 8.691812e-01, & ! + 8.689950e-01, 8.692264e-01, 8.699346e-01, 8.711795e-01, 8.730209e-01, & ! + 8.755181e-01, 8.787312e-01, 8.8272e-01, & ! + 8.452284e-01, 8.522700e-01, 8.572973e-01, 8.607031e-01, 8.628802e-01, & ! 13 + 8.642215e-01, 8.651198e-01, 8.659679e-01, 8.671588e-01, 8.690853e-01, & ! + 8.383803e-01, 8.557485e-01, 8.685851e-01, 8.774303e-01, 8.828245e-01, & ! + 8.853077e-01, 8.854207e-01, 8.837034e-01, 8.806962e-01, 8.769398e-01, & ! + 8.729740e-01, 8.693393e-01, 8.665761e-01, 8.652247e-01, 8.658253e-01, & ! + 8.689182e-01, 8.750438e-01, 8.847424e-01, 8.636140e-01, 8.684449e-01, & ! + 8.724400e-01, 8.756589e-01, 8.781613e-01, 8.800072e-01, 8.812559e-01, & ! + 8.819671e-01, 8.822007e-01, 8.820165e-01, 8.814737e-01, 8.806322e-01, & ! + 8.795518e-01, 8.782923e-01, 8.769129e-01, 8.754737e-01, 8.740342e-01, & ! + 8.726542e-01, 8.713934e-01, 8.703111e-01, 8.694677e-01, 8.689222e-01, & ! + 8.687344e-01, 8.689646e-01, 8.696715e-01, 8.709156e-01, 8.727563e-01, & ! + 8.752531e-01, 8.784659e-01, 8.8245e-01, & ! + 7.800869e-01, 8.091120e-01, 8.325369e-01, 8.466266e-01, 8.515495e-01, & ! 14 + 8.499371e-01, 8.456203e-01, 8.430521e-01, 8.470286e-01, 8.625431e-01, & ! + 8.402261e-01, 8.610822e-01, 8.776608e-01, 8.904485e-01, 8.999294e-01, & ! + 9.065860e-01, 9.108995e-01, 9.133503e-01, 9.144187e-01, 9.145855e-01, & ! + 9.143320e-01, 9.141402e-01, 9.144933e-01, 9.158754e-01, 9.187716e-01, & ! + 9.236677e-01, 9.310503e-01, 9.414058e-01, 9.239108e-01, 9.300719e-01, & ! + 9.353612e-01, 9.398378e-01, 9.435609e-01, 9.465895e-01, 9.489829e-01, & ! + 9.508000e-01, 9.521002e-01, 9.529424e-01, 9.533860e-01, 9.534902e-01, & ! + 9.533143e-01, 9.529177e-01, 9.523596e-01, 9.516997e-01, 9.509973e-01, & ! + 9.503121e-01, 9.497037e-01, 9.492317e-01, 9.489558e-01, 9.489356e-01, & ! + 9.492311e-01, 9.499019e-01, 9.510077e-01, 9.526084e-01, 9.547636e-01, & ! + 9.575331e-01, 9.609766e-01, 9.6515e-01 /), & ! + shape = (/58,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(58,nBandsSW_RRTMG),parameter :: & ! + asyliq2 = reshape(source= (/ & ! + 8.038165e-01, 8.014154e-01, 7.942381e-01, 7.970521e-01, 8.086621e-01, & ! 1 + 8.233392e-01, 8.374127e-01, 8.495742e-01, 8.596945e-01, 8.680497e-01, & ! + 8.750005e-01, 8.808589e-01, 8.858749e-01, 8.902403e-01, 8.940939e-01, & ! + 8.975379e-01, 9.006450e-01, 9.034741e-01, 9.060659e-01, 9.084561e-01, & ! + 9.106675e-01, 9.127198e-01, 9.146332e-01, 9.164194e-01, 9.180970e-01, & ! + 9.196658e-01, 9.211421e-01, 9.225352e-01, 9.238443e-01, 9.250841e-01, & ! + 9.262541e-01, 9.273620e-01, 9.284081e-01, 9.294002e-01, 9.303395e-01, & ! + 9.312285e-01, 9.320715e-01, 9.328716e-01, 9.336271e-01, 9.343427e-01, & ! + 9.350219e-01, 9.356647e-01, 9.362728e-01, 9.368495e-01, 9.373956e-01, & ! + 9.379113e-01, 9.383987e-01, 9.388608e-01, 9.392986e-01, 9.397132e-01, & ! + 9.401063e-01, 9.404776e-01, 9.408299e-01, 9.411641e-01, 9.414800e-01, & ! + 9.417787e-01, 9.420633e-01, 9.423364e-01, & ! + 8.941000e-01, 9.054049e-01, 9.049510e-01, 9.027216e-01, 9.021636e-01, & ! 2 + 9.037878e-01, 9.069852e-01, 9.109817e-01, 9.152013e-01, 9.193040e-01, & ! + 9.231177e-01, 9.265712e-01, 9.296606e-01, 9.324048e-01, 9.348419e-01, & ! + 9.370131e-01, 9.389529e-01, 9.406954e-01, 9.422727e-01, 9.437088e-01, & ! + 9.450221e-01, 9.462308e-01, 9.473488e-01, 9.483830e-01, 9.493492e-01, & ! + 9.502541e-01, 9.510999e-01, 9.518971e-01, 9.526455e-01, 9.533554e-01, & ! + 9.540249e-01, 9.546571e-01, 9.552551e-01, 9.558258e-01, 9.563603e-01, & ! + 9.568713e-01, 9.573569e-01, 9.578141e-01, 9.582485e-01, 9.586604e-01, & ! + 9.590525e-01, 9.594218e-01, 9.597710e-01, 9.601052e-01, 9.604181e-01, & ! + 9.607159e-01, 9.609979e-01, 9.612655e-01, 9.615184e-01, 9.617564e-01, & ! + 9.619860e-01, 9.622009e-01, 9.624031e-01, 9.625957e-01, 9.627792e-01, & ! + 9.629530e-01, 9.631171e-01, 9.632746e-01, & ! + 8.574638e-01, 8.351383e-01, 8.142977e-01, 8.083068e-01, 8.129284e-01, & ! 3 + 8.215827e-01, 8.307238e-01, 8.389963e-01, 8.460481e-01, 8.519273e-01, & ! + 8.568153e-01, 8.609116e-01, 8.643892e-01, 8.673941e-01, 8.700248e-01, & ! + 8.723707e-01, 8.744902e-01, 8.764240e-01, 8.782057e-01, 8.798593e-01, & ! + 8.814063e-01, 8.828573e-01, 8.842261e-01, 8.855196e-01, 8.867497e-01, & ! + 8.879164e-01, 8.890316e-01, 8.900941e-01, 8.911118e-01, 8.920832e-01, & ! + 8.930156e-01, 8.939091e-01, 8.947663e-01, 8.955888e-01, 8.963786e-01, & ! + 8.971350e-01, 8.978617e-01, 8.985590e-01, 8.992243e-01, 8.998631e-01, & ! + 9.004753e-01, 9.010602e-01, 9.016192e-01, 9.021542e-01, 9.026644e-01, & ! + 9.031535e-01, 9.036194e-01, 9.040656e-01, 9.044894e-01, 9.048933e-01, & ! + 9.052789e-01, 9.056481e-01, 9.060004e-01, 9.063343e-01, 9.066544e-01, & ! + 9.069604e-01, 9.072512e-01, 9.075290e-01, & ! + 8.349569e-01, 8.034579e-01, 7.932136e-01, 8.010156e-01, 8.137083e-01, & ! 4 + 8.255339e-01, 8.351938e-01, 8.428286e-01, 8.488944e-01, 8.538187e-01, & ! + 8.579255e-01, 8.614473e-01, 8.645338e-01, 8.672908e-01, 8.697947e-01, & ! + 8.720843e-01, 8.742015e-01, 8.761718e-01, 8.780160e-01, 8.797479e-01, & ! + 8.813810e-01, 8.829250e-01, 8.843907e-01, 8.857822e-01, 8.871059e-01, & ! + 8.883724e-01, 8.895810e-01, 8.907384e-01, 8.918456e-01, 8.929083e-01, & ! + 8.939284e-01, 8.949060e-01, 8.958463e-01, 8.967486e-01, 8.976129e-01, & ! + 8.984463e-01, 8.992439e-01, 9.000094e-01, 9.007438e-01, 9.014496e-01, & ! + 9.021235e-01, 9.027699e-01, 9.033859e-01, 9.039772e-01, 9.045419e-01, & ! + 9.050819e-01, 9.055975e-01, 9.060907e-01, 9.065607e-01, 9.070093e-01, & ! + 9.074389e-01, 9.078475e-01, 9.082388e-01, 9.086117e-01, 9.089678e-01, & ! + 9.093081e-01, 9.096307e-01, 9.099410e-01, & ! + 8.109692e-01, 7.846657e-01, 7.881928e-01, 8.009509e-01, 8.131208e-01, & ! 5 + 8.230400e-01, 8.309448e-01, 8.372920e-01, 8.424837e-01, 8.468166e-01, & ! + 8.504947e-01, 8.536642e-01, 8.564256e-01, 8.588513e-01, 8.610011e-01, & ! + 8.629122e-01, 8.646262e-01, 8.661720e-01, 8.675752e-01, 8.688582e-01, & ! + 8.700379e-01, 8.711300e-01, 8.721485e-01, 8.731027e-01, 8.740010e-01, & ! + 8.748499e-01, 8.756564e-01, 8.764239e-01, 8.771542e-01, 8.778523e-01, & ! + 8.785211e-01, 8.791601e-01, 8.797725e-01, 8.803589e-01, 8.809173e-01, & ! + 8.814552e-01, 8.819705e-01, 8.824611e-01, 8.829311e-01, 8.833791e-01, & ! + 8.838078e-01, 8.842148e-01, 8.846044e-01, 8.849756e-01, 8.853291e-01, & ! + 8.856645e-01, 8.859841e-01, 8.862904e-01, 8.865801e-01, 8.868551e-01, & ! + 8.871182e-01, 8.873673e-01, 8.876059e-01, 8.878307e-01, 8.880462e-01, & ! + 8.882501e-01, 8.884453e-01, 8.886339e-01, & ! + 7.838510e-01, 7.803151e-01, 7.980477e-01, 8.144160e-01, 8.261784e-01, & ! 6 + 8.344240e-01, 8.404278e-01, 8.450391e-01, 8.487593e-01, 8.518741e-01, & ! + 8.545484e-01, 8.568890e-01, 8.589560e-01, 8.607983e-01, 8.624504e-01, & ! + 8.639408e-01, 8.652945e-01, 8.665301e-01, 8.676634e-01, 8.687121e-01, & ! + 8.696855e-01, 8.705933e-01, 8.714448e-01, 8.722454e-01, 8.730014e-01, & ! + 8.737180e-01, 8.743982e-01, 8.750436e-01, 8.756598e-01, 8.762481e-01, & ! + 8.768089e-01, 8.773427e-01, 8.778532e-01, 8.783434e-01, 8.788089e-01, & ! + 8.792530e-01, 8.796784e-01, 8.800845e-01, 8.804716e-01, 8.808411e-01, & ! + 8.811923e-01, 8.815276e-01, 8.818472e-01, 8.821504e-01, 8.824408e-01, & ! + 8.827155e-01, 8.829777e-01, 8.832269e-01, 8.834631e-01, 8.836892e-01, & ! + 8.839034e-01, 8.841075e-01, 8.843021e-01, 8.844866e-01, 8.846631e-01, & ! + 8.848304e-01, 8.849910e-01, 8.851425e-01, & ! + 7.760783e-01, 7.890215e-01, 8.090192e-01, 8.230252e-01, 8.321369e-01, & ! 7 + 8.384258e-01, 8.431529e-01, 8.469558e-01, 8.501499e-01, 8.528899e-01, & ! + 8.552899e-01, 8.573956e-01, 8.592570e-01, 8.609098e-01, 8.623897e-01, & ! + 8.637169e-01, 8.649184e-01, 8.660097e-01, 8.670096e-01, 8.679338e-01, & ! + 8.687896e-01, 8.695880e-01, 8.703365e-01, 8.710422e-01, 8.717092e-01, & ! + 8.723378e-01, 8.729363e-01, 8.735063e-01, 8.740475e-01, 8.745661e-01, & ! + 8.750560e-01, 8.755275e-01, 8.759731e-01, 8.764000e-01, 8.768071e-01, & ! + 8.771942e-01, 8.775628e-01, 8.779126e-01, 8.782483e-01, 8.785626e-01, & ! + 8.788610e-01, 8.791482e-01, 8.794180e-01, 8.796765e-01, 8.799207e-01, & ! + 8.801522e-01, 8.803707e-01, 8.805777e-01, 8.807749e-01, 8.809605e-01, & ! + 8.811362e-01, 8.813047e-01, 8.814647e-01, 8.816131e-01, 8.817588e-01, & ! + 8.818930e-01, 8.820230e-01, 8.821445e-01, & ! + 7.847907e-01, 8.099917e-01, 8.257428e-01, 8.350423e-01, 8.411971e-01, & ! 8 + 8.457241e-01, 8.493010e-01, 8.522565e-01, 8.547660e-01, 8.569311e-01, & ! + 8.588181e-01, 8.604729e-01, 8.619296e-01, 8.632208e-01, 8.643725e-01, & ! + 8.654050e-01, 8.663363e-01, 8.671835e-01, 8.679590e-01, 8.686707e-01, & ! + 8.693308e-01, 8.699433e-01, 8.705147e-01, 8.710490e-01, 8.715497e-01, & ! + 8.720219e-01, 8.724669e-01, 8.728849e-01, 8.732806e-01, 8.736550e-01, & ! + 8.740099e-01, 8.743435e-01, 8.746601e-01, 8.749610e-01, 8.752449e-01, & ! + 8.755143e-01, 8.757688e-01, 8.760095e-01, 8.762375e-01, 8.764532e-01, & ! + 8.766579e-01, 8.768506e-01, 8.770323e-01, 8.772049e-01, 8.773690e-01, & ! + 8.775226e-01, 8.776679e-01, 8.778062e-01, 8.779360e-01, 8.780587e-01, & ! + 8.781747e-01, 8.782852e-01, 8.783892e-01, 8.784891e-01, 8.785824e-01, & ! + 8.786705e-01, 8.787546e-01, 8.788336e-01, & ! + 8.054324e-01, 8.266282e-01, 8.378075e-01, 8.449848e-01, 8.502166e-01, & ! 9 + 8.542268e-01, 8.573477e-01, 8.598022e-01, 8.617689e-01, 8.633859e-01, & ! + 8.647536e-01, 8.659354e-01, 8.669807e-01, 8.679143e-01, 8.687577e-01, & ! + 8.695222e-01, 8.702207e-01, 8.708591e-01, 8.714446e-01, 8.719836e-01, & ! + 8.724812e-01, 8.729426e-01, 8.733689e-01, 8.737665e-01, 8.741373e-01, & ! + 8.744834e-01, 8.748070e-01, 8.751131e-01, 8.754011e-01, 8.756676e-01, & ! + 8.759219e-01, 8.761599e-01, 8.763857e-01, 8.765984e-01, 8.767999e-01, & ! + 8.769889e-01, 8.771669e-01, 8.773373e-01, 8.774969e-01, 8.776469e-01, & ! + 8.777894e-01, 8.779237e-01, 8.780505e-01, 8.781703e-01, 8.782820e-01, & ! + 8.783886e-01, 8.784894e-01, 8.785844e-01, 8.786736e-01, 8.787584e-01, & ! + 8.788379e-01, 8.789130e-01, 8.789849e-01, 8.790506e-01, 8.791141e-01, & ! + 8.791750e-01, 8.792324e-01, 8.792867e-01, & ! + 8.249534e-01, 8.391988e-01, 8.474107e-01, 8.526860e-01, 8.563983e-01, & ! 10 + 8.592389e-01, 8.615144e-01, 8.633790e-01, 8.649325e-01, 8.662504e-01, & ! + 8.673841e-01, 8.683741e-01, 8.692495e-01, 8.700309e-01, 8.707328e-01, & ! + 8.713650e-01, 8.719432e-01, 8.724676e-01, 8.729498e-01, 8.733922e-01, & ! + 8.737981e-01, 8.741745e-01, 8.745225e-01, 8.748467e-01, 8.751512e-01, & ! + 8.754315e-01, 8.756962e-01, 8.759450e-01, 8.761774e-01, 8.763945e-01, & ! + 8.766021e-01, 8.767970e-01, 8.769803e-01, 8.771511e-01, 8.773151e-01, & ! + 8.774689e-01, 8.776147e-01, 8.777533e-01, 8.778831e-01, 8.780050e-01, & ! + 8.781197e-01, 8.782301e-01, 8.783323e-01, 8.784312e-01, 8.785222e-01, & ! + 8.786096e-01, 8.786916e-01, 8.787688e-01, 8.788411e-01, 8.789122e-01, & ! + 8.789762e-01, 8.790373e-01, 8.790954e-01, 8.791514e-01, 8.792018e-01, & ! + 8.792517e-01, 8.792990e-01, 8.793429e-01, & ! + 8.323091e-01, 8.429776e-01, 8.498123e-01, 8.546929e-01, 8.584295e-01, & ! 11 + 8.613489e-01, 8.636324e-01, 8.654303e-01, 8.668675e-01, 8.680404e-01, & ! + 8.690174e-01, 8.698495e-01, 8.705666e-01, 8.711961e-01, 8.717556e-01, & ! + 8.722546e-01, 8.727063e-01, 8.731170e-01, 8.734933e-01, 8.738382e-01, & ! + 8.741590e-01, 8.744525e-01, 8.747295e-01, 8.749843e-01, 8.752210e-01, & ! + 8.754437e-01, 8.756524e-01, 8.758472e-01, 8.760288e-01, 8.762030e-01, & ! + 8.763603e-01, 8.765122e-01, 8.766539e-01, 8.767894e-01, 8.769130e-01, & ! + 8.770310e-01, 8.771422e-01, 8.772437e-01, 8.773419e-01, 8.774355e-01, & ! + 8.775221e-01, 8.776047e-01, 8.776802e-01, 8.777539e-01, 8.778216e-01, & ! + 8.778859e-01, 8.779473e-01, 8.780031e-01, 8.780562e-01, 8.781097e-01, & ! + 8.781570e-01, 8.782021e-01, 8.782463e-01, 8.782845e-01, 8.783235e-01, & ! + 8.783610e-01, 8.783953e-01, 8.784273e-01, & ! + 8.396448e-01, 8.480172e-01, 8.535934e-01, 8.574145e-01, 8.600835e-01, & ! 12 + 8.620347e-01, 8.635500e-01, 8.648003e-01, 8.658758e-01, 8.668248e-01, & ! + 8.676697e-01, 8.684220e-01, 8.690893e-01, 8.696807e-01, 8.702046e-01, & ! + 8.706676e-01, 8.710798e-01, 8.714478e-01, 8.717778e-01, 8.720747e-01, & ! + 8.723431e-01, 8.725889e-01, 8.728144e-01, 8.730201e-01, 8.732129e-01, & ! + 8.733907e-01, 8.735541e-01, 8.737100e-01, 8.738533e-01, 8.739882e-01, & ! + 8.741164e-01, 8.742362e-01, 8.743485e-01, 8.744530e-01, 8.745512e-01, & ! + 8.746471e-01, 8.747373e-01, 8.748186e-01, 8.748973e-01, 8.749732e-01, & ! + 8.750443e-01, 8.751105e-01, 8.751747e-01, 8.752344e-01, 8.752902e-01, & ! + 8.753412e-01, 8.753917e-01, 8.754393e-01, 8.754843e-01, 8.755282e-01, & ! + 8.755662e-01, 8.756039e-01, 8.756408e-01, 8.756722e-01, 8.757072e-01, & ! + 8.757352e-01, 8.757653e-01, 8.757932e-01, & ! + 8.374590e-01, 8.465669e-01, 8.518701e-01, 8.547627e-01, 8.565745e-01, & ! 13 + 8.579065e-01, 8.589717e-01, 8.598632e-01, 8.606363e-01, 8.613268e-01, & ! + 8.619560e-01, 8.625340e-01, 8.630689e-01, 8.635601e-01, 8.640084e-01, & ! + 8.644180e-01, 8.647885e-01, 8.651220e-01, 8.654218e-01, 8.656908e-01, & ! + 8.659294e-01, 8.661422e-01, 8.663334e-01, 8.665037e-01, 8.666543e-01, & ! + 8.667913e-01, 8.669156e-01, 8.670242e-01, 8.671249e-01, 8.672161e-01, & ! + 8.672993e-01, 8.673733e-01, 8.674457e-01, 8.675103e-01, 8.675713e-01, & ! + 8.676267e-01, 8.676798e-01, 8.677286e-01, 8.677745e-01, 8.678178e-01, & ! + 8.678601e-01, 8.678986e-01, 8.679351e-01, 8.679693e-01, 8.680013e-01, & ! + 8.680334e-01, 8.680624e-01, 8.680915e-01, 8.681178e-01, 8.681428e-01, & ! + 8.681654e-01, 8.681899e-01, 8.682103e-01, 8.682317e-01, 8.682498e-01, & ! + 8.682677e-01, 8.682861e-01, 8.683041e-01, & ! + 7.877069e-01, 8.244281e-01, 8.367971e-01, 8.409074e-01, 8.429859e-01, & ! 14 + 8.454386e-01, 8.489350e-01, 8.534141e-01, 8.585814e-01, 8.641267e-01, & ! + 8.697999e-01, 8.754223e-01, 8.808785e-01, 8.860944e-01, 8.910354e-01, & ! + 8.956837e-01, 9.000392e-01, 9.041091e-01, 9.079071e-01, 9.114479e-01, & ! + 9.147462e-01, 9.178234e-01, 9.206903e-01, 9.233663e-01, 9.258668e-01, & ! + 9.282006e-01, 9.303847e-01, 9.324288e-01, 9.343418e-01, 9.361356e-01, & ! + 9.378176e-01, 9.393939e-01, 9.408736e-01, 9.422622e-01, 9.435670e-01, & ! + 9.447900e-01, 9.459395e-01, 9.470199e-01, 9.480335e-01, 9.489852e-01, & ! + 9.498782e-01, 9.507168e-01, 9.515044e-01, 9.522470e-01, 9.529409e-01, & ! + 9.535946e-01, 9.542071e-01, 9.547838e-01, 9.553256e-01, 9.558351e-01, & ! + 9.563139e-01, 9.567660e-01, 9.571915e-01, 9.575901e-01, 9.579685e-01, & ! + 9.583239e-01, 9.586602e-01, 9.589766e-01/), & ! + shape = (/58,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(43,nBandsSW_RRTMG),parameter :: & ! + extice2 = reshape(source= (/ & ! + 4.101824e-01, 2.435514e-01, 1.713697e-01, 1.314865e-01, 1.063406e-01, & ! 1 + 8.910701e-02, 7.659480e-02, 6.711784e-02, 5.970353e-02, 5.375249e-02, & ! + 4.887577e-02, 4.481025e-02, 4.137171e-02, 3.842744e-02, 3.587948e-02, & ! + 3.365396e-02, 3.169419e-02, 2.995593e-02, 2.840419e-02, 2.701091e-02, & ! + 2.575336e-02, 2.461293e-02, 2.357423e-02, 2.262443e-02, 2.175276e-02, & ! + 2.095012e-02, 2.020875e-02, 1.952199e-02, 1.888412e-02, 1.829018e-02, & ! + 1.773586e-02, 1.721738e-02, 1.673144e-02, 1.627510e-02, 1.584579e-02, & ! + 1.544122e-02, 1.505934e-02, 1.469833e-02, 1.435654e-02, 1.403251e-02, & ! + 1.372492e-02, 1.343255e-02, 1.315433e-02, & ! + 3.836650e-01, 2.304055e-01, 1.637265e-01, 1.266681e-01, 1.031602e-01, & ! 2 + 8.695191e-02, 7.511544e-02, 6.610009e-02, 5.900909e-02, 5.328833e-02, & ! + 4.857728e-02, 4.463133e-02, 4.127880e-02, 3.839567e-02, 3.589013e-02, & ! + 3.369280e-02, 3.175027e-02, 3.002079e-02, 2.847121e-02, 2.707493e-02, & ! + 2.581031e-02, 2.465962e-02, 2.360815e-02, 2.264363e-02, 2.175571e-02, & ! + 2.093563e-02, 2.017592e-02, 1.947015e-02, 1.881278e-02, 1.819901e-02, & ! + 1.762463e-02, 1.708598e-02, 1.657982e-02, 1.610330e-02, 1.565390e-02, & ! + 1.522937e-02, 1.482768e-02, 1.444706e-02, 1.408588e-02, 1.374270e-02, & ! + 1.341619e-02, 1.310517e-02, 1.280857e-02, & ! + 4.152673e-01, 2.436816e-01, 1.702243e-01, 1.299704e-01, 1.047528e-01, & ! 3 + 8.756039e-02, 7.513327e-02, 6.575690e-02, 5.844616e-02, 5.259609e-02, & ! + 4.781531e-02, 4.383980e-02, 4.048517e-02, 3.761891e-02, 3.514342e-02, & ! + 3.298525e-02, 3.108814e-02, 2.940825e-02, 2.791096e-02, 2.656858e-02, & ! + 2.535869e-02, 2.426297e-02, 2.326627e-02, 2.235602e-02, 2.152164e-02, & ! + 2.075420e-02, 2.004613e-02, 1.939091e-02, 1.878296e-02, 1.821744e-02, & ! + 1.769015e-02, 1.719741e-02, 1.673600e-02, 1.630308e-02, 1.589615e-02, & ! + 1.551298e-02, 1.515159e-02, 1.481021e-02, 1.448726e-02, 1.418131e-02, & ! + 1.389109e-02, 1.361544e-02, 1.335330e-02, & ! + 3.873250e-01, 2.331609e-01, 1.655002e-01, 1.277753e-01, 1.038247e-01, & ! 4 + 8.731780e-02, 7.527638e-02, 6.611873e-02, 5.892850e-02, 5.313885e-02, & ! + 4.838068e-02, 4.440356e-02, 4.103167e-02, 3.813804e-02, 3.562870e-02, & ! + 3.343269e-02, 3.149539e-02, 2.977414e-02, 2.823510e-02, 2.685112e-02, & ! + 2.560015e-02, 2.446411e-02, 2.342805e-02, 2.247948e-02, 2.160789e-02, & ! + 2.080438e-02, 2.006139e-02, 1.937238e-02, 1.873177e-02, 1.813469e-02, & ! + 1.757689e-02, 1.705468e-02, 1.656479e-02, 1.610435e-02, 1.567081e-02, & ! + 1.526192e-02, 1.487565e-02, 1.451020e-02, 1.416396e-02, 1.383546e-02, & ! + 1.352339e-02, 1.322657e-02, 1.294392e-02, & ! + 3.784280e-01, 2.291396e-01, 1.632551e-01, 1.263775e-01, 1.028944e-01, & ! 5 + 8.666975e-02, 7.480952e-02, 6.577335e-02, 5.866714e-02, 5.293694e-02, & ! + 4.822153e-02, 4.427547e-02, 4.092626e-02, 3.804918e-02, 3.555184e-02, & ! + 3.336440e-02, 3.143307e-02, 2.971577e-02, 2.817912e-02, 2.679632e-02, & ! + 2.554558e-02, 2.440903e-02, 2.337187e-02, 2.242173e-02, 2.154821e-02, & ! + 2.074249e-02, 1.999706e-02, 1.930546e-02, 1.866212e-02, 1.806221e-02, & ! + 1.750152e-02, 1.697637e-02, 1.648352e-02, 1.602010e-02, 1.558358e-02, & ! + 1.517172e-02, 1.478250e-02, 1.441413e-02, 1.406498e-02, 1.373362e-02, & ! + 1.341872e-02, 1.311911e-02, 1.283371e-02, & ! + 3.719909e-01, 2.259490e-01, 1.613144e-01, 1.250648e-01, 1.019462e-01, & ! 6 + 8.595358e-02, 7.425064e-02, 6.532618e-02, 5.830218e-02, 5.263421e-02, & ! + 4.796697e-02, 4.405891e-02, 4.074013e-02, 3.788776e-02, 3.541071e-02, & ! + 3.324008e-02, 3.132280e-02, 2.961733e-02, 2.809071e-02, 2.671645e-02, & ! + 2.547302e-02, 2.434276e-02, 2.331102e-02, 2.236558e-02, 2.149614e-02, & ! + 2.069397e-02, 1.995163e-02, 1.926272e-02, 1.862174e-02, 1.802389e-02, & ! + 1.746500e-02, 1.694142e-02, 1.644994e-02, 1.598772e-02, 1.555225e-02, & ! + 1.514129e-02, 1.475286e-02, 1.438515e-02, 1.403659e-02, 1.370572e-02, & ! + 1.339124e-02, 1.309197e-02, 1.280685e-02, & ! + 3.713158e-01, 2.253816e-01, 1.608461e-01, 1.246718e-01, 1.016109e-01, & ! 7 + 8.566332e-02, 7.399666e-02, 6.510199e-02, 5.810290e-02, 5.245608e-02, & ! + 4.780702e-02, 4.391478e-02, 4.060989e-02, 3.776982e-02, 3.530374e-02, & ! + 3.314296e-02, 3.123458e-02, 2.953719e-02, 2.801794e-02, 2.665043e-02, & ! + 2.541321e-02, 2.428868e-02, 2.326224e-02, 2.232173e-02, 2.145688e-02, & ! + 2.065899e-02, 1.992067e-02, 1.923552e-02, 1.859808e-02, 1.800356e-02, & ! + 1.744782e-02, 1.692721e-02, 1.643855e-02, 1.597900e-02, 1.554606e-02, & ! + 1.513751e-02, 1.475137e-02, 1.438586e-02, 1.403938e-02, 1.371050e-02, & ! + 1.339793e-02, 1.310050e-02, 1.281713e-02, & ! + 3.605883e-01, 2.204388e-01, 1.580431e-01, 1.229033e-01, 1.004203e-01, & ! 8 + 8.482616e-02, 7.338941e-02, 6.465105e-02, 5.776176e-02, 5.219398e-02, & ! + 4.760288e-02, 4.375369e-02, 4.048111e-02, 3.766539e-02, 3.521771e-02, & ! + 3.307079e-02, 3.117277e-02, 2.948303e-02, 2.796929e-02, 2.660560e-02, & ! + 2.537086e-02, 2.424772e-02, 2.322182e-02, 2.228114e-02, 2.141556e-02, & ! + 2.061649e-02, 1.987661e-02, 1.918962e-02, 1.855009e-02, 1.795330e-02, & ! + 1.739514e-02, 1.687199e-02, 1.638069e-02, 1.591845e-02, 1.548276e-02, & ! + 1.507143e-02, 1.468249e-02, 1.431416e-02, 1.396486e-02, 1.363318e-02, & ! + 1.331781e-02, 1.301759e-02, 1.273147e-02, & ! + 3.527890e-01, 2.168469e-01, 1.560090e-01, 1.216216e-01, 9.955787e-02, & ! 9 + 8.421942e-02, 7.294827e-02, 6.432192e-02, 5.751081e-02, 5.199888e-02, & ! + 4.744835e-02, 4.362899e-02, 4.037847e-02, 3.757910e-02, 3.514351e-02, & ! + 3.300546e-02, 3.111382e-02, 2.942853e-02, 2.791775e-02, 2.655584e-02, & ! + 2.532195e-02, 2.419892e-02, 2.317255e-02, 2.223092e-02, 2.136402e-02, & ! + 2.056334e-02, 1.982160e-02, 1.913258e-02, 1.849087e-02, 1.789178e-02, & ! + 1.733124e-02, 1.680565e-02, 1.631187e-02, 1.584711e-02, 1.540889e-02, & ! + 1.499502e-02, 1.460354e-02, 1.423269e-02, 1.388088e-02, 1.354670e-02, & ! + 1.322887e-02, 1.292620e-02, 1.263767e-02, & ! + 3.477874e-01, 2.143515e-01, 1.544887e-01, 1.205942e-01, 9.881779e-02, & ! 10 + 8.366261e-02, 7.251586e-02, 6.397790e-02, 5.723183e-02, 5.176908e-02, & ! + 4.725658e-02, 4.346715e-02, 4.024055e-02, 3.746055e-02, 3.504080e-02, & ! + 3.291583e-02, 3.103507e-02, 2.935891e-02, 2.785582e-02, 2.650042e-02, & ! + 2.527206e-02, 2.415376e-02, 2.313142e-02, 2.219326e-02, 2.132934e-02, & ! + 2.053122e-02, 1.979169e-02, 1.910456e-02, 1.846448e-02, 1.786680e-02, & ! + 1.730745e-02, 1.678289e-02, 1.628998e-02, 1.582595e-02, 1.538835e-02, & ! + 1.497499e-02, 1.458393e-02, 1.421341e-02, 1.386187e-02, 1.352788e-02, & ! + 1.321019e-02, 1.290762e-02, 1.261913e-02, & ! + 3.453721e-01, 2.130744e-01, 1.536698e-01, 1.200140e-01, 9.838078e-02, & ! 11 + 8.331940e-02, 7.223803e-02, 6.374775e-02, 5.703770e-02, 5.160290e-02, & ! + 4.711259e-02, 4.334110e-02, 4.012923e-02, 3.736150e-02, 3.495208e-02, & ! + 3.283589e-02, 3.096267e-02, 2.929302e-02, 2.779560e-02, 2.644517e-02, & ! + 2.522119e-02, 2.410677e-02, 2.308788e-02, 2.215281e-02, 2.129165e-02, & ! + 2.049602e-02, 1.975874e-02, 1.907365e-02, 1.843542e-02, 1.783943e-02, & ! + 1.728162e-02, 1.675847e-02, 1.626685e-02, 1.580401e-02, 1.536750e-02, & ! + 1.495515e-02, 1.456502e-02, 1.419537e-02, 1.384463e-02, 1.351139e-02, & ! + 1.319438e-02, 1.289246e-02, 1.260456e-02, & ! + 3.417883e-01, 2.113379e-01, 1.526395e-01, 1.193347e-01, 9.790253e-02, & ! 12 + 8.296715e-02, 7.196979e-02, 6.353806e-02, 5.687024e-02, 5.146670e-02, & ! + 4.700001e-02, 4.324667e-02, 4.004894e-02, 3.729233e-02, 3.489172e-02, & ! + 3.278257e-02, 3.091499e-02, 2.924987e-02, 2.775609e-02, 2.640859e-02, & ! + 2.518695e-02, 2.407439e-02, 2.305697e-02, 2.212303e-02, 2.126273e-02, & ! + 2.046774e-02, 1.973090e-02, 1.904610e-02, 1.840801e-02, 1.781204e-02, & ! + 1.725417e-02, 1.673086e-02, 1.623902e-02, 1.577590e-02, 1.533906e-02, & ! + 1.492634e-02, 1.453580e-02, 1.416571e-02, 1.381450e-02, 1.348078e-02, & ! + 1.316327e-02, 1.286082e-02, 1.257240e-02, & ! + 3.416111e-01, 2.114124e-01, 1.527734e-01, 1.194809e-01, 9.804612e-02, & ! 13 + 8.310287e-02, 7.209595e-02, 6.365442e-02, 5.697710e-02, 5.156460e-02, & ! + 4.708957e-02, 4.332850e-02, 4.012361e-02, 3.736037e-02, 3.495364e-02, & ! + 3.283879e-02, 3.096593e-02, 2.929589e-02, 2.779751e-02, 2.644571e-02, & ! + 2.522004e-02, 2.410369e-02, 2.308271e-02, 2.214542e-02, 2.128195e-02, & ! + 2.048396e-02, 1.974429e-02, 1.905679e-02, 1.841614e-02, 1.781774e-02, & ! + 1.725754e-02, 1.673203e-02, 1.623807e-02, 1.577293e-02, 1.533416e-02, & ! + 1.491958e-02, 1.452727e-02, 1.415547e-02, 1.380262e-02, 1.346732e-02, & ! + 1.314830e-02, 1.284439e-02, 1.255456e-02, & ! + 4.196611e-01, 2.493642e-01, 1.761261e-01, 1.357197e-01, 1.102161e-01, & ! 14 + 9.269376e-02, 7.992985e-02, 7.022538e-02, 6.260168e-02, 5.645603e-02, & ! + 5.139732e-02, 4.716088e-02, 4.356133e-02, 4.046498e-02, 3.777303e-02, & ! + 3.541094e-02, 3.332137e-02, 3.145954e-02, 2.978998e-02, 2.828419e-02, & ! + 2.691905e-02, 2.567559e-02, 2.453811e-02, 2.349350e-02, 2.253072e-02, & ! + 2.164042e-02, 2.081464e-02, 2.004652e-02, 1.933015e-02, 1.866041e-02, & ! + 1.803283e-02, 1.744348e-02, 1.688894e-02, 1.636616e-02, 1.587244e-02, & ! + 1.540539e-02, 1.496287e-02, 1.454295e-02, 1.414392e-02, 1.376423e-02, & ! + 1.340247e-02, 1.305739e-02, 1.272784e-02/), & ! + shape = (/43,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(43,nBandsSW_RRTMG),parameter :: & ! + ssaice2 = reshape(source= (/ & ! + 6.630615e-01, 6.451169e-01, 6.333696e-01, 6.246927e-01, 6.178420e-01, & ! 1 + 6.121976e-01, 6.074069e-01, 6.032505e-01, 5.995830e-01, 5.963030e-01, & ! + 5.933372e-01, 5.906311e-01, 5.881427e-01, 5.858395e-01, 5.836955e-01, & ! + 5.816896e-01, 5.798046e-01, 5.780264e-01, 5.763429e-01, 5.747441e-01, & ! + 5.732213e-01, 5.717672e-01, 5.703754e-01, 5.690403e-01, 5.677571e-01, & ! + 5.665215e-01, 5.653297e-01, 5.641782e-01, 5.630643e-01, 5.619850e-01, & ! + 5.609381e-01, 5.599214e-01, 5.589328e-01, 5.579707e-01, 5.570333e-01, & ! + 5.561193e-01, 5.552272e-01, 5.543558e-01, 5.535041e-01, 5.526708e-01, & ! + 5.518551e-01, 5.510561e-01, 5.502729e-01, & ! + 7.689749e-01, 7.398171e-01, 7.205819e-01, 7.065690e-01, 6.956928e-01, & ! 2 + 6.868989e-01, 6.795813e-01, 6.733606e-01, 6.679838e-01, 6.632742e-01, & ! + 6.591036e-01, 6.553766e-01, 6.520197e-01, 6.489757e-01, 6.461991e-01, & ! + 6.436531e-01, 6.413075e-01, 6.391375e-01, 6.371221e-01, 6.352438e-01, & ! + 6.334876e-01, 6.318406e-01, 6.302918e-01, 6.288315e-01, 6.274512e-01, & ! + 6.261436e-01, 6.249022e-01, 6.237211e-01, 6.225953e-01, 6.215201e-01, & ! + 6.204914e-01, 6.195055e-01, 6.185592e-01, 6.176492e-01, 6.167730e-01, & ! + 6.159280e-01, 6.151120e-01, 6.143228e-01, 6.135587e-01, 6.128177e-01, & ! + 6.120984e-01, 6.113993e-01, 6.107189e-01, & ! + 9.956167e-01, 9.814770e-01, 9.716104e-01, 9.639746e-01, 9.577179e-01, & ! 3 + 9.524010e-01, 9.477672e-01, 9.436527e-01, 9.399467e-01, 9.365708e-01, & ! + 9.334672e-01, 9.305921e-01, 9.279118e-01, 9.253993e-01, 9.230330e-01, & ! + 9.207954e-01, 9.186719e-01, 9.166501e-01, 9.147199e-01, 9.128722e-01, & ! + 9.110997e-01, 9.093956e-01, 9.077544e-01, 9.061708e-01, 9.046406e-01, & ! + 9.031598e-01, 9.017248e-01, 9.003326e-01, 8.989804e-01, 8.976655e-01, & ! + 8.963857e-01, 8.951389e-01, 8.939233e-01, 8.927370e-01, 8.915785e-01, & ! + 8.904464e-01, 8.893392e-01, 8.882559e-01, 8.871951e-01, 8.861559e-01, & ! + 8.851373e-01, 8.841383e-01, 8.831581e-01, & ! + 9.723177e-01, 9.452119e-01, 9.267592e-01, 9.127393e-01, 9.014238e-01, & ! 4 + 8.919334e-01, 8.837584e-01, 8.765773e-01, 8.701736e-01, 8.643950e-01, & ! + 8.591299e-01, 8.542942e-01, 8.498230e-01, 8.456651e-01, 8.417794e-01, & ! + 8.381324e-01, 8.346964e-01, 8.314484e-01, 8.283687e-01, 8.254408e-01, & ! + 8.226505e-01, 8.199854e-01, 8.174348e-01, 8.149891e-01, 8.126403e-01, & ! + 8.103808e-01, 8.082041e-01, 8.061044e-01, 8.040765e-01, 8.021156e-01, & ! + 8.002174e-01, 7.983781e-01, 7.965941e-01, 7.948622e-01, 7.931795e-01, & ! + 7.915432e-01, 7.899508e-01, 7.884002e-01, 7.868891e-01, 7.854156e-01, & ! + 7.839779e-01, 7.825742e-01, 7.812031e-01, & ! + 9.933294e-01, 9.860917e-01, 9.811564e-01, 9.774008e-01, 9.743652e-01, & ! 5 + 9.718155e-01, 9.696159e-01, 9.676810e-01, 9.659531e-01, 9.643915e-01, & ! + 9.629667e-01, 9.616561e-01, 9.604426e-01, 9.593125e-01, 9.582548e-01, & ! + 9.572607e-01, 9.563227e-01, 9.554347e-01, 9.545915e-01, 9.537888e-01, & ! + 9.530226e-01, 9.522898e-01, 9.515874e-01, 9.509130e-01, 9.502643e-01, & ! + 9.496394e-01, 9.490366e-01, 9.484542e-01, 9.478910e-01, 9.473456e-01, & ! + 9.468169e-01, 9.463039e-01, 9.458056e-01, 9.453212e-01, 9.448499e-01, & ! + 9.443910e-01, 9.439438e-01, 9.435077e-01, 9.430821e-01, 9.426666e-01, & ! + 9.422607e-01, 9.418638e-01, 9.414756e-01, & ! + 9.900787e-01, 9.828880e-01, 9.779258e-01, 9.741173e-01, 9.710184e-01, & ! 6 + 9.684012e-01, 9.661332e-01, 9.641301e-01, 9.623352e-01, 9.607083e-01, & ! + 9.592198e-01, 9.578474e-01, 9.565739e-01, 9.553856e-01, 9.542715e-01, & ! + 9.532226e-01, 9.522314e-01, 9.512919e-01, 9.503986e-01, 9.495472e-01, & ! + 9.487337e-01, 9.479549e-01, 9.472077e-01, 9.464897e-01, 9.457985e-01, & ! + 9.451322e-01, 9.444890e-01, 9.438673e-01, 9.432656e-01, 9.426826e-01, & ! + 9.421173e-01, 9.415684e-01, 9.410351e-01, 9.405164e-01, 9.400115e-01, & ! + 9.395198e-01, 9.390404e-01, 9.385728e-01, 9.381164e-01, 9.376707e-01, & ! + 9.372350e-01, 9.368091e-01, 9.363923e-01, & ! + 9.986793e-01, 9.985239e-01, 9.983911e-01, 9.982715e-01, 9.981606e-01, & ! 7 + 9.980562e-01, 9.979567e-01, 9.978613e-01, 9.977691e-01, 9.976798e-01, & ! + 9.975929e-01, 9.975081e-01, 9.974251e-01, 9.973438e-01, 9.972640e-01, & ! + 9.971855e-01, 9.971083e-01, 9.970322e-01, 9.969571e-01, 9.968830e-01, & ! + 9.968099e-01, 9.967375e-01, 9.966660e-01, 9.965951e-01, 9.965250e-01, & ! + 9.964555e-01, 9.963867e-01, 9.963185e-01, 9.962508e-01, 9.961836e-01, & ! + 9.961170e-01, 9.960508e-01, 9.959851e-01, 9.959198e-01, 9.958550e-01, & ! + 9.957906e-01, 9.957266e-01, 9.956629e-01, 9.955997e-01, 9.955367e-01, & ! + 9.954742e-01, 9.954119e-01, 9.953500e-01, & ! + 9.997944e-01, 9.997791e-01, 9.997664e-01, 9.997547e-01, 9.997436e-01, & ! 8 + 9.997327e-01, 9.997219e-01, 9.997110e-01, 9.996999e-01, 9.996886e-01, & ! + 9.996771e-01, 9.996653e-01, 9.996533e-01, 9.996409e-01, 9.996282e-01, & ! + 9.996152e-01, 9.996019e-01, 9.995883e-01, 9.995743e-01, 9.995599e-01, & ! + 9.995453e-01, 9.995302e-01, 9.995149e-01, 9.994992e-01, 9.994831e-01, & ! + 9.994667e-01, 9.994500e-01, 9.994329e-01, 9.994154e-01, 9.993976e-01, & ! + 9.993795e-01, 9.993610e-01, 9.993422e-01, 9.993230e-01, 9.993035e-01, & ! + 9.992837e-01, 9.992635e-01, 9.992429e-01, 9.992221e-01, 9.992008e-01, & ! + 9.991793e-01, 9.991574e-01, 9.991352e-01, & ! + 9.999949e-01, 9.999947e-01, 9.999943e-01, 9.999939e-01, 9.999934e-01, & ! 9 + 9.999927e-01, 9.999920e-01, 9.999913e-01, 9.999904e-01, 9.999895e-01, & ! + 9.999885e-01, 9.999874e-01, 9.999863e-01, 9.999851e-01, 9.999838e-01, & ! + 9.999824e-01, 9.999810e-01, 9.999795e-01, 9.999780e-01, 9.999764e-01, & ! + 9.999747e-01, 9.999729e-01, 9.999711e-01, 9.999692e-01, 9.999673e-01, & ! + 9.999653e-01, 9.999632e-01, 9.999611e-01, 9.999589e-01, 9.999566e-01, & ! + 9.999543e-01, 9.999519e-01, 9.999495e-01, 9.999470e-01, 9.999444e-01, & ! + 9.999418e-01, 9.999392e-01, 9.999364e-01, 9.999336e-01, 9.999308e-01, & ! + 9.999279e-01, 9.999249e-01, 9.999219e-01, & ! + 9.999997e-01, 9.999997e-01, 9.999997e-01, 9.999996e-01, 9.999996e-01, & ! 10 + 9.999995e-01, 9.999994e-01, 9.999993e-01, 9.999993e-01, 9.999992e-01, & ! + 9.999991e-01, 9.999989e-01, 9.999988e-01, 9.999987e-01, 9.999986e-01, & ! + 9.999984e-01, 9.999983e-01, 9.999981e-01, 9.999980e-01, 9.999978e-01, & ! + 9.999976e-01, 9.999974e-01, 9.999972e-01, 9.999971e-01, 9.999969e-01, & ! + 9.999966e-01, 9.999964e-01, 9.999962e-01, 9.999960e-01, 9.999957e-01, & ! + 9.999955e-01, 9.999953e-01, 9.999950e-01, 9.999947e-01, 9.999945e-01, & ! + 9.999942e-01, 9.999939e-01, 9.999936e-01, 9.999934e-01, 9.999931e-01, & ! + 9.999928e-01, 9.999925e-01, 9.999921e-01, & ! + 9.999997e-01, 9.999996e-01, 9.999996e-01, 9.999995e-01, 9.999994e-01, & ! 11 + 9.999993e-01, 9.999992e-01, 9.999991e-01, 9.999990e-01, 9.999989e-01, & ! + 9.999987e-01, 9.999986e-01, 9.999984e-01, 9.999982e-01, 9.999980e-01, & ! + 9.999978e-01, 9.999976e-01, 9.999974e-01, 9.999972e-01, 9.999970e-01, & ! + 9.999967e-01, 9.999965e-01, 9.999962e-01, 9.999959e-01, 9.999956e-01, & ! + 9.999954e-01, 9.999951e-01, 9.999947e-01, 9.999944e-01, 9.999941e-01, & ! + 9.999938e-01, 9.999934e-01, 9.999931e-01, 9.999927e-01, 9.999923e-01, & ! + 9.999920e-01, 9.999916e-01, 9.999912e-01, 9.999908e-01, 9.999904e-01, & ! + 9.999899e-01, 9.999895e-01, 9.999891e-01, & ! + 9.999987e-01, 9.999987e-01, 9.999985e-01, 9.999984e-01, 9.999982e-01, & ! 12 + 9.999980e-01, 9.999978e-01, 9.999976e-01, 9.999973e-01, 9.999970e-01, & ! + 9.999967e-01, 9.999964e-01, 9.999960e-01, 9.999956e-01, 9.999952e-01, & ! + 9.999948e-01, 9.999944e-01, 9.999939e-01, 9.999934e-01, 9.999929e-01, & ! + 9.999924e-01, 9.999918e-01, 9.999913e-01, 9.999907e-01, 9.999901e-01, & ! + 9.999894e-01, 9.999888e-01, 9.999881e-01, 9.999874e-01, 9.999867e-01, & ! + 9.999860e-01, 9.999853e-01, 9.999845e-01, 9.999837e-01, 9.999829e-01, & ! + 9.999821e-01, 9.999813e-01, 9.999804e-01, 9.999796e-01, 9.999787e-01, & ! + 9.999778e-01, 9.999768e-01, 9.999759e-01, & ! + 9.999989e-01, 9.999989e-01, 9.999987e-01, 9.999986e-01, 9.999984e-01, & ! 13 + 9.999982e-01, 9.999980e-01, 9.999978e-01, 9.999975e-01, 9.999972e-01, & ! + 9.999969e-01, 9.999966e-01, 9.999962e-01, 9.999958e-01, 9.999954e-01, & ! + 9.999950e-01, 9.999945e-01, 9.999941e-01, 9.999936e-01, 9.999931e-01, & ! + 9.999925e-01, 9.999920e-01, 9.999914e-01, 9.999908e-01, 9.999902e-01, & ! + 9.999896e-01, 9.999889e-01, 9.999883e-01, 9.999876e-01, 9.999869e-01, & ! + 9.999861e-01, 9.999854e-01, 9.999846e-01, 9.999838e-01, 9.999830e-01, & ! + 9.999822e-01, 9.999814e-01, 9.999805e-01, 9.999796e-01, 9.999787e-01, & ! + 9.999778e-01, 9.999769e-01, 9.999759e-01, & ! + 7.042143e-01, 6.691161e-01, 6.463240e-01, 6.296590e-01, 6.166381e-01, & ! 14 + 6.060183e-01, 5.970908e-01, 5.894144e-01, 5.826968e-01, 5.767343e-01, & ! + 5.713804e-01, 5.665256e-01, 5.620867e-01, 5.579987e-01, 5.542101e-01, & ! + 5.506794e-01, 5.473727e-01, 5.442620e-01, 5.413239e-01, 5.385389e-01, & ! + 5.358901e-01, 5.333633e-01, 5.309460e-01, 5.286277e-01, 5.263988e-01, & ! + 5.242512e-01, 5.221777e-01, 5.201719e-01, 5.182280e-01, 5.163410e-01, & ! + 5.145062e-01, 5.127197e-01, 5.109776e-01, 5.092766e-01, 5.076137e-01, & ! + 5.059860e-01, 5.043911e-01, 5.028266e-01, 5.012904e-01, 4.997805e-01, & ! + 4.982951e-01, 4.968326e-01, 4.953913e-01/), & ! + shape = (/43,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(43,nBandsSW_RRTMG),parameter :: & ! + asyice2 = reshape(source= (/ & ! + 7.946655e-01, 8.547685e-01, 8.806016e-01, 8.949880e-01, 9.041676e-01, & ! 1 + 9.105399e-01, 9.152249e-01, 9.188160e-01, 9.216573e-01, 9.239620e-01, & ! + 9.258695e-01, 9.274745e-01, 9.288441e-01, 9.300267e-01, 9.310584e-01, & ! + 9.319665e-01, 9.327721e-01, 9.334918e-01, 9.341387e-01, 9.347236e-01, & ! + 9.352551e-01, 9.357402e-01, 9.361850e-01, 9.365942e-01, 9.369722e-01, & ! + 9.373225e-01, 9.376481e-01, 9.379516e-01, 9.382352e-01, 9.385010e-01, & ! + 9.387505e-01, 9.389854e-01, 9.392070e-01, 9.394163e-01, 9.396145e-01, & ! + 9.398024e-01, 9.399809e-01, 9.401508e-01, 9.403126e-01, 9.404670e-01, & ! + 9.406144e-01, 9.407555e-01, 9.408906e-01, & ! + 9.078091e-01, 9.195850e-01, 9.267250e-01, 9.317083e-01, 9.354632e-01, & ! 2 + 9.384323e-01, 9.408597e-01, 9.428935e-01, 9.446301e-01, 9.461351e-01, & ! + 9.474555e-01, 9.486259e-01, 9.496722e-01, 9.506146e-01, 9.514688e-01, & ! + 9.522476e-01, 9.529612e-01, 9.536181e-01, 9.542251e-01, 9.547883e-01, & ! + 9.553124e-01, 9.558019e-01, 9.562601e-01, 9.566904e-01, 9.570953e-01, & ! + 9.574773e-01, 9.578385e-01, 9.581806e-01, 9.585054e-01, 9.588142e-01, & ! + 9.591083e-01, 9.593888e-01, 9.596569e-01, 9.599135e-01, 9.601593e-01, & ! + 9.603952e-01, 9.606219e-01, 9.608399e-01, 9.610499e-01, 9.612523e-01, & ! + 9.614477e-01, 9.616365e-01, 9.618192e-01, & ! + 8.322045e-01, 8.528693e-01, 8.648167e-01, 8.729163e-01, 8.789054e-01, & ! 3 + 8.835845e-01, 8.873819e-01, 8.905511e-01, 8.932532e-01, 8.955965e-01, & ! + 8.976567e-01, 8.994887e-01, 9.011334e-01, 9.026221e-01, 9.039791e-01, & ! + 9.052237e-01, 9.063715e-01, 9.074349e-01, 9.084245e-01, 9.093489e-01, & ! + 9.102154e-01, 9.110303e-01, 9.117987e-01, 9.125253e-01, 9.132140e-01, & ! + 9.138682e-01, 9.144910e-01, 9.150850e-01, 9.156524e-01, 9.161955e-01, & ! + 9.167160e-01, 9.172157e-01, 9.176959e-01, 9.181581e-01, 9.186034e-01, & ! + 9.190330e-01, 9.194478e-01, 9.198488e-01, 9.202368e-01, 9.206126e-01, & ! + 9.209768e-01, 9.213301e-01, 9.216731e-01, & ! + 8.116560e-01, 8.488278e-01, 8.674331e-01, 8.788148e-01, 8.865810e-01, & ! 4 + 8.922595e-01, 8.966149e-01, 9.000747e-01, 9.028980e-01, 9.052513e-01, & ! + 9.072468e-01, 9.089632e-01, 9.104574e-01, 9.117713e-01, 9.129371e-01, & ! + 9.139793e-01, 9.149174e-01, 9.157668e-01, 9.165400e-01, 9.172473e-01, & ! + 9.178970e-01, 9.184962e-01, 9.190508e-01, 9.195658e-01, 9.200455e-01, & ! + 9.204935e-01, 9.209130e-01, 9.213067e-01, 9.216771e-01, 9.220262e-01, & ! + 9.223560e-01, 9.226680e-01, 9.229636e-01, 9.232443e-01, 9.235112e-01, & ! + 9.237652e-01, 9.240074e-01, 9.242385e-01, 9.244594e-01, 9.246708e-01, & ! + 9.248733e-01, 9.250674e-01, 9.252536e-01, & ! + 8.047113e-01, 8.402864e-01, 8.570332e-01, 8.668455e-01, 8.733206e-01, & ! 5 + 8.779272e-01, 8.813796e-01, 8.840676e-01, 8.862225e-01, 8.879904e-01, & ! + 8.894682e-01, 8.907228e-01, 8.918019e-01, 8.927404e-01, 8.935645e-01, & ! + 8.942943e-01, 8.949452e-01, 8.955296e-01, 8.960574e-01, 8.965366e-01, & ! + 8.969736e-01, 8.973740e-01, 8.977422e-01, 8.980820e-01, 8.983966e-01, & ! + 8.986889e-01, 8.989611e-01, 8.992153e-01, 8.994533e-01, 8.996766e-01, & ! + 8.998865e-01, 9.000843e-01, 9.002709e-01, 9.004474e-01, 9.006146e-01, & ! + 9.007731e-01, 9.009237e-01, 9.010670e-01, 9.012034e-01, 9.013336e-01, & ! + 9.014579e-01, 9.015767e-01, 9.016904e-01, & ! + 8.179122e-01, 8.480726e-01, 8.621945e-01, 8.704354e-01, 8.758555e-01, & ! 6 + 8.797007e-01, 8.825750e-01, 8.848078e-01, 8.865939e-01, 8.880564e-01, & ! + 8.892765e-01, 8.903105e-01, 8.911982e-01, 8.919689e-01, 8.926446e-01, & ! + 8.932419e-01, 8.937738e-01, 8.942506e-01, 8.946806e-01, 8.950702e-01, & ! + 8.954251e-01, 8.957497e-01, 8.960477e-01, 8.963223e-01, 8.965762e-01, & ! + 8.968116e-01, 8.970306e-01, 8.972347e-01, 8.974255e-01, 8.976042e-01, & ! + 8.977720e-01, 8.979298e-01, 8.980784e-01, 8.982188e-01, 8.983515e-01, & ! + 8.984771e-01, 8.985963e-01, 8.987095e-01, 8.988171e-01, 8.989195e-01, & ! + 8.990172e-01, 8.991104e-01, 8.991994e-01, & ! + 8.169789e-01, 8.455024e-01, 8.586925e-01, 8.663283e-01, 8.713217e-01, & ! 7 + 8.748488e-01, 8.774765e-01, 8.795122e-01, 8.811370e-01, 8.824649e-01, & ! + 8.835711e-01, 8.845073e-01, 8.853103e-01, 8.860068e-01, 8.866170e-01, & ! + 8.871560e-01, 8.876358e-01, 8.880658e-01, 8.884533e-01, 8.888044e-01, & ! + 8.891242e-01, 8.894166e-01, 8.896851e-01, 8.899324e-01, 8.901612e-01, & ! + 8.903733e-01, 8.905706e-01, 8.907545e-01, 8.909265e-01, 8.910876e-01, & ! + 8.912388e-01, 8.913812e-01, 8.915153e-01, 8.916419e-01, 8.917617e-01, & ! + 8.918752e-01, 8.919829e-01, 8.920851e-01, 8.921824e-01, 8.922751e-01, & ! + 8.923635e-01, 8.924478e-01, 8.925284e-01, & ! + 8.387642e-01, 8.569979e-01, 8.658630e-01, 8.711825e-01, 8.747605e-01, & ! 8 + 8.773472e-01, 8.793129e-01, 8.808621e-01, 8.821179e-01, 8.831583e-01, & ! + 8.840361e-01, 8.847875e-01, 8.854388e-01, 8.860094e-01, 8.865138e-01, & ! + 8.869634e-01, 8.873668e-01, 8.877310e-01, 8.880617e-01, 8.883635e-01, & ! + 8.886401e-01, 8.888947e-01, 8.891298e-01, 8.893477e-01, 8.895504e-01, & ! + 8.897393e-01, 8.899159e-01, 8.900815e-01, 8.902370e-01, 8.903833e-01, & ! + 8.905214e-01, 8.906518e-01, 8.907753e-01, 8.908924e-01, 8.910036e-01, & ! + 8.911094e-01, 8.912101e-01, 8.913062e-01, 8.913979e-01, 8.914856e-01, & ! + 8.915695e-01, 8.916498e-01, 8.917269e-01, & ! + 8.522208e-01, 8.648132e-01, 8.711224e-01, 8.749901e-01, 8.776354e-01, & ! 9 + 8.795743e-01, 8.810649e-01, 8.822518e-01, 8.832225e-01, 8.840333e-01, & ! + 8.847224e-01, 8.853162e-01, 8.858342e-01, 8.862906e-01, 8.866962e-01, & ! + 8.870595e-01, 8.873871e-01, 8.876842e-01, 8.879551e-01, 8.882032e-01, & ! + 8.884316e-01, 8.886425e-01, 8.888380e-01, 8.890199e-01, 8.891895e-01, & ! + 8.893481e-01, 8.894968e-01, 8.896366e-01, 8.897683e-01, 8.898926e-01, & ! + 8.900102e-01, 8.901215e-01, 8.902272e-01, 8.903276e-01, 8.904232e-01, & ! + 8.905144e-01, 8.906014e-01, 8.906845e-01, 8.907640e-01, 8.908402e-01, & ! + 8.909132e-01, 8.909834e-01, 8.910507e-01, & ! + 8.578202e-01, 8.683033e-01, 8.735431e-01, 8.767488e-01, 8.789378e-01, & ! 10 + 8.805399e-01, 8.817701e-01, 8.827485e-01, 8.835480e-01, 8.842152e-01, & ! + 8.847817e-01, 8.852696e-01, 8.856949e-01, 8.860694e-01, 8.864020e-01, & ! + 8.866997e-01, 8.869681e-01, 8.872113e-01, 8.874330e-01, 8.876360e-01, & ! + 8.878227e-01, 8.879951e-01, 8.881548e-01, 8.883033e-01, 8.884418e-01, & ! + 8.885712e-01, 8.886926e-01, 8.888066e-01, 8.889139e-01, 8.890152e-01, & ! + 8.891110e-01, 8.892017e-01, 8.892877e-01, 8.893695e-01, 8.894473e-01, & ! + 8.895214e-01, 8.895921e-01, 8.896597e-01, 8.897243e-01, 8.897862e-01, & ! + 8.898456e-01, 8.899025e-01, 8.899572e-01, & ! + 8.625615e-01, 8.713831e-01, 8.755799e-01, 8.780560e-01, 8.796983e-01, & ! 11 + 8.808714e-01, 8.817534e-01, 8.824420e-01, 8.829953e-01, 8.834501e-01, & ! + 8.838310e-01, 8.841549e-01, 8.844338e-01, 8.846767e-01, 8.848902e-01, & ! + 8.850795e-01, 8.852484e-01, 8.854002e-01, 8.855374e-01, 8.856620e-01, & ! + 8.857758e-01, 8.858800e-01, 8.859759e-01, 8.860644e-01, 8.861464e-01, & ! + 8.862225e-01, 8.862935e-01, 8.863598e-01, 8.864218e-01, 8.864800e-01, & ! + 8.865347e-01, 8.865863e-01, 8.866349e-01, 8.866809e-01, 8.867245e-01, & ! + 8.867658e-01, 8.868050e-01, 8.868423e-01, 8.868778e-01, 8.869117e-01, & ! + 8.869440e-01, 8.869749e-01, 8.870044e-01, & ! + 8.587495e-01, 8.684764e-01, 8.728189e-01, 8.752872e-01, 8.768846e-01, & ! 12 + 8.780060e-01, 8.788386e-01, 8.794824e-01, 8.799960e-01, 8.804159e-01, & ! + 8.807660e-01, 8.810626e-01, 8.813175e-01, 8.815390e-01, 8.817335e-01, & ! + 8.819057e-01, 8.820593e-01, 8.821973e-01, 8.823220e-01, 8.824353e-01, & ! + 8.825387e-01, 8.826336e-01, 8.827209e-01, 8.828016e-01, 8.828764e-01, & ! + 8.829459e-01, 8.830108e-01, 8.830715e-01, 8.831283e-01, 8.831817e-01, & ! + 8.832320e-01, 8.832795e-01, 8.833244e-01, 8.833668e-01, 8.834071e-01, & ! + 8.834454e-01, 8.834817e-01, 8.835164e-01, 8.835495e-01, 8.835811e-01, & ! + 8.836113e-01, 8.836402e-01, 8.836679e-01, & ! + 8.561110e-01, 8.678583e-01, 8.727554e-01, 8.753892e-01, 8.770154e-01, & ! 13 + 8.781109e-01, 8.788949e-01, 8.794812e-01, 8.799348e-01, 8.802952e-01, & ! + 8.805880e-01, 8.808300e-01, 8.810331e-01, 8.812058e-01, 8.813543e-01, & ! + 8.814832e-01, 8.815960e-01, 8.816956e-01, 8.817839e-01, 8.818629e-01, & ! + 8.819339e-01, 8.819979e-01, 8.820560e-01, 8.821089e-01, 8.821573e-01, & ! + 8.822016e-01, 8.822425e-01, 8.822801e-01, 8.823150e-01, 8.823474e-01, & ! + 8.823775e-01, 8.824056e-01, 8.824318e-01, 8.824564e-01, 8.824795e-01, & ! + 8.825011e-01, 8.825215e-01, 8.825408e-01, 8.825589e-01, 8.825761e-01, & ! + 8.825924e-01, 8.826078e-01, 8.826224e-01, & ! + 8.311124e-01, 8.688197e-01, 8.900274e-01, 9.040696e-01, 9.142334e-01, & ! 14 + 9.220181e-01, 9.282195e-01, 9.333048e-01, 9.375689e-01, 9.412085e-01, & ! + 9.443604e-01, 9.471230e-01, 9.495694e-01, 9.517549e-01, 9.537224e-01, & ! + 9.555057e-01, 9.571316e-01, 9.586222e-01, 9.599952e-01, 9.612656e-01, & ! + 9.624458e-01, 9.635461e-01, 9.645756e-01, 9.655418e-01, 9.664513e-01, & ! + 9.673098e-01, 9.681222e-01, 9.688928e-01, 9.696256e-01, 9.703237e-01, & ! + 9.709903e-01, 9.716280e-01, 9.722391e-01, 9.728258e-01, 9.733901e-01, & ! + 9.739336e-01, 9.744579e-01, 9.749645e-01, 9.754546e-01, 9.759294e-01, & ! + 9.763901e-01, 9.768376e-01, 9.772727e-01/), & ! + shape = (/43,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(46,nBandsSW_RRTMG),parameter :: & ! + extice3 = reshape(source= (/ & ! + 5.194013e-01, 3.215089e-01, 2.327917e-01, 1.824424e-01, 1.499977e-01, & ! 1 + 1.273492e-01, 1.106421e-01, 9.780982e-02, 8.764435e-02, 7.939266e-02, & ! + 7.256081e-02, 6.681137e-02, 6.190600e-02, 5.767154e-02, 5.397915e-02, & ! + 5.073102e-02, 4.785151e-02, 4.528125e-02, 4.297296e-02, 4.088853e-02, & ! + 3.899690e-02, 3.727251e-02, 3.569411e-02, 3.424393e-02, 3.290694e-02, & ! + 3.167040e-02, 3.052340e-02, 2.945654e-02, 2.846172e-02, 2.753188e-02, & ! + 2.666085e-02, 2.584322e-02, 2.507423e-02, 2.434967e-02, 2.366579e-02, & ! + 2.301926e-02, 2.240711e-02, 2.182666e-02, 2.127551e-02, 2.075150e-02, & ! + 2.025267e-02, 1.977725e-02, 1.932364e-02, 1.889035e-02, 1.847607e-02, & ! + 1.807956e-02, & ! + 4.901155e-01, 3.065286e-01, 2.230800e-01, 1.753951e-01, 1.445402e-01, & ! 2 + 1.229417e-01, 1.069777e-01, 9.469760e-02, 8.495824e-02, 7.704501e-02, & ! + 7.048834e-02, 6.496693e-02, 6.025353e-02, 5.618286e-02, 5.263186e-02, & ! + 4.950698e-02, 4.673585e-02, 4.426164e-02, 4.203904e-02, 4.003153e-02, & ! + 3.820932e-02, 3.654790e-02, 3.502688e-02, 3.362919e-02, 3.234041e-02, & ! + 3.114829e-02, 3.004234e-02, 2.901356e-02, 2.805413e-02, 2.715727e-02, & ! + 2.631705e-02, 2.552828e-02, 2.478637e-02, 2.408725e-02, 2.342734e-02, & ! + 2.280343e-02, 2.221264e-02, 2.165242e-02, 2.112043e-02, 2.061461e-02, & ! + 2.013308e-02, 1.967411e-02, 1.923616e-02, 1.881783e-02, 1.841781e-02, & ! + 1.803494e-02, & ! + 5.056264e-01, 3.160261e-01, 2.298442e-01, 1.805973e-01, 1.487318e-01, & ! 3 + 1.264258e-01, 1.099389e-01, 9.725656e-02, 8.719819e-02, 7.902576e-02, & ! + 7.225433e-02, 6.655206e-02, 6.168427e-02, 5.748028e-02, 5.381296e-02, & ! + 5.058572e-02, 4.772383e-02, 4.516857e-02, 4.287317e-02, 4.079990e-02, & ! + 3.891801e-02, 3.720217e-02, 3.563133e-02, 3.418786e-02, 3.285686e-02, & ! + 3.162569e-02, 3.048352e-02, 2.942104e-02, 2.843018e-02, 2.750395e-02, & ! + 2.663621e-02, 2.582160e-02, 2.505539e-02, 2.433337e-02, 2.365185e-02, & ! + 2.300750e-02, 2.239736e-02, 2.181878e-02, 2.126937e-02, 2.074699e-02, & ! + 2.024968e-02, 1.977567e-02, 1.932338e-02, 1.889134e-02, 1.847823e-02, & ! + 1.808281e-02, & ! + 4.881605e-01, 3.055237e-01, 2.225070e-01, 1.750688e-01, 1.443736e-01, & ! 4 + 1.228869e-01, 1.070054e-01, 9.478893e-02, 8.509997e-02, 7.722769e-02, & ! + 7.070495e-02, 6.521211e-02, 6.052311e-02, 5.647351e-02, 5.294088e-02, & ! + 4.983217e-02, 4.707539e-02, 4.461398e-02, 4.240288e-02, 4.040575e-02, & ! + 3.859298e-02, 3.694016e-02, 3.542701e-02, 3.403655e-02, 3.275444e-02, & ! + 3.156849e-02, 3.046827e-02, 2.944481e-02, 2.849034e-02, 2.759812e-02, & ! + 2.676226e-02, 2.597757e-02, 2.523949e-02, 2.454400e-02, 2.388750e-02, & ! + 2.326682e-02, 2.267909e-02, 2.212176e-02, 2.159253e-02, 2.108933e-02, & ! + 2.061028e-02, 2.015369e-02, 1.971801e-02, 1.930184e-02, 1.890389e-02, & ! + 1.852300e-02, & ! + 5.103703e-01, 3.188144e-01, 2.317435e-01, 1.819887e-01, 1.497944e-01, & ! 5 + 1.272584e-01, 1.106013e-01, 9.778822e-02, 8.762610e-02, 7.936938e-02, & ! + 7.252809e-02, 6.676701e-02, 6.184901e-02, 5.760165e-02, 5.389651e-02, & ! + 5.063598e-02, 4.774457e-02, 4.516295e-02, 4.284387e-02, 4.074922e-02, & ! + 3.884792e-02, 3.711438e-02, 3.552734e-02, 3.406898e-02, 3.272425e-02, & ! + 3.148038e-02, 3.032643e-02, 2.925299e-02, 2.825191e-02, 2.731612e-02, & ! + 2.643943e-02, 2.561642e-02, 2.484230e-02, 2.411284e-02, 2.342429e-02, & ! + 2.277329e-02, 2.215686e-02, 2.157231e-02, 2.101724e-02, 2.048946e-02, & ! + 1.998702e-02, 1.950813e-02, 1.905118e-02, 1.861468e-02, 1.819730e-02, & ! + 1.779781e-02, & ! + 5.031161e-01, 3.144511e-01, 2.286942e-01, 1.796903e-01, 1.479819e-01, & ! 6 + 1.257860e-01, 1.093803e-01, 9.676059e-02, 8.675183e-02, 7.861971e-02, & ! + 7.188168e-02, 6.620754e-02, 6.136376e-02, 5.718050e-02, 5.353127e-02, & ! + 5.031995e-02, 4.747218e-02, 4.492952e-02, 4.264544e-02, 4.058240e-02, & ! + 3.870979e-02, 3.700242e-02, 3.543933e-02, 3.400297e-02, 3.267854e-02, & ! + 3.145345e-02, 3.031691e-02, 2.925967e-02, 2.827370e-02, 2.735203e-02, & ! + 2.648858e-02, 2.567798e-02, 2.491555e-02, 2.419710e-02, 2.351893e-02, & ! + 2.287776e-02, 2.227063e-02, 2.169491e-02, 2.114821e-02, 2.062840e-02, & ! + 2.013354e-02, 1.966188e-02, 1.921182e-02, 1.878191e-02, 1.837083e-02, & ! + 1.797737e-02, & ! + 4.949453e-01, 3.095918e-01, 2.253402e-01, 1.771964e-01, 1.460446e-01, & ! 7 + 1.242383e-01, 1.081206e-01, 9.572235e-02, 8.588928e-02, 7.789990e-02, & ! + 7.128013e-02, 6.570559e-02, 6.094684e-02, 5.683701e-02, 5.325183e-02, & ! + 5.009688e-02, 4.729909e-02, 4.480106e-02, 4.255708e-02, 4.053025e-02, & ! + 3.869051e-02, 3.701310e-02, 3.547745e-02, 3.406631e-02, 3.276512e-02, & ! + 3.156153e-02, 3.044494e-02, 2.940626e-02, 2.843759e-02, 2.753211e-02, & ! + 2.668381e-02, 2.588744e-02, 2.513839e-02, 2.443255e-02, 2.376629e-02, & ! + 2.313637e-02, 2.253990e-02, 2.197428e-02, 2.143718e-02, 2.092649e-02, & ! + 2.044032e-02, 1.997694e-02, 1.953478e-02, 1.911241e-02, 1.870855e-02, & ! + 1.832199e-02, & ! + 5.052816e-01, 3.157665e-01, 2.296233e-01, 1.803986e-01, 1.485473e-01, & ! 8 + 1.262514e-01, 1.097718e-01, 9.709524e-02, 8.704139e-02, 7.887264e-02, & ! + 7.210424e-02, 6.640454e-02, 6.153894e-02, 5.733683e-02, 5.367116e-02, & ! + 5.044537e-02, 4.758477e-02, 4.503066e-02, 4.273629e-02, 4.066395e-02, & ! + 3.878291e-02, 3.706784e-02, 3.549771e-02, 3.405488e-02, 3.272448e-02, & ! + 3.149387e-02, 3.035221e-02, 2.929020e-02, 2.829979e-02, 2.737397e-02, & ! + 2.650663e-02, 2.569238e-02, 2.492651e-02, 2.420482e-02, 2.352361e-02, & ! + 2.287954e-02, 2.226968e-02, 2.169136e-02, 2.114220e-02, 2.062005e-02, & ! + 2.012296e-02, 1.964917e-02, 1.919709e-02, 1.876524e-02, 1.835231e-02, & ! + 1.795707e-02, & ! + 5.042067e-01, 3.151195e-01, 2.291708e-01, 1.800573e-01, 1.482779e-01, & ! 9 + 1.260324e-01, 1.095900e-01, 9.694202e-02, 8.691087e-02, 7.876056e-02, & ! + 7.200745e-02, 6.632062e-02, 6.146600e-02, 5.727338e-02, 5.361599e-02, & ! + 5.039749e-02, 4.754334e-02, 4.499500e-02, 4.270580e-02, 4.063815e-02, & ! + 3.876135e-02, 3.705016e-02, 3.548357e-02, 3.404400e-02, 3.271661e-02, & ! + 3.148877e-02, 3.034969e-02, 2.929008e-02, 2.830191e-02, 2.737818e-02, & ! + 2.651279e-02, 2.570039e-02, 2.493624e-02, 2.421618e-02, 2.353650e-02, & ! + 2.289390e-02, 2.228541e-02, 2.170840e-02, 2.116048e-02, 2.063950e-02, & ! + 2.014354e-02, 1.967082e-02, 1.921975e-02, 1.878888e-02, 1.837688e-02, & ! + 1.798254e-02, & ! + 5.022507e-01, 3.139246e-01, 2.283218e-01, 1.794059e-01, 1.477544e-01, & ! 10 + 1.255984e-01, 1.092222e-01, 9.662516e-02, 8.663439e-02, 7.851688e-02, & ! + 7.179095e-02, 6.612700e-02, 6.129193e-02, 5.711618e-02, 5.347351e-02, & ! + 5.026796e-02, 4.742530e-02, 4.488721e-02, 4.260724e-02, 4.054790e-02, & ! + 3.867866e-02, 3.697435e-02, 3.541407e-02, 3.398029e-02, 3.265824e-02, & ! + 3.143535e-02, 3.030085e-02, 2.924551e-02, 2.826131e-02, 2.734130e-02, & ! + 2.647939e-02, 2.567026e-02, 2.490919e-02, 2.419203e-02, 2.351509e-02, & ! + 2.287507e-02, 2.226903e-02, 2.169434e-02, 2.114862e-02, 2.062975e-02, & ! + 2.013578e-02, 1.966496e-02, 1.921571e-02, 1.878658e-02, 1.837623e-02, & ! + 1.798348e-02, & ! + 5.068316e-01, 3.166869e-01, 2.302576e-01, 1.808693e-01, 1.489122e-01, & ! 11 + 1.265423e-01, 1.100080e-01, 9.728926e-02, 8.720201e-02, 7.900612e-02, & ! + 7.221524e-02, 6.649660e-02, 6.161484e-02, 5.739877e-02, 5.372093e-02, & ! + 5.048442e-02, 4.761431e-02, 4.505172e-02, 4.274972e-02, 4.067050e-02, & ! + 3.878321e-02, 3.706244e-02, 3.548710e-02, 3.403948e-02, 3.270466e-02, & ! + 3.146995e-02, 3.032450e-02, 2.925897e-02, 2.826527e-02, 2.733638e-02, & ! + 2.646615e-02, 2.564920e-02, 2.488078e-02, 2.415670e-02, 2.347322e-02, & ! + 2.282702e-02, 2.221513e-02, 2.163489e-02, 2.108390e-02, 2.056002e-02, & ! + 2.006128e-02, 1.958591e-02, 1.913232e-02, 1.869904e-02, 1.828474e-02, & ! + 1.788819e-02, & ! + 5.077707e-01, 3.172636e-01, 2.306695e-01, 1.811871e-01, 1.491691e-01, & ! 12 + 1.267565e-01, 1.101907e-01, 9.744773e-02, 8.734125e-02, 7.912973e-02, & ! + 7.232591e-02, 6.659637e-02, 6.170530e-02, 5.748120e-02, 5.379634e-02, & ! + 5.055367e-02, 4.767809e-02, 4.511061e-02, 4.280423e-02, 4.072104e-02, & ! + 3.883015e-02, 3.710611e-02, 3.552776e-02, 3.407738e-02, 3.274002e-02, & ! + 3.150296e-02, 3.035532e-02, 2.928776e-02, 2.829216e-02, 2.736150e-02, & ! + 2.648961e-02, 2.567111e-02, 2.490123e-02, 2.417576e-02, 2.349098e-02, & ! + 2.284354e-02, 2.223049e-02, 2.164914e-02, 2.109711e-02, 2.057222e-02, & ! + 2.007253e-02, 1.959626e-02, 1.914181e-02, 1.870770e-02, 1.829261e-02, & ! + 1.789531e-02, & ! + 5.062281e-01, 3.163402e-01, 2.300275e-01, 1.807060e-01, 1.487921e-01, & ! 13 + 1.264523e-01, 1.099403e-01, 9.723879e-02, 8.716516e-02, 7.898034e-02, & ! + 7.219863e-02, 6.648771e-02, 6.161254e-02, 5.740217e-02, 5.372929e-02, & ! + 5.049716e-02, 4.763092e-02, 4.507179e-02, 4.277290e-02, 4.069649e-02, & ! + 3.881175e-02, 3.709331e-02, 3.552008e-02, 3.407442e-02, 3.274141e-02, & ! + 3.150837e-02, 3.036447e-02, 2.930037e-02, 2.830801e-02, 2.738037e-02, & ! + 2.651132e-02, 2.569547e-02, 2.492810e-02, 2.420499e-02, 2.352243e-02, & ! + 2.287710e-02, 2.226604e-02, 2.168658e-02, 2.113634e-02, 2.061316e-02, & ! + 2.011510e-02, 1.964038e-02, 1.918740e-02, 1.875471e-02, 1.834096e-02, & ! + 1.794495e-02, & ! + 1.338834e-01, 1.924912e-01, 1.755523e-01, 1.534793e-01, 1.343937e-01, & ! 14 + 1.187883e-01, 1.060654e-01, 9.559106e-02, 8.685880e-02, 7.948698e-02, & ! + 7.319086e-02, 6.775669e-02, 6.302215e-02, 5.886236e-02, 5.517996e-02, & ! + 5.189810e-02, 4.895539e-02, 4.630225e-02, 4.389823e-02, 4.171002e-02, & ! + 3.970998e-02, 3.787493e-02, 3.618537e-02, 3.462471e-02, 3.317880e-02, & ! + 3.183547e-02, 3.058421e-02, 2.941590e-02, 2.832256e-02, 2.729724e-02, & ! + 2.633377e-02, 2.542675e-02, 2.457136e-02, 2.376332e-02, 2.299882e-02, & ! + 2.227443e-02, 2.158707e-02, 2.093400e-02, 2.031270e-02, 1.972091e-02, & ! + 1.915659e-02, 1.861787e-02, 1.810304e-02, 1.761055e-02, 1.713899e-02, & ! + 1.668704e-02 /), & ! + shape = (/46,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(46,nBandsSW_RRTMG),parameter :: & ! + ssaice3 = reshape(source= (/ & ! + 6.749442e-01, 6.649947e-01, 6.565828e-01, 6.489928e-01, 6.420046e-01, & ! 1 + 6.355231e-01, 6.294964e-01, 6.238901e-01, 6.186783e-01, 6.138395e-01, & ! + 6.093543e-01, 6.052049e-01, 6.013742e-01, 5.978457e-01, 5.946030e-01, & ! + 5.916302e-01, 5.889115e-01, 5.864310e-01, 5.841731e-01, 5.821221e-01, & ! + 5.802624e-01, 5.785785e-01, 5.770549e-01, 5.756759e-01, 5.744262e-01, & ! + 5.732901e-01, 5.722524e-01, 5.712974e-01, 5.704097e-01, 5.695739e-01, & ! + 5.687747e-01, 5.679964e-01, 5.672238e-01, 5.664415e-01, 5.656340e-01, & ! + 5.647860e-01, 5.638821e-01, 5.629070e-01, 5.618452e-01, 5.606815e-01, & ! + 5.594006e-01, 5.579870e-01, 5.564255e-01, 5.547008e-01, 5.527976e-01, & ! + 5.507005e-01, & ! + 7.628550e-01, 7.567297e-01, 7.508463e-01, 7.451972e-01, 7.397745e-01, & ! 2 + 7.345705e-01, 7.295775e-01, 7.247881e-01, 7.201945e-01, 7.157894e-01, & ! + 7.115652e-01, 7.075145e-01, 7.036300e-01, 6.999044e-01, 6.963304e-01, & ! + 6.929007e-01, 6.896083e-01, 6.864460e-01, 6.834067e-01, 6.804833e-01, & ! + 6.776690e-01, 6.749567e-01, 6.723397e-01, 6.698109e-01, 6.673637e-01, & ! + 6.649913e-01, 6.626870e-01, 6.604441e-01, 6.582561e-01, 6.561163e-01, & ! + 6.540182e-01, 6.519554e-01, 6.499215e-01, 6.479099e-01, 6.459145e-01, & ! + 6.439289e-01, 6.419468e-01, 6.399621e-01, 6.379686e-01, 6.359601e-01, & ! + 6.339306e-01, 6.318740e-01, 6.297845e-01, 6.276559e-01, 6.254825e-01, & ! + 6.232583e-01, & ! + 9.924147e-01, 9.882792e-01, 9.842257e-01, 9.802522e-01, 9.763566e-01, & ! 3 + 9.725367e-01, 9.687905e-01, 9.651157e-01, 9.615104e-01, 9.579725e-01, & ! + 9.544997e-01, 9.510901e-01, 9.477416e-01, 9.444520e-01, 9.412194e-01, & ! + 9.380415e-01, 9.349165e-01, 9.318421e-01, 9.288164e-01, 9.258373e-01, & ! + 9.229027e-01, 9.200106e-01, 9.171589e-01, 9.143457e-01, 9.115688e-01, & ! + 9.088263e-01, 9.061161e-01, 9.034362e-01, 9.007846e-01, 8.981592e-01, & ! + 8.955581e-01, 8.929792e-01, 8.904206e-01, 8.878803e-01, 8.853562e-01, & ! + 8.828464e-01, 8.803488e-01, 8.778616e-01, 8.753827e-01, 8.729102e-01, & ! + 8.704421e-01, 8.679764e-01, 8.655112e-01, 8.630445e-01, 8.605744e-01, & ! + 8.580989e-01, & ! + 9.629413e-01, 9.517182e-01, 9.409209e-01, 9.305366e-01, 9.205529e-01, & ! 4 + 9.109569e-01, 9.017362e-01, 8.928780e-01, 8.843699e-01, 8.761992e-01, & ! + 8.683536e-01, 8.608204e-01, 8.535873e-01, 8.466417e-01, 8.399712e-01, & ! + 8.335635e-01, 8.274062e-01, 8.214868e-01, 8.157932e-01, 8.103129e-01, & ! + 8.050336e-01, 7.999432e-01, 7.950294e-01, 7.902798e-01, 7.856825e-01, & ! + 7.812250e-01, 7.768954e-01, 7.726815e-01, 7.685711e-01, 7.645522e-01, & ! + 7.606126e-01, 7.567404e-01, 7.529234e-01, 7.491498e-01, 7.454074e-01, & ! + 7.416844e-01, 7.379688e-01, 7.342485e-01, 7.305118e-01, 7.267468e-01, & ! + 7.229415e-01, 7.190841e-01, 7.151628e-01, 7.111657e-01, 7.070811e-01, & ! + 7.028972e-01, & ! + 9.942270e-01, 9.909206e-01, 9.876775e-01, 9.844960e-01, 9.813746e-01, & ! 5 + 9.783114e-01, 9.753049e-01, 9.723535e-01, 9.694553e-01, 9.666088e-01, & ! + 9.638123e-01, 9.610641e-01, 9.583626e-01, 9.557060e-01, 9.530928e-01, & ! + 9.505211e-01, 9.479895e-01, 9.454961e-01, 9.430393e-01, 9.406174e-01, & ! + 9.382288e-01, 9.358717e-01, 9.335446e-01, 9.312456e-01, 9.289731e-01, & ! + 9.267255e-01, 9.245010e-01, 9.222980e-01, 9.201147e-01, 9.179496e-01, & ! + 9.158008e-01, 9.136667e-01, 9.115457e-01, 9.094359e-01, 9.073358e-01, & ! + 9.052436e-01, 9.031577e-01, 9.010763e-01, 8.989977e-01, 8.969203e-01, & ! + 8.948423e-01, 8.927620e-01, 8.906778e-01, 8.885879e-01, 8.864907e-01, & ! + 8.843843e-01, & ! + 9.934014e-01, 9.899331e-01, 9.865537e-01, 9.832610e-01, 9.800523e-01, & ! 6 + 9.769254e-01, 9.738777e-01, 9.709069e-01, 9.680106e-01, 9.651862e-01, & ! + 9.624315e-01, 9.597439e-01, 9.571212e-01, 9.545608e-01, 9.520605e-01, & ! + 9.496177e-01, 9.472301e-01, 9.448954e-01, 9.426111e-01, 9.403749e-01, & ! + 9.381843e-01, 9.360370e-01, 9.339307e-01, 9.318629e-01, 9.298313e-01, & ! + 9.278336e-01, 9.258673e-01, 9.239302e-01, 9.220198e-01, 9.201338e-01, & ! + 9.182700e-01, 9.164258e-01, 9.145991e-01, 9.127874e-01, 9.109884e-01, & ! + 9.091999e-01, 9.074194e-01, 9.056447e-01, 9.038735e-01, 9.021033e-01, & ! + 9.003320e-01, 8.985572e-01, 8.967766e-01, 8.949879e-01, 8.931888e-01, & ! + 8.913770e-01, & ! + 9.994833e-01, 9.992055e-01, 9.989278e-01, 9.986500e-01, 9.983724e-01, & ! 7 + 9.980947e-01, 9.978172e-01, 9.975397e-01, 9.972623e-01, 9.969849e-01, & ! + 9.967077e-01, 9.964305e-01, 9.961535e-01, 9.958765e-01, 9.955997e-01, & ! + 9.953230e-01, 9.950464e-01, 9.947699e-01, 9.944936e-01, 9.942174e-01, & ! + 9.939414e-01, 9.936656e-01, 9.933899e-01, 9.931144e-01, 9.928390e-01, & ! + 9.925639e-01, 9.922889e-01, 9.920141e-01, 9.917396e-01, 9.914652e-01, & ! + 9.911911e-01, 9.909171e-01, 9.906434e-01, 9.903700e-01, 9.900967e-01, & ! + 9.898237e-01, 9.895510e-01, 9.892784e-01, 9.890062e-01, 9.887342e-01, & ! + 9.884625e-01, 9.881911e-01, 9.879199e-01, 9.876490e-01, 9.873784e-01, & ! + 9.871081e-01, & ! + 9.999343e-01, 9.998917e-01, 9.998492e-01, 9.998067e-01, 9.997642e-01, & ! 8 + 9.997218e-01, 9.996795e-01, 9.996372e-01, 9.995949e-01, 9.995528e-01, & ! + 9.995106e-01, 9.994686e-01, 9.994265e-01, 9.993845e-01, 9.993426e-01, & ! + 9.993007e-01, 9.992589e-01, 9.992171e-01, 9.991754e-01, 9.991337e-01, & ! + 9.990921e-01, 9.990505e-01, 9.990089e-01, 9.989674e-01, 9.989260e-01, & ! + 9.988846e-01, 9.988432e-01, 9.988019e-01, 9.987606e-01, 9.987194e-01, & ! + 9.986782e-01, 9.986370e-01, 9.985959e-01, 9.985549e-01, 9.985139e-01, & ! + 9.984729e-01, 9.984319e-01, 9.983910e-01, 9.983502e-01, 9.983094e-01, & ! + 9.982686e-01, 9.982279e-01, 9.981872e-01, 9.981465e-01, 9.981059e-01, & ! + 9.980653e-01, & ! + 9.999978e-01, 9.999965e-01, 9.999952e-01, 9.999939e-01, 9.999926e-01, & ! 9 + 9.999913e-01, 9.999900e-01, 9.999887e-01, 9.999873e-01, 9.999860e-01, & ! + 9.999847e-01, 9.999834e-01, 9.999821e-01, 9.999808e-01, 9.999795e-01, & ! + 9.999782e-01, 9.999769e-01, 9.999756e-01, 9.999743e-01, 9.999730e-01, & ! + 9.999717e-01, 9.999704e-01, 9.999691e-01, 9.999678e-01, 9.999665e-01, & ! + 9.999652e-01, 9.999639e-01, 9.999626e-01, 9.999613e-01, 9.999600e-01, & ! + 9.999587e-01, 9.999574e-01, 9.999561e-01, 9.999548e-01, 9.999535e-01, & ! + 9.999522e-01, 9.999509e-01, 9.999496e-01, 9.999483e-01, 9.999470e-01, & ! + 9.999457e-01, 9.999444e-01, 9.999431e-01, 9.999418e-01, 9.999405e-01, & ! + 9.999392e-01, & ! + 9.999994e-01, 9.999993e-01, 9.999991e-01, 9.999990e-01, 9.999989e-01, & ! 10 + 9.999987e-01, 9.999986e-01, 9.999984e-01, 9.999983e-01, 9.999982e-01, & ! + 9.999980e-01, 9.999979e-01, 9.999977e-01, 9.999976e-01, 9.999975e-01, & ! + 9.999973e-01, 9.999972e-01, 9.999970e-01, 9.999969e-01, 9.999967e-01, & ! + 9.999966e-01, 9.999965e-01, 9.999963e-01, 9.999962e-01, 9.999960e-01, & ! + 9.999959e-01, 9.999957e-01, 9.999956e-01, 9.999954e-01, 9.999953e-01, & ! + 9.999952e-01, 9.999950e-01, 9.999949e-01, 9.999947e-01, 9.999946e-01, & ! + 9.999944e-01, 9.999943e-01, 9.999941e-01, 9.999940e-01, 9.999939e-01, & ! + 9.999937e-01, 9.999936e-01, 9.999934e-01, 9.999933e-01, 9.999931e-01, & ! + 9.999930e-01, & ! + 9.999997e-01, 9.999995e-01, 9.999992e-01, 9.999990e-01, 9.999987e-01, & ! 11 + 9.999985e-01, 9.999983e-01, 9.999980e-01, 9.999978e-01, 9.999976e-01, & ! + 9.999973e-01, 9.999971e-01, 9.999969e-01, 9.999967e-01, 9.999965e-01, & ! + 9.999963e-01, 9.999960e-01, 9.999958e-01, 9.999956e-01, 9.999954e-01, & ! + 9.999952e-01, 9.999950e-01, 9.999948e-01, 9.999946e-01, 9.999944e-01, & ! + 9.999942e-01, 9.999939e-01, 9.999937e-01, 9.999935e-01, 9.999933e-01, & ! + 9.999931e-01, 9.999929e-01, 9.999927e-01, 9.999925e-01, 9.999923e-01, & ! + 9.999920e-01, 9.999918e-01, 9.999916e-01, 9.999914e-01, 9.999911e-01, & ! + 9.999909e-01, 9.999907e-01, 9.999905e-01, 9.999902e-01, 9.999900e-01, & ! + 9.999897e-01, & ! + 9.999991e-01, 9.999985e-01, 9.999980e-01, 9.999974e-01, 9.999968e-01, & ! 12 + 9.999963e-01, 9.999957e-01, 9.999951e-01, 9.999946e-01, 9.999940e-01, & ! + 9.999934e-01, 9.999929e-01, 9.999923e-01, 9.999918e-01, 9.999912e-01, & ! + 9.999907e-01, 9.999901e-01, 9.999896e-01, 9.999891e-01, 9.999885e-01, & ! + 9.999880e-01, 9.999874e-01, 9.999869e-01, 9.999863e-01, 9.999858e-01, & ! + 9.999853e-01, 9.999847e-01, 9.999842e-01, 9.999836e-01, 9.999831e-01, & ! + 9.999826e-01, 9.999820e-01, 9.999815e-01, 9.999809e-01, 9.999804e-01, & ! + 9.999798e-01, 9.999793e-01, 9.999787e-01, 9.999782e-01, 9.999776e-01, & ! + 9.999770e-01, 9.999765e-01, 9.999759e-01, 9.999754e-01, 9.999748e-01, & ! + 9.999742e-01, & ! + 9.999975e-01, 9.999961e-01, 9.999946e-01, 9.999931e-01, 9.999917e-01, & ! 13 + 9.999903e-01, 9.999888e-01, 9.999874e-01, 9.999859e-01, 9.999845e-01, & ! + 9.999831e-01, 9.999816e-01, 9.999802e-01, 9.999788e-01, 9.999774e-01, & ! + 9.999759e-01, 9.999745e-01, 9.999731e-01, 9.999717e-01, 9.999702e-01, & ! + 9.999688e-01, 9.999674e-01, 9.999660e-01, 9.999646e-01, 9.999631e-01, & ! + 9.999617e-01, 9.999603e-01, 9.999589e-01, 9.999574e-01, 9.999560e-01, & ! + 9.999546e-01, 9.999532e-01, 9.999517e-01, 9.999503e-01, 9.999489e-01, & ! + 9.999474e-01, 9.999460e-01, 9.999446e-01, 9.999431e-01, 9.999417e-01, & ! + 9.999403e-01, 9.999388e-01, 9.999374e-01, 9.999359e-01, 9.999345e-01, & ! + 9.999330e-01, & ! + 4.526500e-01, 5.287890e-01, 5.410487e-01, 5.459865e-01, 5.485149e-01, & ! 14 + 5.498914e-01, 5.505895e-01, 5.508310e-01, 5.507364e-01, 5.503793e-01, & ! + 5.498090e-01, 5.490612e-01, 5.481637e-01, 5.471395e-01, 5.460083e-01, & ! + 5.447878e-01, 5.434946e-01, 5.421442e-01, 5.407514e-01, 5.393309e-01, & ! + 5.378970e-01, 5.364641e-01, 5.350464e-01, 5.336582e-01, 5.323140e-01, & ! + 5.310283e-01, 5.298158e-01, 5.286914e-01, 5.276704e-01, 5.267680e-01, & ! + 5.260000e-01, 5.253823e-01, 5.249311e-01, 5.246629e-01, 5.245946e-01, & ! + 5.247434e-01, 5.251268e-01, 5.257626e-01, 5.266693e-01, 5.278653e-01, & ! + 5.293698e-01, 5.312022e-01, 5.333823e-01, 5.359305e-01, 5.388676e-01, & ! + 5.422146e-01/), & ! + shape = (/46,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(46,nBandsSW_RRTMG),parameter :: & ! + asyice3 = reshape(source= (/ & ! + 8.340752e-01, 8.435170e-01, 8.517487e-01, 8.592064e-01, 8.660387e-01, & ! 1 + 8.723204e-01, 8.780997e-01, 8.834137e-01, 8.882934e-01, 8.927662e-01, & ! + 8.968577e-01, 9.005914e-01, 9.039899e-01, 9.070745e-01, 9.098659e-01, & ! + 9.123836e-01, 9.146466e-01, 9.166734e-01, 9.184817e-01, 9.200886e-01, & ! + 9.215109e-01, 9.227648e-01, 9.238661e-01, 9.248304e-01, 9.256727e-01, & ! + 9.264078e-01, 9.270505e-01, 9.276150e-01, 9.281156e-01, 9.285662e-01, & ! + 9.289806e-01, 9.293726e-01, 9.297557e-01, 9.301435e-01, 9.305491e-01, & ! + 9.309859e-01, 9.314671e-01, 9.320055e-01, 9.326140e-01, 9.333053e-01, & ! + 9.340919e-01, 9.349861e-01, 9.360000e-01, 9.371451e-01, 9.384329e-01, & ! + 9.398744e-01, & ! + 8.728160e-01, 8.777333e-01, 8.823754e-01, 8.867535e-01, 8.908785e-01, & ! 2 + 8.947611e-01, 8.984118e-01, 9.018408e-01, 9.050582e-01, 9.080739e-01, & ! + 9.108976e-01, 9.135388e-01, 9.160068e-01, 9.183106e-01, 9.204595e-01, & ! + 9.224620e-01, 9.243271e-01, 9.260632e-01, 9.276788e-01, 9.291822e-01, & ! + 9.305817e-01, 9.318853e-01, 9.331012e-01, 9.342372e-01, 9.353013e-01, & ! + 9.363013e-01, 9.372450e-01, 9.381400e-01, 9.389939e-01, 9.398145e-01, & ! + 9.406092e-01, 9.413856e-01, 9.421511e-01, 9.429131e-01, 9.436790e-01, & ! + 9.444561e-01, 9.452517e-01, 9.460729e-01, 9.469270e-01, 9.478209e-01, & ! + 9.487617e-01, 9.497562e-01, 9.508112e-01, 9.519335e-01, 9.531294e-01, & ! + 9.544055e-01, & ! + 7.897566e-01, 7.948704e-01, 7.998041e-01, 8.045623e-01, 8.091495e-01, & ! 3 + 8.135702e-01, 8.178290e-01, 8.219305e-01, 8.258790e-01, 8.296792e-01, & ! + 8.333355e-01, 8.368524e-01, 8.402343e-01, 8.434856e-01, 8.466108e-01, & ! + 8.496143e-01, 8.525004e-01, 8.552737e-01, 8.579384e-01, 8.604990e-01, & ! + 8.629597e-01, 8.653250e-01, 8.675992e-01, 8.697867e-01, 8.718916e-01, & ! + 8.739185e-01, 8.758715e-01, 8.777551e-01, 8.795734e-01, 8.813308e-01, & ! + 8.830315e-01, 8.846799e-01, 8.862802e-01, 8.878366e-01, 8.893534e-01, & ! + 8.908350e-01, 8.922854e-01, 8.937090e-01, 8.951099e-01, 8.964925e-01, & ! + 8.978609e-01, 8.992192e-01, 9.005718e-01, 9.019229e-01, 9.032765e-01, & ! + 9.046369e-01, & ! + 7.812615e-01, 7.887764e-01, 7.959664e-01, 8.028413e-01, 8.094109e-01, & ! 4 + 8.156849e-01, 8.216730e-01, 8.273846e-01, 8.328294e-01, 8.380166e-01, & ! + 8.429556e-01, 8.476556e-01, 8.521258e-01, 8.563753e-01, 8.604131e-01, & ! + 8.642481e-01, 8.678893e-01, 8.713455e-01, 8.746254e-01, 8.777378e-01, & ! + 8.806914e-01, 8.834948e-01, 8.861566e-01, 8.886854e-01, 8.910897e-01, & ! + 8.933779e-01, 8.955586e-01, 8.976402e-01, 8.996311e-01, 9.015398e-01, & ! + 9.033745e-01, 9.051436e-01, 9.068555e-01, 9.085185e-01, 9.101410e-01, & ! + 9.117311e-01, 9.132972e-01, 9.148476e-01, 9.163905e-01, 9.179340e-01, & ! + 9.194864e-01, 9.210559e-01, 9.226505e-01, 9.242784e-01, 9.259476e-01, & ! + 9.276661e-01, & ! + 7.640720e-01, 7.691119e-01, 7.739941e-01, 7.787222e-01, 7.832998e-01, & ! 5 + 7.877304e-01, 7.920177e-01, 7.961652e-01, 8.001765e-01, 8.040551e-01, & ! + 8.078044e-01, 8.114280e-01, 8.149294e-01, 8.183119e-01, 8.215791e-01, & ! + 8.247344e-01, 8.277812e-01, 8.307229e-01, 8.335629e-01, 8.363046e-01, & ! + 8.389514e-01, 8.415067e-01, 8.439738e-01, 8.463560e-01, 8.486568e-01, & ! + 8.508795e-01, 8.530274e-01, 8.551039e-01, 8.571122e-01, 8.590558e-01, & ! + 8.609378e-01, 8.627618e-01, 8.645309e-01, 8.662485e-01, 8.679178e-01, & ! + 8.695423e-01, 8.711251e-01, 8.726697e-01, 8.741792e-01, 8.756571e-01, & ! + 8.771065e-01, 8.785307e-01, 8.799331e-01, 8.813169e-01, 8.826854e-01, & ! + 8.840419e-01, & ! + 7.602598e-01, 7.651572e-01, 7.699014e-01, 7.744962e-01, 7.789452e-01, & ! 6 + 7.832522e-01, 7.874205e-01, 7.914538e-01, 7.953555e-01, 7.991290e-01, & ! + 8.027777e-01, 8.063049e-01, 8.097140e-01, 8.130081e-01, 8.161906e-01, & ! + 8.192645e-01, 8.222331e-01, 8.250993e-01, 8.278664e-01, 8.305374e-01, & ! + 8.331153e-01, 8.356030e-01, 8.380037e-01, 8.403201e-01, 8.425553e-01, & ! + 8.447121e-01, 8.467935e-01, 8.488022e-01, 8.507412e-01, 8.526132e-01, & ! + 8.544210e-01, 8.561675e-01, 8.578554e-01, 8.594875e-01, 8.610665e-01, & ! + 8.625951e-01, 8.640760e-01, 8.655119e-01, 8.669055e-01, 8.682594e-01, & ! + 8.695763e-01, 8.708587e-01, 8.721094e-01, 8.733308e-01, 8.745255e-01, & ! + 8.756961e-01, & ! + 7.568957e-01, 7.606995e-01, 7.644072e-01, 7.680204e-01, 7.715402e-01, & ! 7 + 7.749682e-01, 7.783057e-01, 7.815541e-01, 7.847148e-01, 7.877892e-01, & ! + 7.907786e-01, 7.936846e-01, 7.965084e-01, 7.992515e-01, 8.019153e-01, & ! + 8.045011e-01, 8.070103e-01, 8.094444e-01, 8.118048e-01, 8.140927e-01, & ! + 8.163097e-01, 8.184571e-01, 8.205364e-01, 8.225488e-01, 8.244958e-01, & ! + 8.263789e-01, 8.281993e-01, 8.299586e-01, 8.316580e-01, 8.332991e-01, & ! + 8.348831e-01, 8.364115e-01, 8.378857e-01, 8.393071e-01, 8.406770e-01, & ! + 8.419969e-01, 8.432682e-01, 8.444923e-01, 8.456706e-01, 8.468044e-01, & ! + 8.478952e-01, 8.489444e-01, 8.499533e-01, 8.509234e-01, 8.518561e-01, & ! + 8.527528e-01, & ! + 7.575066e-01, 7.606912e-01, 7.638236e-01, 7.669035e-01, 7.699306e-01, & ! 8 + 7.729046e-01, 7.758254e-01, 7.786926e-01, 7.815060e-01, 7.842654e-01, & ! + 7.869705e-01, 7.896211e-01, 7.922168e-01, 7.947574e-01, 7.972428e-01, & ! + 7.996726e-01, 8.020466e-01, 8.043646e-01, 8.066262e-01, 8.088313e-01, & ! + 8.109796e-01, 8.130709e-01, 8.151049e-01, 8.170814e-01, 8.190001e-01, & ! + 8.208608e-01, 8.226632e-01, 8.244071e-01, 8.260924e-01, 8.277186e-01, & ! + 8.292856e-01, 8.307932e-01, 8.322411e-01, 8.336291e-01, 8.349570e-01, & ! + 8.362244e-01, 8.374312e-01, 8.385772e-01, 8.396621e-01, 8.406856e-01, & ! + 8.416476e-01, 8.425479e-01, 8.433861e-01, 8.441620e-01, 8.448755e-01, & ! + 8.455263e-01, & ! + 7.568829e-01, 7.597947e-01, 7.626745e-01, 7.655212e-01, 7.683337e-01, & ! 9 + 7.711111e-01, 7.738523e-01, 7.765565e-01, 7.792225e-01, 7.818494e-01, & ! + 7.844362e-01, 7.869819e-01, 7.894854e-01, 7.919459e-01, 7.943623e-01, & ! + 7.967337e-01, 7.990590e-01, 8.013373e-01, 8.035676e-01, 8.057488e-01, & ! + 8.078802e-01, 8.099605e-01, 8.119890e-01, 8.139645e-01, 8.158862e-01, & ! + 8.177530e-01, 8.195641e-01, 8.213183e-01, 8.230149e-01, 8.246527e-01, & ! + 8.262308e-01, 8.277483e-01, 8.292042e-01, 8.305976e-01, 8.319275e-01, & ! + 8.331929e-01, 8.343929e-01, 8.355265e-01, 8.365928e-01, 8.375909e-01, & ! + 8.385197e-01, 8.393784e-01, 8.401659e-01, 8.408815e-01, 8.415240e-01, & ! + 8.420926e-01, & ! + 7.548616e-01, 7.575454e-01, 7.602153e-01, 7.628696e-01, 7.655067e-01, & ! 10 + 7.681249e-01, 7.707225e-01, 7.732978e-01, 7.758492e-01, 7.783750e-01, & ! + 7.808735e-01, 7.833430e-01, 7.857819e-01, 7.881886e-01, 7.905612e-01, & ! + 7.928983e-01, 7.951980e-01, 7.974588e-01, 7.996789e-01, 8.018567e-01, & ! + 8.039905e-01, 8.060787e-01, 8.081196e-01, 8.101115e-01, 8.120527e-01, & ! + 8.139416e-01, 8.157764e-01, 8.175557e-01, 8.192776e-01, 8.209405e-01, & ! + 8.225427e-01, 8.240826e-01, 8.255585e-01, 8.269688e-01, 8.283117e-01, & ! + 8.295856e-01, 8.307889e-01, 8.319198e-01, 8.329767e-01, 8.339579e-01, & ! + 8.348619e-01, 8.356868e-01, 8.364311e-01, 8.370930e-01, 8.376710e-01, & ! + 8.381633e-01, & ! + 7.491854e-01, 7.518523e-01, 7.545089e-01, 7.571534e-01, 7.597839e-01, & ! 11 + 7.623987e-01, 7.649959e-01, 7.675737e-01, 7.701303e-01, 7.726639e-01, & ! + 7.751727e-01, 7.776548e-01, 7.801084e-01, 7.825318e-01, 7.849230e-01, & ! + 7.872804e-01, 7.896020e-01, 7.918862e-01, 7.941309e-01, 7.963345e-01, & ! + 7.984951e-01, 8.006109e-01, 8.026802e-01, 8.047009e-01, 8.066715e-01, & ! + 8.085900e-01, 8.104546e-01, 8.122636e-01, 8.140150e-01, 8.157072e-01, & ! + 8.173382e-01, 8.189063e-01, 8.204096e-01, 8.218464e-01, 8.232148e-01, & ! + 8.245130e-01, 8.257391e-01, 8.268915e-01, 8.279682e-01, 8.289675e-01, & ! + 8.298875e-01, 8.307264e-01, 8.314824e-01, 8.321537e-01, 8.327385e-01, & ! + 8.332350e-01, & ! + 7.397086e-01, 7.424069e-01, 7.450955e-01, 7.477725e-01, 7.504362e-01, & ! 12 + 7.530846e-01, 7.557159e-01, 7.583283e-01, 7.609199e-01, 7.634888e-01, & ! + 7.660332e-01, 7.685512e-01, 7.710411e-01, 7.735009e-01, 7.759288e-01, & ! + 7.783229e-01, 7.806814e-01, 7.830024e-01, 7.852841e-01, 7.875246e-01, & ! + 7.897221e-01, 7.918748e-01, 7.939807e-01, 7.960380e-01, 7.980449e-01, & ! + 7.999995e-01, 8.019000e-01, 8.037445e-01, 8.055311e-01, 8.072581e-01, & ! + 8.089235e-01, 8.105255e-01, 8.120623e-01, 8.135319e-01, 8.149326e-01, & ! + 8.162626e-01, 8.175198e-01, 8.187025e-01, 8.198089e-01, 8.208371e-01, & ! + 8.217852e-01, 8.226514e-01, 8.234338e-01, 8.241306e-01, 8.247399e-01, & ! + 8.252599e-01, & ! + 7.224533e-01, 7.251681e-01, 7.278728e-01, 7.305654e-01, 7.332444e-01, & ! 13 + 7.359078e-01, 7.385539e-01, 7.411808e-01, 7.437869e-01, 7.463702e-01, & ! + 7.489291e-01, 7.514616e-01, 7.539661e-01, 7.564408e-01, 7.588837e-01, & ! + 7.612933e-01, 7.636676e-01, 7.660049e-01, 7.683034e-01, 7.705612e-01, & ! + 7.727767e-01, 7.749480e-01, 7.770733e-01, 7.791509e-01, 7.811789e-01, & ! + 7.831556e-01, 7.850791e-01, 7.869478e-01, 7.887597e-01, 7.905131e-01, & ! + 7.922062e-01, 7.938372e-01, 7.954044e-01, 7.969059e-01, 7.983399e-01, & ! + 7.997047e-01, 8.009985e-01, 8.022195e-01, 8.033658e-01, 8.044357e-01, & ! + 8.054275e-01, 8.063392e-01, 8.071692e-01, 8.079157e-01, 8.085768e-01, & ! + 8.091507e-01, & ! + 8.850026e-01, 9.005489e-01, 9.069242e-01, 9.121799e-01, 9.168987e-01, & ! 14 + 9.212259e-01, 9.252176e-01, 9.289028e-01, 9.323000e-01, 9.354235e-01, & ! + 9.382858e-01, 9.408985e-01, 9.432734e-01, 9.454218e-01, 9.473557e-01, & ! + 9.490871e-01, 9.506282e-01, 9.519917e-01, 9.531904e-01, 9.542374e-01, & ! + 9.551461e-01, 9.559298e-01, 9.566023e-01, 9.571775e-01, 9.576692e-01, & ! + 9.580916e-01, 9.584589e-01, 9.587853e-01, 9.590851e-01, 9.593729e-01, & ! + 9.596632e-01, 9.599705e-01, 9.603096e-01, 9.606954e-01, 9.611427e-01, & ! + 9.616667e-01, 9.622826e-01, 9.630060e-01, 9.638524e-01, 9.648379e-01, & ! + 9.659788e-01, 9.672916e-01, 9.687933e-01, 9.705014e-01, 9.724337e-01, & ! + 9.746084e-01/), & ! + shape = (/46,nBandsSW_RRTMG/)) + + real(kind_phys),dimension(46,nBandsSW_RRTMG),parameter :: & ! + fdlice3 = reshape(source= (/ & ! + 4.959277e-02, 4.685292e-02, 4.426104e-02, 4.181231e-02, 3.950191e-02, & ! + 3.732500e-02, 3.527675e-02, 3.335235e-02, 3.154697e-02, 2.985578e-02, & ! + 2.827395e-02, 2.679666e-02, 2.541909e-02, 2.413640e-02, 2.294378e-02, & ! + 2.183639e-02, 2.080940e-02, 1.985801e-02, 1.897736e-02, 1.816265e-02, & ! + 1.740905e-02, 1.671172e-02, 1.606585e-02, 1.546661e-02, 1.490917e-02, & ! + 1.438870e-02, 1.390038e-02, 1.343939e-02, 1.300089e-02, 1.258006e-02, & ! + 1.217208e-02, 1.177212e-02, 1.137536e-02, 1.097696e-02, 1.057210e-02, & ! + 1.015596e-02, 9.723704e-03, 9.270516e-03, 8.791565e-03, 8.282026e-03, & ! + 7.737072e-03, 7.151879e-03, 6.521619e-03, 5.841467e-03, 5.106597e-03, & ! + 4.312183e-03, & ! + 5.071224e-02, 5.000217e-02, 4.933872e-02, 4.871992e-02, 4.814380e-02, & ! + 4.760839e-02, 4.711170e-02, 4.665177e-02, 4.622662e-02, 4.583426e-02, & ! + 4.547274e-02, 4.514007e-02, 4.483428e-02, 4.455340e-02, 4.429544e-02, & ! + 4.405844e-02, 4.384041e-02, 4.363939e-02, 4.345340e-02, 4.328047e-02, & ! + 4.311861e-02, 4.296586e-02, 4.282024e-02, 4.267977e-02, 4.254248e-02, & ! + 4.240640e-02, 4.226955e-02, 4.212995e-02, 4.198564e-02, 4.183462e-02, & ! + 4.167494e-02, 4.150462e-02, 4.132167e-02, 4.112413e-02, 4.091003e-02, & ! + 4.067737e-02, 4.042420e-02, 4.014854e-02, 3.984840e-02, 3.952183e-02, & ! + 3.916683e-02, 3.878144e-02, 3.836368e-02, 3.791158e-02, 3.742316e-02, & ! + 3.689645e-02, & ! + 1.062938e-01, 1.065234e-01, 1.067822e-01, 1.070682e-01, 1.073793e-01, & ! + 1.077137e-01, 1.080693e-01, 1.084442e-01, 1.088364e-01, 1.092439e-01, & ! + 1.096647e-01, 1.100970e-01, 1.105387e-01, 1.109878e-01, 1.114423e-01, & ! + 1.119004e-01, 1.123599e-01, 1.128190e-01, 1.132757e-01, 1.137279e-01, & ! + 1.141738e-01, 1.146113e-01, 1.150385e-01, 1.154534e-01, 1.158540e-01, & ! + 1.162383e-01, 1.166045e-01, 1.169504e-01, 1.172741e-01, 1.175738e-01, & ! + 1.178472e-01, 1.180926e-01, 1.183080e-01, 1.184913e-01, 1.186405e-01, & ! + 1.187538e-01, 1.188291e-01, 1.188645e-01, 1.188580e-01, 1.188076e-01, & ! + 1.187113e-01, 1.185672e-01, 1.183733e-01, 1.181277e-01, 1.178282e-01, & ! + 1.174731e-01, & ! + 1.076195e-01, 1.065195e-01, 1.054696e-01, 1.044673e-01, 1.035099e-01, & ! + 1.025951e-01, 1.017203e-01, 1.008831e-01, 1.000808e-01, 9.931116e-02, & ! + 9.857151e-02, 9.785939e-02, 9.717230e-02, 9.650774e-02, 9.586322e-02, & ! + 9.523623e-02, 9.462427e-02, 9.402484e-02, 9.343544e-02, 9.285358e-02, & ! + 9.227675e-02, 9.170245e-02, 9.112818e-02, 9.055144e-02, 8.996974e-02, & ! + 8.938056e-02, 8.878142e-02, 8.816981e-02, 8.754323e-02, 8.689919e-02, & ! + 8.623517e-02, 8.554869e-02, 8.483724e-02, 8.409832e-02, 8.332943e-02, & ! + 8.252807e-02, 8.169175e-02, 8.081795e-02, 7.990419e-02, 7.894796e-02, & ! + 7.794676e-02, 7.689809e-02, 7.579945e-02, 7.464834e-02, 7.344227e-02, & ! + 7.217872e-02, & ! + 1.119014e-01, 1.122706e-01, 1.126690e-01, 1.130947e-01, 1.135456e-01, & ! + 1.140199e-01, 1.145154e-01, 1.150302e-01, 1.155623e-01, 1.161096e-01, & ! + 1.166703e-01, 1.172422e-01, 1.178233e-01, 1.184118e-01, 1.190055e-01, & ! + 1.196025e-01, 1.202008e-01, 1.207983e-01, 1.213931e-01, 1.219832e-01, & ! + 1.225665e-01, 1.231411e-01, 1.237050e-01, 1.242561e-01, 1.247926e-01, & ! + 1.253122e-01, 1.258132e-01, 1.262934e-01, 1.267509e-01, 1.271836e-01, & ! + 1.275896e-01, 1.279669e-01, 1.283134e-01, 1.286272e-01, 1.289063e-01, & ! + 1.291486e-01, 1.293522e-01, 1.295150e-01, 1.296351e-01, 1.297104e-01, & ! + 1.297390e-01, 1.297189e-01, 1.296480e-01, 1.295244e-01, 1.293460e-01, & ! + 1.291109e-01, & ! + 1.133298e-01, 1.136777e-01, 1.140556e-01, 1.144615e-01, 1.148934e-01, & ! + 1.153492e-01, 1.158269e-01, 1.163243e-01, 1.168396e-01, 1.173706e-01, & ! + 1.179152e-01, 1.184715e-01, 1.190374e-01, 1.196108e-01, 1.201897e-01, & ! + 1.207720e-01, 1.213558e-01, 1.219389e-01, 1.225194e-01, 1.230951e-01, & ! + 1.236640e-01, 1.242241e-01, 1.247733e-01, 1.253096e-01, 1.258309e-01, & ! + 1.263352e-01, 1.268205e-01, 1.272847e-01, 1.277257e-01, 1.281415e-01, & ! + 1.285300e-01, 1.288893e-01, 1.292173e-01, 1.295118e-01, 1.297710e-01, & ! + 1.299927e-01, 1.301748e-01, 1.303154e-01, 1.304124e-01, 1.304637e-01, & ! + 1.304673e-01, 1.304212e-01, 1.303233e-01, 1.301715e-01, 1.299638e-01, & ! + 1.296983e-01, & ! + 1.145360e-01, 1.153256e-01, 1.161453e-01, 1.169929e-01, 1.178666e-01, & ! + 1.187641e-01, 1.196835e-01, 1.206227e-01, 1.215796e-01, 1.225522e-01, & ! + 1.235383e-01, 1.245361e-01, 1.255433e-01, 1.265579e-01, 1.275779e-01, & ! + 1.286011e-01, 1.296257e-01, 1.306494e-01, 1.316703e-01, 1.326862e-01, & ! + 1.336951e-01, 1.346950e-01, 1.356838e-01, 1.366594e-01, 1.376198e-01, & ! + 1.385629e-01, 1.394866e-01, 1.403889e-01, 1.412678e-01, 1.421212e-01, & ! + 1.429469e-01, 1.437430e-01, 1.445074e-01, 1.452381e-01, 1.459329e-01, & ! + 1.465899e-01, 1.472069e-01, 1.477819e-01, 1.483128e-01, 1.487976e-01, & ! + 1.492343e-01, 1.496207e-01, 1.499548e-01, 1.502346e-01, 1.504579e-01, & ! + 1.506227e-01, & ! + 1.153263e-01, 1.161445e-01, 1.169932e-01, 1.178703e-01, 1.187738e-01, & ! + 1.197016e-01, 1.206516e-01, 1.216217e-01, 1.226099e-01, 1.236141e-01, & ! + 1.246322e-01, 1.256621e-01, 1.267017e-01, 1.277491e-01, 1.288020e-01, & ! + 1.298584e-01, 1.309163e-01, 1.319736e-01, 1.330281e-01, 1.340778e-01, & ! + 1.351207e-01, 1.361546e-01, 1.371775e-01, 1.381873e-01, 1.391820e-01, & ! + 1.401593e-01, 1.411174e-01, 1.420540e-01, 1.429671e-01, 1.438547e-01, & ! + 1.447146e-01, 1.455449e-01, 1.463433e-01, 1.471078e-01, 1.478364e-01, & ! + 1.485270e-01, 1.491774e-01, 1.497857e-01, 1.503497e-01, 1.508674e-01, & ! + 1.513367e-01, 1.517554e-01, 1.521216e-01, 1.524332e-01, 1.526880e-01, & ! + 1.528840e-01, & ! + 1.160842e-01, 1.169118e-01, 1.177697e-01, 1.186556e-01, 1.195676e-01, & ! + 1.205036e-01, 1.214616e-01, 1.224394e-01, 1.234349e-01, 1.244463e-01, & ! + 1.254712e-01, 1.265078e-01, 1.275539e-01, 1.286075e-01, 1.296664e-01, & ! + 1.307287e-01, 1.317923e-01, 1.328550e-01, 1.339149e-01, 1.349699e-01, & ! + 1.360179e-01, 1.370567e-01, 1.380845e-01, 1.390991e-01, 1.400984e-01, & ! + 1.410803e-01, 1.420429e-01, 1.429840e-01, 1.439016e-01, 1.447936e-01, & ! + 1.456579e-01, 1.464925e-01, 1.472953e-01, 1.480642e-01, 1.487972e-01, & ! + 1.494923e-01, 1.501472e-01, 1.507601e-01, 1.513287e-01, 1.518511e-01, & ! + 1.523252e-01, 1.527489e-01, 1.531201e-01, 1.534368e-01, 1.536969e-01, & ! + 1.538984e-01, & ! + 1.168725e-01, 1.177088e-01, 1.185747e-01, 1.194680e-01, 1.203867e-01, & ! + 1.213288e-01, 1.222923e-01, 1.232750e-01, 1.242750e-01, 1.252903e-01, & ! + 1.263187e-01, 1.273583e-01, 1.284069e-01, 1.294626e-01, 1.305233e-01, & ! + 1.315870e-01, 1.326517e-01, 1.337152e-01, 1.347756e-01, 1.358308e-01, & ! + 1.368788e-01, 1.379175e-01, 1.389449e-01, 1.399590e-01, 1.409577e-01, & ! + 1.419389e-01, 1.429007e-01, 1.438410e-01, 1.447577e-01, 1.456488e-01, & ! + 1.465123e-01, 1.473461e-01, 1.481483e-01, 1.489166e-01, 1.496492e-01, & ! + 1.503439e-01, 1.509988e-01, 1.516118e-01, 1.521808e-01, 1.527038e-01, & ! + 1.531788e-01, 1.536037e-01, 1.539764e-01, 1.542951e-01, 1.545575e-01, & ! + 1.547617e-01, & ! + 1.180509e-01, 1.189025e-01, 1.197820e-01, 1.206875e-01, 1.216171e-01, & ! + 1.225687e-01, 1.235404e-01, 1.245303e-01, 1.255363e-01, 1.265564e-01, & ! + 1.275888e-01, 1.286313e-01, 1.296821e-01, 1.307392e-01, 1.318006e-01, & ! + 1.328643e-01, 1.339284e-01, 1.349908e-01, 1.360497e-01, 1.371029e-01, & ! + 1.381486e-01, 1.391848e-01, 1.402095e-01, 1.412208e-01, 1.422165e-01, & ! + 1.431949e-01, 1.441539e-01, 1.450915e-01, 1.460058e-01, 1.468947e-01, & ! + 1.477564e-01, 1.485888e-01, 1.493900e-01, 1.501580e-01, 1.508907e-01, & ! + 1.515864e-01, 1.522428e-01, 1.528582e-01, 1.534305e-01, 1.539578e-01, & ! + 1.544380e-01, 1.548692e-01, 1.552494e-01, 1.555767e-01, 1.558490e-01, & ! + 1.560645e-01, & ! + 1.200480e-01, 1.209267e-01, 1.218304e-01, 1.227575e-01, 1.237059e-01, & ! + 1.246739e-01, 1.256595e-01, 1.266610e-01, 1.276765e-01, 1.287041e-01, & ! + 1.297420e-01, 1.307883e-01, 1.318412e-01, 1.328988e-01, 1.339593e-01, & ! + 1.350207e-01, 1.360813e-01, 1.371393e-01, 1.381926e-01, 1.392396e-01, & ! + 1.402783e-01, 1.413069e-01, 1.423235e-01, 1.433263e-01, 1.443134e-01, & ! + 1.452830e-01, 1.462332e-01, 1.471622e-01, 1.480681e-01, 1.489490e-01, & ! + 1.498032e-01, 1.506286e-01, 1.514236e-01, 1.521863e-01, 1.529147e-01, & ! + 1.536070e-01, 1.542614e-01, 1.548761e-01, 1.554491e-01, 1.559787e-01, & ! + 1.564629e-01, 1.568999e-01, 1.572879e-01, 1.576249e-01, 1.579093e-01, & ! + 1.581390e-01, & ! + 1.247813e-01, 1.256496e-01, 1.265417e-01, 1.274560e-01, 1.283905e-01, & ! + 1.293436e-01, 1.303135e-01, 1.312983e-01, 1.322964e-01, 1.333060e-01, & ! + 1.343252e-01, 1.353523e-01, 1.363855e-01, 1.374231e-01, 1.384632e-01, & ! + 1.395042e-01, 1.405441e-01, 1.415813e-01, 1.426140e-01, 1.436404e-01, & ! + 1.446587e-01, 1.456672e-01, 1.466640e-01, 1.476475e-01, 1.486157e-01, & ! + 1.495671e-01, 1.504997e-01, 1.514117e-01, 1.523016e-01, 1.531673e-01, & ! + 1.540073e-01, 1.548197e-01, 1.556026e-01, 1.563545e-01, 1.570734e-01, & ! + 1.577576e-01, 1.584054e-01, 1.590149e-01, 1.595843e-01, 1.601120e-01, & ! + 1.605962e-01, 1.610349e-01, 1.614266e-01, 1.617693e-01, 1.620614e-01, & ! + 1.623011e-01, & ! + 1.006055e-01, 9.549582e-02, 9.063960e-02, 8.602900e-02, 8.165612e-02, & ! + 7.751308e-02, 7.359199e-02, 6.988496e-02, 6.638412e-02, 6.308156e-02, & ! + 5.996942e-02, 5.703979e-02, 5.428481e-02, 5.169657e-02, 4.926719e-02, & ! + 4.698880e-02, 4.485349e-02, 4.285339e-02, 4.098061e-02, 3.922727e-02, & ! + 3.758547e-02, 3.604733e-02, 3.460497e-02, 3.325051e-02, 3.197604e-02, & ! + 3.077369e-02, 2.963558e-02, 2.855381e-02, 2.752050e-02, 2.652776e-02, & ! + 2.556772e-02, 2.463247e-02, 2.371415e-02, 2.280485e-02, 2.189670e-02, & ! + 2.098180e-02, 2.005228e-02, 1.910024e-02, 1.811781e-02, 1.709709e-02, & ! + 1.603020e-02, 1.490925e-02, 1.372635e-02, 1.247363e-02, 1.114319e-02, & ! + 9.727157e-03/), & ! + shape = (/46,nBandsSW_RRTMG/)) + + + + real(kind_phys),dimension(5) :: & + abari = (/ 3.448e-03,3.448e-03,3.448e-03,3.448e-03,3.448e-03 /), & + bbari = (/ 2.431e+00,2.431e+00,2.431e+00,2.431e+00,2.431e+00 /), & + cbari = (/ 1.000e-05,1.100e-04,1.240e-02,3.779e-02,4.666e-01 /), & + dbari = (/ 0.000e+00,1.405e-05,6.867e-04,1.284e-03,2.050e-05 /), & + ebari = (/ 7.661e-01,7.730e-01,7.865e-01,8.172e-01,9.595e-01 /), & + fbari = (/ 5.851e-04,5.665e-04,7.204e-04,7.463e-04,1.076e-04 /) + + ! ipat is bands index for ebert & curry ice cloud (for iflagice=1) + integer,dimension(nBandsSW_RRTMG),parameter :: & + ipat = (/ 5, 5, 4, 4, 3, 3, 2, 2, 1, 1, 1, 1, 1, 5 /) + +contains + ! ######################################################################################### + ! rrtmg_sw_cloud_optics + ! ######################################################################################### + subroutine rrtmg_sw_cloud_optics(ncol, nlay, nBandsSW, cld_lwp, cld_ref_liq, cld_iwp, & + cld_ref_ice, cld_rwp, cld_ref_rain, cld_swp, cld_ref_snow, cld_frac, & + tau_cld, ssa_cld, asy_cld) + ! Inputs + integer,intent(in) :: & + nBandsSW, & ! Number of spectral bands + ncol, & ! Number of horizontal gridpoints + nlay ! Number of vertical layers + real(kind_phys), dimension(ncol,nlay), intent(in) :: & + cld_frac, & ! Cloud-fraction (1) + cld_lwp, & ! Cloud liquid water path (g/m2) + cld_ref_liq, & ! Effective radius (liquid) (micron) + cld_iwp, & ! Cloud ice water path (g/m2) + cld_ref_ice, & ! Effective radius (ice) (micron) + cld_rwp, & ! Cloud rain water path (g/m2) + cld_ref_rain, & ! Effective radius (rain-drop) (micron) + cld_swp, & ! Cloud snow-water path (g/m2) + cld_ref_snow ! Effective radius (snow-flake) (micron) + + ! Outputs + real(kind_phys),dimension(ncol,nlay,nBandsSW),intent(out) :: & + tau_cld, & ! In-cloud optical depth (1) + ssa_cld, & ! In-cloud single-scattering albedo (1) + asy_cld ! In-cloud asymmetry parameter (1) + + ! Local variables + integer :: iCol, iLay, iBand, index, ia + real(kind_phys) :: tau_rain, tau_snow, factor, fint, cld_ref_iceTemp,asyw,ssaw,za1,za2 + + real(kind_phys), dimension(nBandsSW) :: ssa_rain, ssa_snow, asy_rain, asy_snow, & + tau_liq, ssa_liq, asy_liq, tau_ice, ssa_ice, asy_ice, asycoliq, & + forwice, extcoice, asycoice, ssacoice, fdelta, extcoliq, ssacoliq + + ! Initialize + tau_cld(:,:,:) = 0._kind_phys + ssa_cld(:,:,:) = 1._kind_phys + asy_cld(:,:,:) = 0._kind_phys + + ! Compute cloud radiative properties for cloud. + if (iswcliq > 0) then + do iCol=1,ncol + do iLay=1,nlay + ! Initialize + tau_liq(:) = 0._kind_phys + tau_ice(:) = 0._kind_phys + tau_rain = 0._kind_phys + tau_snow = 0._kind_phys + ssa_liq(:) = 0._kind_phys + ssa_ice(:) = 0._kind_phys + ssa_rain(:) = 0._kind_phys + ssa_snow(:) = 0._kind_phys + asy_liq(:) = 0._kind_phys + asy_ice(:) = 0._kind_phys + asy_rain(:) = 0._kind_phys + asy_snow(:) = 0._kind_phys + if (cld_frac(iCol,iLay) .gt. 1.e-12_kind_phys) then + ! ########################################################################### + ! Rain clouds + ! ########################################################################### + ! Rain optical depth (No band dependence) + tau_rain = cld_rwp(iCol,iLay)*a0r + + ! Rain single-scattering albedo and asymmetry (Band dependent) + do iBand=1,nBandsSW + ssa_rain(iBand) = tau_rain*(1.-b0r(iBand)) + asy_rain(iBand) = ssa_rain(iBand)*c0r(iBand) + enddo + + ! ########################################################################### + ! Snow clouds + ! ########################################################################### + ! Snow optical depth (No band dependence) + if (cld_swp(iCol,iLay) .gt. 0. .and. cld_ref_snow(iCol,iLay) .gt. 10._kind_phys) then + tau_snow = cld_swp(iCol,iLay) + else + tau_snow = 0._kind_phys + endif + + ! Snow single-scattering albedo and asymmetry (Band dependent) + do iBand=1,nBandsSW + ssa_snow(iBand) = tau_snow*(1.-(b0s(iBand)+b1s(iBand)*1.0315*cld_ref_snow(iCol,iLay))) + asy_snow(iBand) = ssa_snow(iBand)*c0s(iBand) + enddo + + ! ########################################################################### + ! Liquid clouds + ! ########################################################################### + if (cld_lwp(iCol,iLay) .gt. 0) then + ! Find index in coefficient LUT for corresponding partice size. + factor = cld_ref_liq(iCol,iLay) - 1.5 + index = max( 1, min( 57, int( factor ) )) + fint = factor - float(index) + + ! Extract coefficents for all bands and compute radiative properties + do iBand=1,nBandsSW + ! Interpolate coefficients + if ( iswcliq == 1 ) then + extcoliq(iBand) = max(0._kind_phys, extliq1(index,iBand) + & + fint*(extliq1(index+1,iBand)-extliq1(index,iBand))) + ssacoliq(iBand) = max(0._kind_phys, min(1._kind_phys, ssaliq1(index,iBand) + & + fint*(ssaliq1(index+1,iBand)-ssaliq1(index,iBand)))) + asycoliq(iBand) = max(0._kind_phys, min(1._kind_phys, asyliq1(index,iBand) + & + fint*(asyliq1(index+1,iBand)-asyliq1(index,iBand)))) + elseif ( iswcliq == 2 ) then ! use updated coeffs + extcoliq(iBand) = max(0._kind_phys, extliq2(index,iBand) + & + fint*(extliq2(index+1,iBand)-extliq2(index,iBand))) + ssacoliq(iBand) = max(0._kind_phys, min(1._kind_phys, ssaliq2(index,iBand) + & + fint*(ssaliq2(index+1,iBand)-ssaliq2(index,iBand)))) + asycoliq(iBand) = max(0._kind_phys, min(1._kind_phys, asyliq2(index,iBand) + & + fint*(asyliq2(index+1,iBand)-asyliq2(index,iBand)))) + endif + if (fint .lt. 0._kind_phys .and. ssacoliq(iBand) .gt. 1._kind_phys) then + ssacoliq(iBand) = ssaliq1(index,iBand) + endif + tau_liq(iBand) = cld_lwp(iCol,iLay) * extcoliq(iBand) + ssa_liq(iBand) = tau_liq(iBand) * ssacoliq(iBand) + asy_liq(iBand) = ssa_liq(iBand) * asycoliq(iBand) + enddo + endif ! IF cloudy with liquid condensate + + ! ########################################################################### + ! Ice clouds + ! ########################################################################### + if (cld_iwp(iCol,iLay) .gt. 0) then + ! Ebert and curry approach for all particle sizes though somewhat + ! unjustified for large ice particles. + if ( iswcice == 1 ) then + cld_ref_iceTemp = min(130._kind_phys, max(13._kind_phys,cld_ref_ice(iCol,iLay))) + do iBand=1,nBandsSW + ia = ipat(iBand) ! eb_&_c band index for ice cloud coeff + extcoice(iBand) = abari(ia) + bbari(ia) / cld_ref_iceTemp + ssacoice(iBand) = 1._kind_phys - cbari(ia) - dbari(ia)*cld_ref_iceTemp + asycoice(iBand) = ebari(ia)+fbari(ia)*cld_ref_iceTemp + tau_ice(iBand) = cld_iwp(iCol,iLay) * extcoice(iBand) + ssa_ice(iBand) = tau_ice(iBand) * ssacoice(iBand) + asy_ice(iBand) = ssa_ice(iBand) * asycoice(iBand) + enddo + + ! Streamer approach for ice effective radius between 5.0 and 131.0 microns. + elseif ( iswcice == 2 ) then + cld_ref_iceTemp = min(131._kind_phys, max(5.0_kind_phys,cld_ref_ice(iCol,iLay))) + factor = (cld_ref_iceTemp - 2.) / 3. + index = max( 1, min( 42, int( factor ) )) + fint = factor - float(index) + do iBand = 1,nBandsSW + extcoice(iBand) = extice2(index,iBand) + & + fint*(extice2(index+1,iBand)-extice2(index,iBand)) + ssacoice(iBand) = ssaice2(index,iBand) + & + fint*(ssaice2(index+1,iBand)-ssaice2(index,iBand)) + asycoice(iBand) = asyice2(index,iBand) + & + fint*(asyice2(index+1,iBand)-asyice2(index,iBand)) + tau_ice(iBand) = cld_iwp(iCol,iLay) * extcoice(iBand) + ssa_ice(iBand) = tau_ice(iBand) * ssacoice(iBand) + asy_ice(iBand) = ssa_ice(iBand) * asycoice(iBand) + enddo + + ! Fu's approach for ice effective radius between 4.8 and 135 microns + ! (generalized effective size from 5 to 140 microns). + ! https://doi.org/10.1175/1520-0442(1996)009<2058:AAPOTS>2.0.CO;2 + elseif ( iswcice == 3 ) then + cld_ref_iceTemp = max( 5.0, min( 140.0, 1.0315*cld_ref_ice(iCol,iLay) )) + ! Determine indices for table interpolation. + factor = (cld_ref_iceTemp - 2._kind_phys) / 3._kind_phys + index = max( 1, min( 45, int( factor ) )) + fint = factor - float(index) + do iBand = 1,nBandsSW + ! Interpolate coefficient tables to appropriate ice-particle size. + extcoice(iBand) = max(0._kind_phys, extice3(index,iBand) + & + fint*(extice3(index+1,iBand)-extice3(index,iBand))) ! eq (3.9a) + ssacoice(iBand) = max(0._kind_phys, min(1._kind_phys, ssaice3(index,iBand) + & + fint*(ssaice3(index+1,iBand)-ssaice3(index,iBand)))) ! eq (3.9b) + asycoice(iBand) = max(0._kind_phys, min(1._kind_phys, asyice3(index,iBand) + & + fint*(asyice3(index+1,iBand)-asyice3(index,iBand)))) ! eq (3.9c) + fdelta(iBand) = fdlice3(index,iBand) + & + fint*(fdlice3(index+1,iBand)-fdlice3(index,iBand)) ! eq (3.9d) + forwice(iBand) = fdelta(iBand) + 0.5_kind_phys / ssacoice(iBand) + if (forwice(iBand) .gt. asycoice(iBand)) forwice(iBand) = asycoice(iBand) + tau_ice(iBand) = cld_iwp(iCol,iLay) * extcoice(iBand) + ssa_ice(iBand) = tau_ice(iBand) * ssacoice(iBand) + asy_ice(iBand) = ssa_ice(iBand) * asycoice(iBand) + enddo + endif + endif ! IF cloudy column with ice condensate + endif ! IF cloudy column + + ! ########################################################################### + ! Compute total cloud radiative properties (tau, omega, and g) + ! ########################################################################### + if (cld_frac(iCol,iLay) .gt. 1.e-12_kind_phys) then + do iBand = 1,nBandsSW + ! Sum up radiative properties by type. + tau_cld(iCol,iLay,iBand) = max(1.e-12_kind_phys, tau_liq(iBand) + tau_ice(iBand) + tau_rain + tau_snow) + ssa_cld(iCol,iLay,iBand) = max(1.e-12_kind_phys, ssa_liq(iBand) + ssa_ice(iBand) + ssa_rain(iBand) + ssa_snow(iBand)) + asy_cld(iCol,iLay,iBand) = max(1.e-12_kind_phys, asy_liq(iBand) + asy_ice(iBand) + asy_rain(iBand) + asy_snow(iBand)) + ! Delta-scale + asyw = asy_cld(iCol,iLay,iBand)/max(1.e-12_kind_phys, ssa_cld(iCol,iLay,iBand)) + ssaw = min(1._kind_phys-0.000001, ssa_cld(iCol,iLay,iBand)/tau_cld(iCol,iLay,iBand)) + za1 = asyw * asyw + za2 = ssaw * za1 + tau_cld(iCol,iLay,iBand) = (1._kind_phys - za2) * tau_cld(iCol,iLay,iBand) + ssa_cld(iCol,iLay,iBand) = (ssaw - za2) / (1._kind_phys - za2) + asy_cld(iCol,iLay,iBand) = asyw/(1+asyw) + enddo ! Loop over SW bands + endif ! END sum cloudy properties + ! + enddo ! Loop over layers + enddo ! Loop over columns + endif + end subroutine rrtmg_sw_cloud_optics + + ! ####################################################################################### + ! SUBROUTINE mcica_subcol_sw + ! ###################################################################################### + subroutine mcica_subcol_sw(ncol, nlay, ngpts, cld_frac, icseed, dzlyr, de_lgth, & + cld_frac_mcica) + ! Inputs + integer,intent(in) :: & + ncol, & ! Number of horizontal gridpoints + nlay, & ! Number of vertical layers + ngpts ! Number of spectral g-points + integer,dimension(ncol),intent(in) :: & + icseed ! Permutation seed for each column. + real(kind_phys), dimension(ncol), intent(in) :: & + de_lgth ! Cloud decorrelation length (km) + real(kind_phys), dimension(ncol,nlay), intent(in) :: & + cld_frac, & ! Cloud-fraction + dzlyr ! Layer thinkness (km) + ! Outputs + logical,dimension(ncol,nlay,ngpts),intent(out) :: & + cld_frac_mcica + ! Local variables + type(random_stat) :: stat + integer :: icol,n,k,k1 + real(kind_phys) :: tem1 + real(kind_phys),dimension(ngpts) :: rand1D + real(kind_phys),dimension(nlay*ngpts) :: rand2D + real(kind_phys),dimension(ngpts,nlay) :: cdfunc,cdfun2 + real(kind_phys),dimension(nlay) :: fac_lcf + logical,dimension(ngpts,nlay) :: lcloudy + + ! Loop over all columns + do icol=1,ncol + ! Call random_setseed() to advance random number generator by "icseed" values. + call random_setseed(icseed(icol),stat) + + ! ################################################################################### + ! Sub-column set up according to overlapping assumption: + ! - For random overlap, pick a random value at every level + ! - For max-random overlap, pick a random value at every level + ! - For maximum overlap, pick same random numebr at every level + ! ################################################################################### + select case ( iovrsw ) + ! ################################################################################### + ! 0) Random overlap + ! ################################################################################### + case( 0 ) + call random_number(rand2D,stat) + k1 = 0 + do n = 1, ngpts + do k = 1, nlay + k1 = k1 + 1 + cdfunc(n,k) = rand2d(k1) + enddo + enddo + + ! ################################################################################### + ! 1) Maximum-random overlap + ! ################################################################################### + case(1) + call random_number(rand2D,stat) + k1 = 0 + do n = 1, ngpts + do k = 1, nlay + k1 = k1 + 1 + cdfunc(n,k) = rand2d(k1) + enddo + enddo + + ! First pick a random number for bottom (or top) layer. + ! then walk up the column: (aer's code) + ! if layer below is cloudy, use the same rand num in the layer below + ! if layer below is clear, use a new random number + do k = 2, nlay + k1 = k - 1 + tem1 = 1._kind_phys - cld_frac(icol,k1) + do n = 1, ngpts + if ( cdfunc(n,k1) > tem1 ) then + cdfunc(n,k) = cdfunc(n,k1) + else + cdfunc(n,k) = cdfunc(n,k) * tem1 + endif + enddo + enddo + + ! ################################################################################### + ! 2) Maximum overlap + ! ################################################################################### + case(2) + call random_number(rand1d,stat) + do n = 1, ngpts + tem1 = rand1d(n) + do k = 1, nlay + cdfunc(n,k) = tem1 + enddo + enddo + + ! ################################################################################### + ! 3) Decorrelation length + ! ################################################################################### + case(3) + ! Compute overlapping factors based on layer midpoint distances and decorrelation + ! depths + do k = nlay, 2, -1 + fac_lcf(k) = exp( -0.5 * (dzlyr(iCol,k)+dzlyr(iCol,k-1)) / de_lgth(iCol) ) + enddo + + ! Setup 2 sets of random numbers + call random_number ( rand2d, stat ) + k1 = 0 + do k = 1, nlay + do n = 1, ngpts + k1 = k1 + 1 + cdfunc(n,k) = rand2d(k1) + enddo + enddo + ! + call random_number ( rand2d, stat ) + k1 = 0 + do k = 1, nlay + do n = 1, ngpts + k1 = k1 + 1 + cdfun2(n,k) = rand2d(k1) + enddo + enddo + + ! Then working from the top down: + ! if a random number (from an independent set -cdfun2) is smaller then the + ! scale factor: use the upper layer's number, otherwise use a new random + ! number (keep the original assigned one). + do k = nlay-1, 1, -1 + k1 = k + 1 + do n = 1, ngpts + if ( cdfun2(n,k) <= fac_lcf(k1) ) then + cdfunc(n,k) = cdfunc(n,k1) + endif + enddo + enddo + + end select + + ! ################################################################################### + ! Generate subcolumn cloud mask (0/1 for clear/cloudy) + ! ################################################################################### + do k = 1, nlay + tem1 = 1._kind_phys - cld_frac(icol,k) + do n = 1, ngpts + lcloudy(n,k) = cdfunc(n,k) >= tem1 + if (lcloudy(n,k)) then + cld_frac_mcica(icol,k,n) = .true. + else + cld_frac_mcica(icol,k,n) = .false. + endif + enddo + enddo + enddo ! END LOOP OVER COLUMNS + end subroutine mcica_subcol_sw +end module mo_rrtmg_sw_cloud_optics diff --git a/physics/rrtmgp_aux.F90 b/physics/rrtmgp_aux.F90 new file mode 100644 index 000000000..0ee837b97 --- /dev/null +++ b/physics/rrtmgp_aux.F90 @@ -0,0 +1,33 @@ +module rrtmgp_aux + use machine, only: & + kind_phys ! Working type + implicit none + + real(kind_phys) :: & + rrtmgp_minP, & ! Minimum pressure allowed in RRTMGP + rrtmgp_minT ! Minimum temperature allowed in RRTMGP +contains + ! + subroutine rrtmgp_aux_init() + end subroutine rrtmgp_aux_init + ! + subroutine rrtmgp_aux_run() + end subroutine rrtmgp_aux_run + ! + subroutine rrtmgp_aux_finalize() + end subroutine rrtmgp_aux_finalize + + ! ######################################################################################### + ! SUBROUTINE check_error_msg + ! ######################################################################################### + subroutine check_error_msg(routine_name, error_msg) + character(len=*), intent(in) :: & + error_msg, routine_name + + if(error_msg /= "") then + print*,"ERROR("//trim(routine_name)//"): " + print*,trim(error_msg) + return + end if + end subroutine check_error_msg +end module rrtmgp_aux diff --git a/physics/rrtmgp_lw_aerosol_optics.F90 b/physics/rrtmgp_lw_aerosol_optics.F90 new file mode 100644 index 000000000..a77b00759 --- /dev/null +++ b/physics/rrtmgp_lw_aerosol_optics.F90 @@ -0,0 +1,97 @@ +module rrtmgp_lw_aerosol_optics + use machine, only: kind_phys + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use mo_optical_props, only: ty_optical_props_1scl + use rrtmgp_aux, only: check_error_msg + use module_radiation_aerosols, only: & + NF_AESW, & ! Number of optical-fields in SW output (3=tau+g+omega) + NF_AELW, & ! Number of optical-fields in LW output (3=tau+g+omega) + setaer, & ! Routine to compute aerosol radiative properties (tau,g,omega) + NSPC1 ! Number of species for vertically integrated aerosol optical-depth + use netcdf + + public rrtmgp_lw_aerosol_optics_init, rrtmgp_lw_aerosol_optics_run, rrtmgp_lw_aerosol_optics_finalize +contains + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_aerosol_optics_init() + ! ######################################################################################### + subroutine rrtmgp_lw_aerosol_optics_init() + end subroutine rrtmgp_lw_aerosol_optics_init + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_aerosol_optics_run() + ! ######################################################################################### +!! \section arg_table_rrtmgp_lw_aerosol_optics_run +!! \htmlinclude rrtmgp_lw_aerosol_optics.html +!! + subroutine rrtmgp_lw_aerosol_optics_run(doLWrad, nCol, nLev, nTracer, p_lev, p_lay, p_lk, & + tv_lay, relhum, lsmask, tracer, lon, lat, lw_gas_props, sw_gas_props, & + aerodp, lw_optical_props_aerosol, errmsg, errflg) + + ! Inputs + logical, intent(in) :: & + doLWrad ! Logical flag for longwave radiation call + integer, intent(in) :: & + nCol, & ! Number of horizontal grid points + nLev, & ! Number of vertical layers + nTracer ! Number of tracers + real(kind_phys), dimension(nCol), intent(in) :: & + lon, & ! Longitude + lat, & ! Latitude + lsmask ! Land/sea/sea-ice mask + real(kind_phys), dimension(nCol,Nlev),intent(in) :: & + p_lay, & ! Pressure @ layer-centers (Pa) + tv_lay, & ! Virtual-temperature @ layer-centers (K) + relhum, & ! Relative-humidity @ layer-centers + p_lk ! Exner function @ layer-centers (1) + real(kind_phys), dimension(nCol, nLev, nTracer),intent(in) :: & + tracer ! trace gas concentrations + real(kind_phys), dimension(nCol,nLev+1),intent(in) :: & + p_lev ! Pressure @ layer-interfaces (Pa) + type(ty_gas_optics_rrtmgp),intent(in) :: & + sw_gas_props ! RRTMGP DDT: spectral information for SW calculation + type(ty_gas_optics_rrtmgp),intent(in) :: & + lw_gas_props ! RRTMGP DDT: spectral information for LW calculation + + ! Outputs + real(kind_phys), dimension(nCol,NSPC1), intent(inout) :: & + aerodp ! Vertical integrated optical depth for various aerosol species + type(ty_optical_props_1scl),intent(out) :: & + lw_optical_props_aerosol ! RRTMGP DDT: Longwave aerosol optical properties (tau) + integer, intent(out) :: & + errflg ! CCPP error flag + character(len=*), intent(out) :: & + errmsg ! CCPP error message + + ! Local variables + real(kind_phys), dimension(nCol, nLev, lw_gas_props%get_nband(), NF_AELW) :: & + aerosolslw ! + real(kind_phys), dimension(nCol, nLev, sw_gas_props%get_nband(), NF_AESW) :: & + aerosolssw + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. doLWrad) return + + ! Call module_radiation_aerosols::setaer(),to setup aerosols property profile + call setaer(p_lev, p_lay, p_lk, tv_lay, relhum, lsmask, tracer, lon, lat, ncol, nLev, & + nLev+1, .true., .true., aerosolssw, aerosolslw, aerodp) + + ! Allocate RRTMGP DDT: Aerosol optics [nCol,nlev,nBands] + call check_error_msg('rrtmgp_lw_aerosol_optics_run',lw_optical_props_aerosol%alloc_1scl( & + ncol, nlev, lw_gas_props%get_band_lims_wavenumber())) + + ! Copy aerosol optical information to RRTMGP DDT + lw_optical_props_aerosol%tau = aerosolslw(:,:,:,1) * (1. - aerosolslw(:,:,:,2)) + + end subroutine rrtmgp_lw_aerosol_optics_run + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_aerosol_optics_finalize() + ! ######################################################################################### + subroutine rrtmgp_lw_aerosol_optics_finalize() + end subroutine rrtmgp_lw_aerosol_optics_finalize +end module rrtmgp_lw_aerosol_optics diff --git a/physics/rrtmgp_lw_aerosol_optics.meta b/physics/rrtmgp_lw_aerosol_optics.meta new file mode 100644 index 000000000..ea123e236 --- /dev/null +++ b/physics/rrtmgp_lw_aerosol_optics.meta @@ -0,0 +1,166 @@ +[ccpp-arg-table] + name = rrtmgp_lw_aerosol_optics_run + type = scheme +[doLWrad] + standard_name = flag_to_calc_lw + long_name = logical flags for lw radiation calls + units = flag + dimensions = () + type = logical + intent = in + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[nLev] + standard_name = vertical_dimension + long_name = number of vertical levels + units = count + dimensions = () + type = integer + intent = in + optional = F +[nTracer] + standard_name = number_of_tracers + long_name = number of tracers + units = count + dimensions = () + type = integer + intent = in + optional = F +[p_lev] + standard_name = air_pressure_at_interface_for_RRTMGP_in_hPa + long_name = air pressure at vertical interface for radiation calculation + units = hPa + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[p_lay] + standard_name = air_pressure_at_layer_for_RRTMGP_in_hPa + long_name = air pressure at vertical layer for radiation calculation + units = hPa + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[p_lk] + standard_name = dimensionless_exner_function_at_model_layers + long_name = dimensionless Exner function at model layer centers + units = none + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[tv_lay] + standard_name = virtual_temperature + long_name = layer virtual temperature + units = K + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[relhum] + standard_name = relative_humidity + long_name = layer relative humidity + units = frac + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[lsmask] + standard_name = sea_land_ice_mask_real + long_name = landmask: sea/land/ice=0/1/2 + units = flag + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[tracer] + standard_name = chemical_tracers + long_name = chemical tracers + units = g g-1 + dimensions = (horizontal_dimension,vertical_dimension,number_of_tracers) + type = real + kind = kind_phys + intent = in + optional = F +[lon] + standard_name = longitude + long_name = longitude + units = radians + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[lat] + standard_name = latitude + long_name = latitude + units = radians + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[lw_gas_props] + standard_name = coefficients_for_lw_gas_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + intent = in + type = ty_gas_optics_rrtmgp + optional = F +[sw_gas_props] + standard_name = coefficients_for_sw_gas_optics + long_name = DDT containing spectral information for RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[aerodp] + standard_name = atmosphere_optical_thickness_due_to_ambient_aerosol_particles + long_name = vertical integrated optical depth for various aerosol species + units = none + dimensions = (horizontal_dimension,number_of_species_for_aerosol_optical_depth) + type = real + kind = kind_phys + intent = inout + optional = F +[lw_optical_props_aerosol] + standard_name = longwave_optical_properties_for_aerosols + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_1scl + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F \ No newline at end of file diff --git a/physics/rrtmgp_lw_cloud_optics.F90 b/physics/rrtmgp_lw_cloud_optics.F90 new file mode 100644 index 000000000..f9ee9b987 --- /dev/null +++ b/physics/rrtmgp_lw_cloud_optics.F90 @@ -0,0 +1,374 @@ +module rrtmgp_lw_cloud_optics + use machine, only: kind_phys + use mo_rte_kind, only: wl + use mo_cloud_optics, only: ty_cloud_optics + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use mo_optical_props, only: ty_optical_props_1scl + use mo_rrtmg_lw_cloud_optics, only: rrtmg_lw_cloud_optics + use rrtmgp_aux, only: check_error_msg + use netcdf + + public rrtmgp_lw_cloud_optics_init, rrtmgp_lw_cloud_optics_run, rrtmgp_lw_cloud_optics_finalize +contains + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_cloud_optics_init() + ! ######################################################################################### +!! \section arg_table_rrtmgp_lw_cloud_optics_init +!! \htmlinclude rrtmgp_lw_cloud_optics.html +!! + subroutine rrtmgp_lw_cloud_optics_init(cld_optics_scheme, nrghice, rrtmgp_root_dir, & + rrtmgp_lw_file_clouds, mpicomm, mpirank, mpiroot, lw_cloud_props, errmsg, errflg) + + ! Inputs + integer, intent(inout) :: & + nrghice ! Number of ice-roughness categories + integer, intent(in) :: & + cld_optics_scheme, & ! Cloud-optics scheme + mpicomm, & ! MPI communicator + mpirank, & ! Current MPI rank + mpiroot ! Master MPI rank + character(len=128),intent(in) :: & + rrtmgp_root_dir, & ! RTE-RRTMGP root directory + rrtmgp_lw_file_clouds ! RRTMGP file containing coefficients used to compute clouds optical properties + + ! Outputs + type(ty_cloud_optics),intent(out) :: & + lw_cloud_props ! RRTMGP DDT: spectral information for RRTMGP LW radiation scheme + character(len=*), intent(out) :: & + errmsg ! Error message + integer, intent(out) :: & + errflg ! Error code + + ! Variables that will be passed to cloud_optics%load() + ! cld_optics_scheme = 1 + real(kind_phys) :: & + radliq_lwr, & ! Liquid particle size lower bound for LUT interpolation + radliq_upr, & ! Liquid particle size upper bound for LUT interpolation + radliq_fac, & ! Factor for calculating LUT interpolation indices for liquid + radice_lwr, & ! Ice particle size upper bound for LUT interpolation + radice_upr, & ! Ice particle size lower bound for LUT interpolation + radice_fac ! Factor for calculating LUT interpolation indices for ice + real(kind_phys), dimension(:,:), allocatable :: & + lut_extliq, & ! LUT shortwave liquid extinction coefficient + lut_ssaliq, & ! LUT shortwave liquid single scattering albedo + lut_asyliq, & ! LUT shortwave liquid asymmetry parameter + band_lims ! Beginning and ending wavenumber [cm -1] for each band + real(kind_phys), dimension(:,:,:), allocatable :: & + lut_extice, & ! LUT shortwave ice extinction coefficient + lut_ssaice, & ! LUT shortwave ice single scattering albedo + lut_asyice ! LUT shortwave ice asymmetry parameter + ! cld_optics_scheme = 2 + real(kind_phys), dimension(:), allocatable :: & + pade_sizereg_extliq, & ! Particle size regime boundaries for shortwave liquid extinction + ! coefficient for Pade interpolation + pade_sizereg_ssaliq, & ! Particle size regime boundaries for shortwave liquid single + ! scattering albedo for Pade interpolation + pade_sizereg_asyliq, & ! Particle size regime boundaries for shortwave liquid asymmetry + ! parameter for Pade interpolation + pade_sizereg_extice, & ! Particle size regime boundaries for shortwave ice extinction + ! coefficient for Pade interpolation + pade_sizereg_ssaice, & ! Particle size regime boundaries for shortwave ice single + ! scattering albedo for Pade interpolation + pade_sizereg_asyice ! Particle size regime boundaries for shortwave ice asymmetry + ! parameter for Pade interpolation + real(kind_phys), dimension(:,:,:), allocatable :: & + pade_extliq, & ! PADE coefficients for shortwave liquid extinction + pade_ssaliq, & ! PADE coefficients for shortwave liquid single scattering albedo + pade_asyliq ! PADE coefficients for shortwave liquid asymmetry parameter + real(kind_phys), dimension(:,:,:,:), allocatable :: & + pade_extice, & ! PADE coefficients for shortwave ice extinction + pade_ssaice, & ! PADE coefficients for shortwave ice single scattering albedo + pade_asyice ! PADE coefficients for shortwave ice asymmetry parameter + ! Dimensions + integer :: & + nrghice_fromfile, nBand, nSize_liq, nSize_ice, nSizeReg,& + nCoeff_ext, nCoeff_ssa_g, nBound, npairs + + ! Local variables + integer :: dimID,varID,status,ncid + character(len=264) :: lw_cloud_props_file + integer,parameter :: max_strlen=256, nrghice_default=2 + + ! Initialize + errmsg = '' + errflg = 0 + + if (cld_optics_scheme .eq. 0) return + + ! Filenames are set in the physics_nml + lw_cloud_props_file = trim(rrtmgp_root_dir)//trim(rrtmgp_lw_file_clouds) + + ! On master processor only... +! if (mpirank .eq. mpiroot) then + ! Open file + status = nf90_open(trim(lw_cloud_props_file), NF90_WRITE, ncid) + + ! Read dimensions + status = nf90_inq_dimid(ncid, 'nband', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nBand) + status = nf90_inq_dimid(ncid, 'nrghice', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nrghice_fromfile) + status = nf90_inq_dimid(ncid, 'nsize_liq', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nSize_liq) + status = nf90_inq_dimid(ncid, 'nsize_ice', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nSize_ice) + status = nf90_inq_dimid(ncid, 'nsizereg', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nSizeReg) + status = nf90_inq_dimid(ncid, 'ncoeff_ext', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nCoeff_ext) + status = nf90_inq_dimid(ncid, 'ncoeff_ssa_g', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nCoeff_ssa_g) + status = nf90_inq_dimid(ncid, 'nbound', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nBound) + status = nf90_inq_dimid(ncid, 'pair', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=npairs) + status = nf90_close(ncid) + + ! Has the number of ice-roughnesses to use been provided from the namelist? + ! If not provided, use default number of ice-roughness categories + if (nrghice .eq. 0) then + nrghice = nrghice_default + else + nrghice = nrghice_fromfile + ! If provided in the namelist, check to ensure that number of ice-roughness categories is feasible. + if (nrghice .gt. nrghice_fromfile) then + errmsg = 'Number of RRTMGP ice-roughness categories requested in namelist file is not allowed. Using default number of categories.' + nrghice = nrghice_default + endif + endif + + ! Allocate space for arrays + if (cld_optics_scheme .eq. 1) then + allocate(lut_extliq(nSize_liq, nBand)) + allocate(lut_ssaliq(nSize_liq, nBand)) + allocate(lut_asyliq(nSize_liq, nBand)) + allocate(lut_extice(nSize_ice, nBand, nrghice_fromfile)) + allocate(lut_ssaice(nSize_ice, nBand, nrghice_fromfile)) + allocate(lut_asyice(nSize_ice, nBand, nrghice_fromfile)) + endif + if (cld_optics_scheme .eq. 2) then + allocate(pade_extliq(nBand, nSizeReg, nCoeff_ext )) + allocate(pade_ssaliq(nBand, nSizeReg, nCoeff_ssa_g)) + allocate(pade_asyliq(nBand, nSizeReg, nCoeff_ssa_g)) + allocate(pade_extice(nBand, nSizeReg, nCoeff_ext, nrghice_fromfile)) + allocate(pade_ssaice(nBand, nSizeReg, nCoeff_ssa_g, nrghice_fromfile)) + allocate(pade_asyice(nBand, nSizeReg, nCoeff_ssa_g, nrghice_fromfile)) + allocate(pade_sizereg_extliq(nBound)) + allocate(pade_sizereg_ssaliq(nBound)) + allocate(pade_sizereg_asyliq(nBound)) + allocate(pade_sizereg_extice(nBound)) + allocate(pade_sizereg_ssaice(nBound)) + allocate(pade_sizereg_asyice(nBound)) + endif + allocate(band_lims(2,nBand)) + + ! Read in fields from file + if (cld_optics_scheme .eq. 1) then + write (*,*) 'Reading RRTMGP longwave cloud data (LUT) ... ' + status = nf90_inq_varid(ncid,'radliq_lwr',varID) + status = nf90_get_var(ncid,varID,radliq_lwr) + status = nf90_inq_varid(ncid,'radliq_upr',varID) + status = nf90_get_var(ncid,varID,radliq_upr) + status = nf90_inq_varid(ncid,'radliq_fac',varID) + status = nf90_get_var(ncid,varID,radliq_fac) + status = nf90_inq_varid(ncid,'radice_lwr',varID) + status = nf90_get_var(ncid,varID,radice_lwr) + status = nf90_inq_varid(ncid,'radice_upr',varID) + status = nf90_get_var(ncid,varID,radice_upr) + status = nf90_inq_varid(ncid,'radice_fac',varID) + status = nf90_get_var(ncid,varID,radice_fac) + status = nf90_inq_varid(ncid,'lut_extliq',varID) + status = nf90_get_var(ncid,varID,lut_extliq) + status = nf90_inq_varid(ncid,'lut_ssaliq',varID) + status = nf90_get_var(ncid,varID,lut_ssaliq) + status = nf90_inq_varid(ncid,'lut_asyliq',varID) + status = nf90_get_var(ncid,varID,lut_asyliq) + status = nf90_inq_varid(ncid,'lut_extice',varID) + status = nf90_get_var(ncid,varID,lut_extice) + status = nf90_inq_varid(ncid,'lut_ssaice',varID) + status = nf90_get_var(ncid,varID,lut_ssaice) + status = nf90_inq_varid(ncid,'lut_asyice',varID) + status = nf90_get_var(ncid,varID,lut_asyice) + status = nf90_inq_varid(ncid,'bnd_limits_wavenumber',varID) + status = nf90_get_var(ncid,varID,band_lims) + endif + if (cld_optics_scheme .eq. 2) then + write (*,*) 'Reading RRTMGP longwave cloud data (PADE) ... ' + status = nf90_inq_varid(ncid,'radliq_lwr',varID) + status = nf90_get_var(ncid,varID,radliq_lwr) + status = nf90_inq_varid(ncid,'radliq_upr',varID) + status = nf90_get_var(ncid,varID,radliq_upr) + status = nf90_inq_varid(ncid,'radliq_fac',varID) + status = nf90_get_var(ncid,varID,radliq_fac) + status = nf90_inq_varid(ncid,'radice_lwr',varID) + status = nf90_get_var(ncid,varID,radice_lwr) + status = nf90_inq_varid(ncid,'radice_upr',varID) + status = nf90_get_var(ncid,varID,radice_upr) + status = nf90_inq_varid(ncid,'radice_fac',varID) + status = nf90_get_var(ncid,varID,radice_fac) + status = nf90_inq_varid(ncid,'pade_extliq',varID) + status = nf90_get_var(ncid,varID,pade_extliq) + status = nf90_inq_varid(ncid,'pade_ssaliq',varID) + status = nf90_get_var(ncid,varID,pade_ssaliq) + status = nf90_inq_varid(ncid,'pade_asyliq',varID) + status = nf90_get_var(ncid,varID,pade_asyliq) + status = nf90_inq_varid(ncid,'pade_extice',varID) + status = nf90_get_var(ncid,varID,pade_extice) + status = nf90_inq_varid(ncid,'pade_ssaice',varID) + status = nf90_get_var(ncid,varID,pade_ssaice) + status = nf90_inq_varid(ncid,'pade_asyice',varID) + status = nf90_get_var(ncid,varID,pade_asyice) + status = nf90_inq_varid(ncid,'pade_sizreg_extliq',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_extliq) + status = nf90_inq_varid(ncid,'pade_sizreg_ssaliq',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_ssaliq) + status = nf90_inq_varid(ncid,'pade_sizreg_asyliq',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_asyliq) + status = nf90_inq_varid(ncid,'pade_sizreg_extice',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_extice) + status = nf90_inq_varid(ncid,'pade_sizreg_ssaice',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_ssaice) + status = nf90_inq_varid(ncid,'pade_sizreg_asyice',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_asyice) + status = nf90_inq_varid(ncid,'bnd_limits_wavenumber',varID) + status = nf90_get_var(ncid,varID,band_lims) + endif + + ! Close file + status = nf90_close(ncid) +! endif + + ! Load tables data for RRTMGP cloud-optics + if (cld_optics_scheme .eq. 1) then + call check_error_msg('lw_cloud_optics_init',lw_cloud_props%load(band_lims, & + radliq_lwr, radliq_upr, radliq_fac, radice_lwr, radice_upr, radice_fac, & + lut_extliq, lut_ssaliq, lut_asyliq, lut_extice, lut_ssaice, lut_asyice)) + endif + if (cld_optics_scheme .eq. 2) then + call check_error_msg('lw_cloud_optics_init', lw_cloud_props%load(band_lims, & + pade_extliq, pade_ssaliq, pade_asyliq, pade_extice, pade_ssaice, pade_asyice,& + pade_sizereg_extliq, pade_sizereg_ssaliq, pade_sizereg_asyliq, & + pade_sizereg_extice, pade_sizereg_ssaice, pade_sizereg_asyice)) + endif + call check_error_msg('lw_cloud_optics_init', lw_cloud_props%set_ice_roughness(nrghice)) + + end subroutine rrtmgp_lw_cloud_optics_init + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_cloud_optics_run() + ! ######################################################################################### +!! \section arg_table_rrtmgp_lw_cloud_optics_run +!! \htmlinclude rrtmgp_lw_cloud_optics.html +!! + subroutine rrtmgp_lw_cloud_optics_run(doLWrad, nCol, nLev, cld_optics_scheme, nrghice, & + cld_frac, cld_lwp, cld_reliq, cld_iwp, cld_reice, cld_swp, cld_resnow, cld_rwp, & + cld_rerain, p_lay, lw_cloud_props, lw_gas_props, lon, lat, & + cldtaulw, lw_optical_props_cloudsByBand, errmsg, errflg) + + ! Inputs + logical, intent(in) :: & + doLWrad ! Logical flag for longwave radiation call + integer, intent(in) :: & + nCol, & ! Number of horizontal gridpoints + nLev, & ! Number of vertical levels + nrghice, & ! Number of ice-roughness categories + cld_optics_scheme ! Cloud-optics scheme + real(kind_phys), dimension(nCol), intent(in) :: & + lon, & ! Longitude + lat ! Latitude + real(kind_phys), dimension(ncol,nLev),intent(in) :: & + p_lay, & ! Layer pressure (Pa) + cld_frac, & ! Total cloud fraction by layer + cld_lwp, & ! Cloud liquid water path + cld_reliq, & ! Cloud liquid effective radius + cld_iwp, & ! Cloud ice water path + cld_reice, & ! Cloud ice effective radius + cld_swp, & ! Cloud snow water path (used only for RRTMG legacy scheme) + cld_resnow, & ! Cloud snow effective radius (used only for RRTMG legacy scheme) + cld_rwp, & ! Cloud rain water path (used only for RRTMG legacy scheme) + cld_rerain ! Cloud rain effective radius (used only for RRTMG legacy scheme) + type(ty_cloud_optics),intent(in) :: & + lw_cloud_props ! RRTMGP DDT: spectral information for RRTMGP LW radiation scheme + type(ty_gas_optics_rrtmgp),intent(in) :: & + lw_gas_props ! RRTMGP DDT: spectral information for RRTMGP LW radiation scheme + + ! Outputs + real(kind_phys), dimension(ncol,nLev), intent(out) :: & + cldtaulw ! Approx. 10.mu band layer cloud optical depth + type(ty_optical_props_1scl),intent(out) :: & + lw_optical_props_cloudsByBand ! RRTMGP DDT: longwave cloud optical properties in each band + integer, intent(out) :: & + errflg ! CCPP error flag + character(len=*), intent(out) :: & + errmsg ! CCPP error message + + ! Local variables + logical,dimension(ncol,nLev) :: liqmask, icemask + real(kind_phys), dimension(ncol,nLev,lw_gas_props%get_nband()) :: & + tau_cld + integer :: iCol, iLay + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + tau_cld = 0. + + if (.not. doLWrad) return + + ! Compute ice/liquid cloud masks, needed by rrtmgp_cloud_optics + liqmask = (cld_frac .gt. 0 .and. cld_lwp .gt. 0) + icemask = (cld_frac .gt. 0 .and. cld_iwp .gt. 0) + + ! Allocate space for RRTMGP DDTs containing cloud radiative properties + ! Cloud optics [nCol,nLev,nBands] + call check_error_msg('rrtmgp_lw_cloud_optics_run',lw_optical_props_cloudsByBand%alloc_1scl(& + ncol, nLev, lw_gas_props%get_band_lims_wavenumber())) + lw_optical_props_cloudsByBand%tau(:,:,:) = 0._kind_phys + + ! Compute cloud-optics for RTE. + if (rrtmgp_cld_optics .gt. 0) then + ! i) RRTMGP cloud-optics. + call check_error_msg('rrtmgp_lw_cloud_optics_run',lw_cloud_props%cloud_optics(& + !ncol, & ! IN - Number of horizontal gridpoints + !nLev, & ! IN - Number of vertical layers + !lw_cloud_props%get_nband(), & ! IN - Number of LW bands + !nrghice, & ! IN - Number of ice-roughness categories + !liqmask, & ! IN - Liquid-cloud mask (1) + !icemask, & ! IN - Ice-cloud mask (1) + cld_lwp, & ! IN - Cloud liquid water path (g/m2) + cld_iwp, & ! IN - Cloud ice water path (g/m2) + cld_reliq, & ! IN - Cloud liquid effective radius (microns) + cld_reice, & ! IN - Cloud ice effective radius (microns) + lw_optical_props_cloudsByBand)) ! OUT - RRTMGP DDT containing cloud radiative properties + ! in each band + else + ! ii) RRTMG cloud-optics. + if (any(cld_frac .gt. 0)) then + call rrtmg_lw_cloud_optics(ncol, nLev, lw_gas_props%get_nband(), cld_lwp, & + cld_reliq, cld_iwp, cld_reice, cld_rwp, cld_rerain, cld_swp, cld_resnow, & + cld_frac, tau_cld) + endif + lw_optical_props_cloudsByBand%tau = tau_cld + endif + + ! All-sky LW optical depth ~10microns + cldtaulw = lw_optical_props_cloudsByBand%tau(:,:,7) + + end subroutine rrtmgp_lw_cloud_optics_run + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_cloud_optics_finalize() + ! ######################################################################################### +!! \section arg_table_rrtmgp_lw_cloud_optics_finalize +!! \htmlinclude rrtmgp_lw_cloud_optics.html +!! + subroutine rrtmgp_lw_cloud_optics_finalize(mpicomm, mpirank, mpiroot) + ! Inputs + integer, intent(in) :: & + mpicomm, & ! MPI communicator + mpirank, & ! Current MPI rank + mpiroot ! Master MPI rank + + end subroutine rrtmgp_lw_cloud_optics_finalize +end module rrtmgp_lw_cloud_optics diff --git a/physics/rrtmgp_lw_cloud_optics.meta b/physics/rrtmgp_lw_cloud_optics.meta new file mode 100644 index 000000000..bae5ef74f --- /dev/null +++ b/physics/rrtmgp_lw_cloud_optics.meta @@ -0,0 +1,309 @@ +[ccpp-arg-table] + name = rrtmgp_lw_cloud_optics_init + type = scheme +[cld_optics_scheme] + standard_name = rrtmgp_cloud_optics_flag + long_name = Flag to control which RRTMGP cloud-optics scheme + units = flag + dimensions = () + type = integer + intent = in + optional = F +[nrghice] + standard_name = number_of_rrtmgp_ice_roughness + long_name = number of ice-roughness categories in RRTMGP calculation + units = count + dimensions = () + type = integer + intent = inout + optional = F +[rrtmgp_root_dir] + standard_name = directory_for_rte_rrtmgp_source_code + long_name = directory for rte+rrtmgp source code + units = none + dimensions = () + type = character + intent = in + optional = F + kind = len=128 +[rrtmgp_lw_file_clouds] + standard_name = rrtmgp_coeff_lw_cloud_optics + long_name = file containing coefficients for RRTMGP LW cloud optics + units = none + dimensions = () + type = character + intent = in + optional = F + kind = len=128 +[mpirank] + standard_name = mpi_rank + long_name = current MPI rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[mpiroot] + standard_name = mpi_root + long_name = master MPI rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[mpicomm] + standard_name = mpi_comm + long_name = MPI communicator + units = index + dimensions = () + type = integer + intent = in + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F +[lw_cloud_props] + standard_name = coefficients_for_lw_cloud_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + type = ty_cloud_optics + intent = out + optional = F + +######################################################################## +[ccpp-arg-table] + name = rrtmgp_lw_cloud_optics_run + type = scheme +[doLWrad] + standard_name = flag_to_calc_lw + long_name = logical flags for lw radiation calls + units = flag + dimensions = () + type = logical + intent = in + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[nLev] + standard_name = vertical_dimension + long_name = number of vertical levels + units = count + dimensions = () + type = integer + intent = in + optional = F +[cld_optics_scheme] + standard_name = rrtmgp_cloud_optics_flag + long_name = Flag to control which RRTMGP cloud-optics scheme + units = flag + dimensions = () + type = integer + intent = in + optional = F +[nrghice] + standard_name = number_of_rrtmgp_ice_roughness + long_name = number of ice-roughness categories in RRTMGP calculation + units = count + dimensions = () + type = integer + intent = in + optional = F +[cld_frac] + standard_name = total_cloud_fraction + long_name = layer total cloud fraction + units = frac + dimensions = (horizontal_dimension,vertical_dimension) + type = real + intent = in + kind = kind_phys +[cld_lwp] + standard_name = cloud_liquid_water_path + long_name = layer cloud liquid water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + intent = in + kind = kind_phys +[cld_reliq] + standard_name = mean_effective_radius_for_liquid_cloud + long_name = mean effective radius for liquid cloud + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + intent = in + kind = kind_phys +[cld_iwp] + standard_name = cloud_ice_water_path + long_name = layer cloud ice water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + intent = in + kind = kind_phys +[cld_reice] + standard_name = mean_effective_radius_for_ice_cloud + long_name = mean effective radius for ice cloud + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + intent = in + kind = kind_phys +[cld_swp] + standard_name = cloud_snow_water_path + long_name = cloud snow water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + intent = in + kind = kind_phys +[cld_resnow] + standard_name = mean_effective_radius_for_snow_flake + long_name = mean effective radius for snow flake + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + intent = in + kind = kind_phys +[cld_rwp] + standard_name = cloud_rain_water_path + long_name = cloud rain water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + intent = in + kind = kind_phys +[cld_rerain] + standard_name = mean_effective_radius_for_rain_drop + long_name = mean effective radius for rain drop + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + intent = in + kind = kind_phys +[p_lay] + standard_name = air_pressure_at_layer_for_RRTMGP_in_hPa + long_name = air pressure layer + units = hPa + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[lw_gas_props] + standard_name = coefficients_for_lw_gas_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + intent = in + type = ty_gas_optics_rrtmgp + optional = F +[lw_cloud_props] + standard_name = coefficients_for_lw_cloud_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + intent = in + type = ty_cloud_optics + optional = F +[lon] + standard_name = longitude + long_name = longitude + units = radians + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[lat] + standard_name = latitude + long_name = latitude + units = radians + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[cldtaulw] + standard_name = RRTMGP_cloud_optical_depth_layers_at_10mu_band + long_name = approx 10mu band layer cloud optical depth + units = none + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[lw_optical_props_cloudsByBand] + standard_name = longwave_optical_properties_for_cloudy_atmosphere_by_band + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_1scl + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F + +######################################################################## +[ccpp-arg-table] + name = rrtmgp_lw_cloud_optics_finalize + type = scheme +[mpirank] + standard_name = mpi_rank + long_name = current MPI rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[mpiroot] + standard_name = mpi_root + long_name = master MPI rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[mpicomm] + standard_name = mpi_comm + long_name = MPI communicator + units = index + dimensions = () + type = integer + intent = in + optional = F \ No newline at end of file diff --git a/physics/rrtmgp_lw_cloud_sampling.F90 b/physics/rrtmgp_lw_cloud_sampling.F90 new file mode 100644 index 000000000..51f512853 --- /dev/null +++ b/physics/rrtmgp_lw_cloud_sampling.F90 @@ -0,0 +1,126 @@ +module rrtmgp_lw_cloud_sampling + use machine, only: kind_phys + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use physparam, only: isubclw, iovrlw + use mo_optical_props, only: ty_optical_props_1scl + use mo_cloud_sampling, only: sampled_mask_max_ran, sampled_mask_exp_ran, draw_samples + use mersenne_twister, only: random_setseed, random_number, random_stat + use rrtmgp_aux, only: check_error_msg + use netcdf + +contains + + ! ######################################################################################### + ! SUBROUTINE mcica_init + ! ######################################################################################### +!! \section arg_table_rrtmgp_lw_cloud_sampling_init +!! \htmlinclude rrtmgp_lw_cloud_sampling.html +!! + subroutine rrtmgp_lw_cloud_sampling_init(lw_gas_props, ipsdlw0) + ! Inputs + type(ty_gas_optics_rrtmgp),intent(in) :: & + lw_gas_props ! RRTMGP DDT: K-distribution data + ! Outputs + integer, intent(out) :: & + ipsdlw0 ! Initial permutation seed for McICA + + ! Set initial permutation seed for McICA, initially set to number of G-points + ipsdlw0 = lw_gas_props%get_ngpt() + + end subroutine rrtmgp_lw_cloud_sampling_init + + ! ######################################################################################### + ! SUBROTUINE rrtmgp_lw_cloud_sampling_run() + ! ######################################################################################### +!! \section arg_table_rrtmgp_lw_cloud_sampling_run +!! \htmlinclude rrtmgp_lw_cloud_sampling.html +!! + subroutine rrtmgp_lw_cloud_sampling_run(doLWrad, nCol, nLev, ipsdlw0, icseed_lw, cld_frac,& + lw_gas_props, lw_optical_props_cloudsByBand, lw_optical_props_clouds, errmsg, errflg) + + ! Inputs + logical, intent(in) :: & + doLWrad ! Logical flag for shortwave radiation call + integer, intent(in) :: & + nCol, & ! Number of horizontal gridpoints + nLev, & ! Number of vertical layers + ipsdlw0 ! Initial permutation seed for McICA + integer,intent(in),dimension(ncol) :: & + icseed_lw ! auxiliary special cloud related array when module + ! variable isubclw=2, it provides permutation seed + ! for each column profile that are used for generating + ! random numbers. when isubclw /=2, it will not be used. + real(kind_phys), dimension(ncol,nLev),intent(in) :: & + cld_frac ! Total cloud fraction by layer + type(ty_gas_optics_rrtmgp),intent(in) :: & + lw_gas_props ! RRTMGP DDT: K-distribution data + type(ty_optical_props_1scl),intent(in) :: & + lw_optical_props_cloudsByBand ! RRTMGP DDT: Shortwave optical properties (cloudy atmosphere) + + ! Outputs + character(len=*), intent(out) :: & + errmsg ! CCPP error message + integer, intent(out) :: & + errflg ! CCPP error code + type(ty_optical_props_1scl),intent(out) :: & + lw_optical_props_clouds ! RRTMGP DDT: Shortwave optical properties (cloudy atmosphere) + + ! Local variables + integer :: iCol + integer,dimension(ncol) :: ipseed_lw + type(random_stat) :: rng_stat + real(kind_phys), dimension(lw_gas_props%get_ngpt(),nLev,ncol) :: rng3D + real(kind_phys), dimension(lw_gas_props%get_ngpt()*nLev) :: rng1D + logical, dimension(ncol,nLev,lw_gas_props%get_ngpt()) :: cldfracMCICA + real(kind_phys), dimension(ncol,nLev) :: cld_frac_noSamp + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. doLWrad) return + + ! Allocate space RRTMGP DDTs [nCol,nLev,nGpt] + call check_error_msg('rrtmgp_lw_cloud_sampling_run',& + lw_optical_props_clouds%alloc_1scl(nCol, nLev, lw_gas_props)) + + ! Change random number seed value for each radiation invocation (isubclw =1 or 2). + if(isubclw == 1) then ! advance prescribed permutation seed + do iCol = 1, ncol + ipseed_lw(iCol) = ipsdlw0 + iCol + enddo + elseif (isubclw == 2) then ! use input array of permutaion seeds + do iCol = 1, ncol + ipseed_lw(iCol) = icseed_lw(iCol) + enddo + endif + + ! Call McICA to generate subcolumns. + ! Call RNG. Mersennse Twister accepts 1D array, so loop over columns and collapse along G-points + ! and layers. ([nGpts,nLev,nColumn]-> [nGpts*nLev]*nColumn) + do iCol=1,ncol + call random_setseed(ipseed_lw(icol),rng_stat) + call random_number(rng1D,rng_stat) + rng3D(:,:,iCol) = reshape(source = rng1D,shape=[lw_gas_props%get_ngpt(),nLev]) + enddo + + ! Call McICA + select case ( iovrlw ) + ! Maximumn-random + case(1) + call check_error_msg('rrtmgp_lw_cloud_sampling_run',sampled_mask_max_ran(rng3D,cld_frac,cldfracMCICA)) + end select + + ! Map band optical depth to each g-point using McICA + call check_error_msg('rrtmgp_lw_cloud_sampling_run',draw_samples(& + cldfracMCICA,lw_optical_props_cloudsByBand,lw_optical_props_clouds)) + + end subroutine rrtmgp_lw_cloud_sampling_run + + ! ######################################################################################### + ! SUBROTUINE rrtmgp_lw_cloud_sampling_finalize() + ! ######################################################################################### + subroutine rrtmgp_lw_cloud_sampling_finalize() + end subroutine rrtmgp_lw_cloud_sampling_finalize + +end module rrtmgp_lw_cloud_sampling diff --git a/physics/rrtmgp_lw_cloud_sampling.meta b/physics/rrtmgp_lw_cloud_sampling.meta new file mode 100644 index 000000000..547c6177c --- /dev/null +++ b/physics/rrtmgp_lw_cloud_sampling.meta @@ -0,0 +1,114 @@ +[ccpp-arg-table] + name = rrtmgp_lw_cloud_sampling_init + type = scheme +[lw_gas_props] + standard_name = coefficients_for_lw_gas_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[ipsdlw0] + standard_name = initial_permutation_seed_lw + long_name = initial seed for McICA LW + units = none + dimensions = () + type = integer + intent = out + optional = F + +###################################################### +[ccpp-arg-table] + name = rrtmgp_lw_cloud_sampling_run + type = scheme +[doLWrad] + standard_name = flag_to_calc_lw + long_name = logical flags for lw radiation calls + units = flag + dimensions = () + type = logical + intent = in + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[nLev] + standard_name = vertical_dimension + long_name = number of vertical levels + units = count + dimensions = () + type = integer + intent = in + optional = F +[ipsdlw0] + standard_name = initial_permutation_seed_lw + long_name = initial seed for McICA LW + units = none + dimensions = () + type = integer + intent = in + optional = F +[icseed_lw] + standard_name = seed_random_numbers_lw + long_name = seed for random number generation for longwave radiation + units = none + dimensions = (horizontal_dimension) + type = integer + intent = in + optional = F +[cld_frac] + standard_name = total_cloud_fraction + long_name = layer total cloud fraction + units = frac + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[lw_gas_props] + standard_name = coefficients_for_lw_gas_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[lw_optical_props_cloudsByBand] + standard_name = longwave_optical_properties_for_cloudy_atmosphere_by_band + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_1scl + intent = in + optional = F +[lw_optical_props_clouds] + standard_name = longwave_optical_properties_for_cloudy_atmosphere + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_1scl + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F \ No newline at end of file diff --git a/physics/rrtmgp_lw_gas_optics.F90 b/physics/rrtmgp_lw_gas_optics.F90 new file mode 100644 index 000000000..b6300089f --- /dev/null +++ b/physics/rrtmgp_lw_gas_optics.F90 @@ -0,0 +1,402 @@ +module rrtmgp_lw_gas_optics + use machine, only: kind_phys + use mo_rte_kind, only: wl + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use mo_gas_concentrations, only: ty_gas_concs + use mo_source_functions, only: ty_source_func_lw + use mo_optical_props, only: ty_optical_props_1scl + use mo_compute_bc, only: compute_bc + use rrtmgp_aux, only: check_error_msg + use netcdf +#ifdef MPI + use mpi +#endif + +contains + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_sw_gas_optics_init + ! ######################################################################################### +!! \section arg_table_rrtmgp_lw_gas_optics_init +!! \htmlinclude rrtmgp_lw_gas_optics.html +!! + subroutine rrtmgp_lw_gas_optics_init(rrtmgp_root_dir, rrtmgp_lw_file_gas, rrtmgp_nGases, & + active_gases_array, mpicomm, mpirank, mpiroot, lw_gas_props, errmsg, errflg) + + ! Inputs + character(len=128),intent(in) :: & + rrtmgp_root_dir, & ! RTE-RRTMGP root directory + rrtmgp_lw_file_gas ! RRTMGP file containing coefficients used to compute gaseous optical properties + integer, intent(in) :: & + rrtmgp_nGases ! Number of trace gases active in RRTMGP + character(len=*),dimension(rrtmgp_nGases), intent(in) :: & + active_gases_array ! Character array containing trace gases to include in RRTMGP + integer,intent(in) :: & + mpicomm, & ! MPI communicator + mpirank, & ! Current MPI rank + mpiroot ! Master MPI rank + + ! Outputs + character(len=*), intent(out) :: & + errmsg ! CCPP error message + integer, intent(out) :: & + errflg ! CCPP error code + type(ty_gas_optics_rrtmgp),intent(out) :: & + lw_gas_props ! RRTMGP DDT: longwave spectral information + + ! Variables that will be passed to gas_optics%load() + type(ty_gas_concs) :: & + gas_concentrations ! RRTMGP DDT: trace gas concentrations (vmr) + integer, dimension(:), allocatable :: & + kminor_start_lower, & ! Starting index in the [1, nContributors] vector for a contributor + ! given by \"minor_gases_lower\" (lower atmosphere) + kminor_start_upper ! Starting index in the [1, nContributors] vector for a contributor + ! given by \"minor_gases_upper\" (upper atmosphere) + integer, dimension(:,:), allocatable :: & + band2gpt, & ! Beginning and ending gpoint for each band + minor_limits_gpt_lower, & ! Beginning and ending gpoint for each minor interval in lower atmosphere + minor_limits_gpt_upper ! Beginning and ending gpoint for each minor interval in upper atmosphere + integer, dimension(:,:,:), allocatable :: & + key_species ! Key species pair for each band + real(kind_phys) :: & + press_ref_trop, & ! Reference pressure separating the lower and upper atmosphere [Pa] + temp_ref_p, & ! Standard spectroscopic reference pressure [Pa] + temp_ref_t ! Standard spectroscopic reference temperature [K] + real(kind_phys), dimension(:), allocatable :: & + press_ref, & ! Pressures for reference atmosphere; press_ref(# reference layers) [Pa] + temp_ref ! Temperatures for reference atmosphere; temp_ref(# reference layers) [K] + real(kind_phys), dimension(:,:), allocatable :: & + band_lims, & ! Beginning and ending wavenumber [cm -1] for each band + totplnk ! Integrated Planck function by band + real(kind_phys), dimension(:,:,:), allocatable :: & + vmr_ref, & ! volume mixing ratios for reference atmosphere + kminor_lower, & ! (transformed from [nTemp x nEta x nGpt x nAbsorbers] array to + ! [nTemp x nEta x nContributors] array) + kminor_upper, & ! (transformed from [nTemp x nEta x nGpt x nAbsorbers] array to + ! [nTemp x nEta x nContributors] array) + rayl_lower, & ! Not used in LW, rather allocated(rayl_lower) is used + rayl_upper ! Not used in LW, rather allocated(rayl_upper) is used + real(kind_phys), dimension(:,:,:,:), allocatable :: & + kmajor, & ! Stored absorption coefficients due to major absorbing gases + planck_frac ! Planck fractions + character(len=32), dimension(:), allocatable :: & + gas_names, & ! Names of absorbing gases + gas_minor, & ! Name of absorbing minor gas + identifier_minor, & ! Unique string identifying minor gas + minor_gases_lower, & ! Names of minor absorbing gases in lower atmosphere + minor_gases_upper, & ! Names of minor absorbing gases in upper atmosphere + scaling_gas_lower, & ! Absorption also depends on the concentration of this gas + scaling_gas_upper ! Absorption also depends on the concentration of this gas + logical(wl), dimension(:), allocatable :: & + minor_scales_with_density_lower, & ! Density scaling is applied to minor absorption coefficients + minor_scales_with_density_upper, & ! Density scaling is applied to minor absorption coefficients + scale_by_complement_lower, & ! Absorption is scaled by concentration of scaling_gas (F) or its complement (T) + scale_by_complement_upper ! Absorption is scaled by concentration of scaling_gas (F) or its complement (T) + + ! Dimensions + integer :: & + ntemps, npress, ngpts, nabsorbers, nextrabsorbers, nminorabsorbers,& + nmixingfracs, nlayers, nbnds, npairs, ninternalSourcetemps, & + nminor_absorber_intervals_lower, nminor_absorber_intervals_upper, & + ncontributors_lower, ncontributors_upper + + ! Local variables + integer :: ncid, dimID, varID, status, iGas, ierr + integer,dimension(:),allocatable :: temp1, temp2, temp3, temp4, & + temp_log_array1, temp_log_array2, temp_log_array3, temp_log_array4 + character(len=264) :: lw_gas_props_file +#ifdef MPI + integer :: mpierr +#endif + + ! Initialize + errmsg = '' + errflg = 0 + + write(*,"(a52,3i20)") 'rrtmgp_lw_gas_optics.F90:_init(): RRTMGP MPI ranks: ',mpirank,mpiroot,mpicomm + + ! Filenames are set in the physics_nml + lw_gas_props_file = trim(rrtmgp_root_dir)//trim(rrtmgp_lw_file_gas) + + ! On master processor only... + if (mpirank .eq. mpiroot) then + ! Open file + status = nf90_open(trim(lw_gas_props_file), NF90_WRITE, ncid) + + ! Read dimensions for k-distribution fields + status = nf90_inq_dimid(ncid, 'temperature', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = ntemps) + status = nf90_inq_dimid(ncid, 'pressure', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = npress) + status = nf90_inq_dimid(ncid, 'absorber', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = nabsorbers) + status = nf90_inq_dimid(ncid, 'minor_absorber', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = nminorabsorbers) + status = nf90_inq_dimid(ncid, 'absorber_ext', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = nextrabsorbers) + status = nf90_inq_dimid(ncid, 'mixing_fraction', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = nmixingfracs) + status = nf90_inq_dimid(ncid, 'atmos_layer', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = nlayers) + status = nf90_inq_dimid(ncid, 'bnd', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = nbnds) + status = nf90_inq_dimid(ncid, 'gpt', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = ngpts) + status = nf90_inq_dimid(ncid, 'pair', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = npairs) + status = nf90_inq_dimid(ncid, 'contributors_lower', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = ncontributors_lower) + status = nf90_inq_dimid(ncid, 'contributors_upper', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = ncontributors_upper) + status = nf90_inq_dimid(ncid, 'minor_absorber_intervals_lower', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = nminor_absorber_intervals_lower) + status = nf90_inq_dimid(ncid, 'minor_absorber_intervals_upper', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = nminor_absorber_intervals_upper) + status = nf90_inq_dimid(ncid, 'temperature_Planck', dimid) + status = nf90_inquire_dimension(ncid, dimid, len = ninternalSourcetemps) + + ! Allocate space for arrays + allocate(gas_names(nabsorbers)) + allocate(scaling_gas_lower(nminor_absorber_intervals_lower)) + allocate(scaling_gas_upper(nminor_absorber_intervals_upper)) + allocate(gas_minor(nminorabsorbers)) + allocate(identifier_minor(nminorabsorbers)) + allocate(minor_gases_lower(nminor_absorber_intervals_lower)) + allocate(minor_gases_upper(nminor_absorber_intervals_upper)) + allocate(minor_limits_gpt_lower(npairs,nminor_absorber_intervals_lower)) + allocate(minor_limits_gpt_upper(npairs,nminor_absorber_intervals_upper)) + allocate(band2gpt(2,nbnds)) + allocate(key_species(2,nlayers,nbnds)) + allocate(band_lims(2,nbnds)) + allocate(press_ref(npress)) + allocate(temp_ref(ntemps)) + allocate(vmr_ref(nlayers, nextrabsorbers, ntemps)) + allocate(kminor_lower(ncontributors_lower, nmixingfracs, ntemps)) + allocate(kmajor(ngpts, nmixingfracs, npress+1, ntemps)) + allocate(kminor_start_lower(nminor_absorber_intervals_lower)) + allocate(kminor_upper(ncontributors_upper, nmixingfracs, ntemps)) + allocate(kminor_start_upper(nminor_absorber_intervals_upper)) + allocate(minor_scales_with_density_lower(nminor_absorber_intervals_lower)) + allocate(minor_scales_with_density_upper(nminor_absorber_intervals_upper)) + allocate(scale_by_complement_lower(nminor_absorber_intervals_lower)) + allocate(scale_by_complement_upper(nminor_absorber_intervals_upper)) + allocate(temp1(nminor_absorber_intervals_lower)) + allocate(temp2(nminor_absorber_intervals_upper)) + allocate(temp3(nminor_absorber_intervals_lower)) + allocate(temp4(nminor_absorber_intervals_upper)) + allocate(totplnk(ninternalSourcetemps, nbnds)) + allocate(planck_frac(ngpts, nmixingfracs, npress+1, ntemps)) + + ! Read in fields from file + write (*,*) 'Reading RRTMGP longwave k-distribution data ... ' + status = nf90_inq_varid(ncid, 'gas_names', varID) + status = nf90_get_var( ncid, varID, gas_names) + status = nf90_inq_varid(ncid, 'scaling_gas_lower', varID) + status = nf90_get_var( ncid, varID, scaling_gas_lower) + status = nf90_inq_varid(ncid, 'scaling_gas_upper', varID) + status = nf90_get_var( ncid, varID, scaling_gas_upper) + status = nf90_inq_varid(ncid, 'gas_minor', varID) + status = nf90_get_var( ncid, varID, gas_minor) + status = nf90_inq_varid(ncid, 'identifier_minor', varID) + status = nf90_get_var( ncid, varID, identifier_minor) + status = nf90_inq_varid(ncid, 'minor_gases_lower', varID) + status = nf90_get_var( ncid, varID, minor_gases_lower) + status = nf90_inq_varid(ncid, 'minor_gases_upper', varID) + status = nf90_get_var( ncid, varID, minor_gases_upper) + status = nf90_inq_varid(ncid, 'minor_limits_gpt_lower', varID) + status = nf90_get_var( ncid, varID, minor_limits_gpt_lower) + status = nf90_inq_varid(ncid, 'minor_limits_gpt_upper', varID) + status = nf90_get_var( ncid, varID, minor_limits_gpt_upper) + status = nf90_inq_varid(ncid, 'bnd_limits_gpt', varID) + status = nf90_get_var( ncid, varID, band2gpt) + status = nf90_inq_varid(ncid, 'key_species', varID) + status = nf90_get_var( ncid, varID, key_species) + status = nf90_inq_varid(ncid, 'bnd_limits_wavenumber', varID) + status = nf90_get_var( ncid, varID, band_lims) + status = nf90_inq_varid(ncid, 'press_ref', varID) + status = nf90_get_var( ncid, varID, press_ref) + status = nf90_inq_varid(ncid, 'temp_ref', varID) + status = nf90_get_var( ncid, varID, temp_ref) + status = nf90_inq_varid(ncid, 'absorption_coefficient_ref_P', varID) + status = nf90_get_var( ncid, varID, temp_ref_p) + status = nf90_inq_varid(ncid, 'absorption_coefficient_ref_T', varID) + status = nf90_get_var( ncid, varID, temp_ref_t) + status = nf90_inq_varid(ncid, 'press_ref_trop', varID) + status = nf90_get_var( ncid, varID, press_ref_trop) + status = nf90_inq_varid(ncid, 'kminor_lower', varID) + status = nf90_get_var( ncid, varID, kminor_lower) + status = nf90_inq_varid(ncid, 'kminor_upper', varID) + status = nf90_get_var( ncid, varID, kminor_upper) + status = nf90_inq_varid(ncid, 'vmr_ref', varID) + status = nf90_get_var( ncid, varID, vmr_ref) + status = nf90_inq_varid(ncid, 'kmajor', varID) + status = nf90_get_var( ncid, varID, kmajor) + status = nf90_inq_varid(ncid, 'kminor_start_lower', varID) + status = nf90_get_var( ncid, varID, kminor_start_lower) + status = nf90_inq_varid(ncid, 'kminor_start_upper', varID) + status = nf90_get_var( ncid, varID, kminor_start_upper) + status = nf90_inq_varid(ncid, 'totplnk', varID) + status = nf90_get_var( ncid, varID, totplnk) + status = nf90_inq_varid(ncid, 'plank_fraction', varID) + status = nf90_get_var( ncid, varID, planck_frac) + + ! Logical fields are read in as integers and then converted to logicals. + status = nf90_inq_varid(ncid, 'minor_scales_with_density_lower', varID) + status = nf90_get_var( ncid, varID,temp1) + minor_scales_with_density_lower(:) = .false. + where(temp1 .eq. 1) minor_scales_with_density_lower(:) = .true. + status = nf90_inq_varid(ncid, 'minor_scales_with_density_upper', varID) + status = nf90_get_var( ncid, varID,temp2) + minor_scales_with_density_upper(:) = .false. + where(temp2 .eq. 1) minor_scales_with_density_upper(:) = .true. + status = nf90_inq_varid(ncid, 'scale_by_complement_lower', varID) + status = nf90_get_var( ncid, varID,temp3) + scale_by_complement_lower(:) = .false. + where(temp3 .eq. 1) scale_by_complement_lower(:) = .true. + status = nf90_inq_varid(ncid, 'scale_by_complement_upper', varID) + status = nf90_get_var( ncid, varID,temp4) + scale_by_complement_upper(:) = .false. + where(temp4 .eq. 1) scale_by_complement_upper(:) = .true. + + ! Close file + status = nf90_close(ncid) + endif + +#ifdef MPI + ! Wait for processor 0 to catch up... + call MPI_BARRIER(mpicomm, mpierr) + ! Broadcast data + write (*,*) 'Broadcasting RRTMGP longwave k-distribution data ... ' + call MPI_BCAST(ntemps, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(npress, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(nabsorbers, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(nminorabsorbers, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(nextrabsorbers, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(nmixingfracs, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(nlayers, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(nbnds, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(ngpts, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(npairs, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(ncontributors_lower, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(ncontributors_upper, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(nminor_absorber_intervals_lower, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(nminor_absorber_intervals_upper, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(ninternalSourcetemps, 1, MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BARRIER(mpicomm, mpierr) + call MPI_BCAST(minor_limits_gpt_upper, size(minor_limits_gpt_upper), MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(minor_limits_gpt_lower, size(minor_limits_gpt_lower), MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(kminor_start_upper, size(kminor_start_upper), MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(kminor_start_lower, size(kminor_start_lower), MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(key_species, size(key_species), MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BARRIER(mpicomm, mpierr) + call MPI_BCAST(band2gpt, size(band2gpt), MPI_INTEGER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(band_lims, size(band_lims), MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(press_ref, size(press_ref), MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(temp_ref, size(temp_ref), MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(kminor_lower, size(kminor_lower), MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(kminor_upper, size(kminor_upper), MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BARRIER(mpicomm, mpierr) + call MPI_BCAST(scaling_gas_lower, size(scaling_gas_lower), MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(scaling_gas_upper, size(scaling_gas_upper), MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(vmr_ref, size(vmr_ref), MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(kmajor, size(kmajor), MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(temp_ref_p, 1, MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(temp_ref_t, 1, MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(press_ref_trop, 1, MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BARRIER(mpicomm, mpierr) + call MPI_BCAST(totplnk, size(totplnk), MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(planck_frac, size(planck_frac), MPI_REAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(gas_names, size(gas_names), MPI_CHARACTER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(gas_minor, size(gas_minor), MPI_CHARACTER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(identifier_minor, size(identifier_minor), MPI_CHARACTER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(minor_gases_lower, size(minor_gases_lower), MPI_CHARACTER, mpiroot, mpicomm, mpierr) + call MPI_BARRIER(mpicomm, mpierr) + call MPI_BCAST(minor_gases_upper, size(minor_gases_upper), MPI_CHARACTER, mpiroot, mpicomm, mpierr) + call MPI_BCAST(minor_scales_with_density_lower, nminor_absorber_intervals_lower, MPI_LOGICAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(scale_by_complement_lower, nminor_absorber_intervals_lower, MPI_LOGICAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(minor_scales_with_density_upper, nminor_absorber_intervals_upper, MPI_LOGICAL, mpiroot, mpicomm, mpierr) + call MPI_BCAST(scale_by_complement_upper, nminor_absorber_intervals_upper, MPI_LOGICAL, mpiroot, mpicomm, mpierr) + ! Don't advance until data broadcast complete on all processors + call MPI_BARRIER(mpicomm, mpierr) +#endif + + ! Initialize gas concentrations and gas optics class + call check_error_msg('lw_gas_optics_init',gas_concentrations%init(active_gases_array)) + call check_error_msg('lw_gas_optics_init',lw_gas_props%load(gas_concentrations, gas_names, & + key_species, band2gpt, band_lims, press_ref, press_ref_trop, temp_ref, temp_ref_p, & + temp_ref_t, vmr_ref, kmajor, kminor_lower, kminor_upper, gas_minor, identifier_minor, & + minor_gases_lower, minor_gases_upper, minor_limits_gpt_lower, minor_limits_gpt_upper, & + minor_scales_with_density_lower, minor_scales_with_density_upper, scaling_gas_lower, & + scaling_gas_upper, scale_by_complement_lower, scale_by_complement_upper, & + kminor_start_lower, kminor_start_upper, totplnk, planck_frac, rayl_lower, rayl_upper)) + + end subroutine rrtmgp_lw_gas_optics_init + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_gas_optics_run + ! ######################################################################################### +!! \section arg_table_rrtmgp_lw_gas_optics_run +!! \htmlinclude rrtmgp_lw_gas_optics.html +!! + subroutine rrtmgp_lw_gas_optics_run(doLWrad, nCol, nLev, lw_gas_props, p_lay, p_lev, t_lay,& + t_lev, skt, gas_concentrations, lw_optical_props_clrsky, sources, errmsg, errflg) + + ! Inputs + logical, intent(in) :: & + doLWrad ! Flag to calculate LW irradiances + integer,intent(in) :: & + ncol, & ! Number of horizontal points + nLev ! Number of vertical levels + type(ty_gas_optics_rrtmgp),intent(in) :: & + lw_gas_props ! RRTMGP DDT: + real(kind_phys), dimension(ncol,nLev), intent(in) :: & + p_lay, & ! Pressure @ model layer-centers (hPa) + t_lay ! Temperature (K) + real(kind_phys), dimension(ncol,nLev+1), intent(in) :: & + p_lev, & ! Pressure @ model layer-interfaces (hPa) + t_lev ! Temperature @ model levels + real(kind_phys), dimension(ncol), intent(in) :: & + skt ! Surface(skin) temperature (K) + type(ty_gas_concs),intent(in) :: & + gas_concentrations ! RRTMGP DDT: trace gas concentrations (vmr) + + ! Output + character(len=*), intent(out) :: & + errmsg ! CCPP error message + integer, intent(out) :: & + errflg ! CCPP error code + type(ty_optical_props_1scl),intent(out) :: & + lw_optical_props_clrsky ! RRTMGP DDT: longwave clear-sky radiative properties + type(ty_source_func_lw),intent(out) :: & + sources ! RRTMGP DDT: longwave source functions + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. doLWrad) return + + ! Allocate and initialize + call check_error_msg('rrtmgp_lw_gas_optics_run',lw_optical_props_clrsky%alloc_1scl(ncol, nLev, lw_gas_props)) + call check_error_msg('rrtmgp_lw_gas_optics_run',sources%alloc(ncol, nLev, lw_gas_props)) + + ! Gas-optics + call check_error_msg('rrtmgp_lw_gas_optics_run',lw_gas_props%gas_optics(& + p_lay, & ! IN - Pressure @ layer-centers (Pa) + p_lev, & ! IN - Pressure @ layer-interfaces (Pa) + t_lay, & ! IN - Temperature @ layer-centers (K) + skt, & ! IN - Skin-temperature (K) + gas_concentrations, & ! IN - RRTMGP DDT: trace gas volumne mixing-ratios + lw_optical_props_clrsky, & ! OUT - RRTMGP DDT: longwave optical properties + sources, & ! OUT - RRTMGP DDT: source functions + tlev=t_lev)) ! IN - Temperature @ layer-interfaces (K) (optional) + + end subroutine rrtmgp_lw_gas_optics_run + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_gas_optics_finalize + ! ######################################################################################### + subroutine rrtmgp_lw_gas_optics_finalize() + end subroutine rrtmgp_lw_gas_optics_finalize + +end module rrtmgp_lw_gas_optics diff --git a/physics/rrtmgp_lw_gas_optics.meta b/physics/rrtmgp_lw_gas_optics.meta new file mode 100644 index 000000000..36b8067dd --- /dev/null +++ b/physics/rrtmgp_lw_gas_optics.meta @@ -0,0 +1,210 @@ +[ccpp-arg-table] + name = rrtmgp_lw_gas_optics_init + type = scheme +[rrtmgp_root_dir] + standard_name = directory_for_rte_rrtmgp_source_code + long_name = directory for rte+rrtmgp source code + units = none + dimensions = () + type = character + intent = in + optional = F + kind = len=128 +[rrtmgp_lw_file_gas] + standard_name = rrtmgp_kdistribution_lw + long_name = file containing RRTMGP LW k-distribution + units = none + dimensions = () + type = character + intent = in + optional = F + kind = len=128 +[rrtmgp_nGases] + standard_name = number_of_active_gases_used_by_RRTMGP + long_name = number of gases available used by RRTMGP + units = count + dimensions = () + type = integer + intent = in + optional = F +[active_gases_array] + standard_name = list_of_active_gases_used_by_RRTMGP + long_name = list of active gases used by RRTMGP + units = none + dimensions = (number_of_active_gases_used_by_RRTMGP) + type = character + kind = len=* + intent = in + optional = F +[mpirank] + standard_name = mpi_rank + long_name = current MPI rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[mpiroot] + standard_name = mpi_root + long_name = master MPI rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[mpicomm] + standard_name = mpi_comm + long_name = MPI communicator + units = index + dimensions = () + type = integer + intent = in + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F +[lw_gas_props] + standard_name = coefficients_for_lw_gas_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = out + optional = F + +######################################################################## +[ccpp-arg-table] + name = rrtmgp_lw_gas_optics_run + type = scheme +[doLWrad] + standard_name = flag_to_calc_lw + long_name = flag to calculate LW irradiances + units = flag + dimensions = () + type = logical + intent = in + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[nLev] + standard_name = vertical_dimension + long_name = number of vertical levels + units = count + dimensions = () + type = integer + intent = in + optional = F +[lw_gas_props] + standard_name = coefficients_for_lw_gas_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[p_lay] + standard_name = air_pressure_at_layer_for_RRTMGP_in_hPa + long_name = air pressure layer + units = hPa + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[p_lev] + standard_name = air_pressure_at_interface_for_RRTMGP_in_hPa + long_name = air pressure level + units = hPa + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[t_lay] + standard_name = air_temperature_at_layer_for_RRTMGP + long_name = air temperature layer + units = K + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[t_lev] + standard_name = air_temperature_at_interface_for_RRTMGP + long_name = air temperature level + units = K + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[skt] + standard_name = surface_ground_temperature_for_radiation + long_name = surface ground temperature for radiation + units = K + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[gas_concentrations] + standard_name = Gas_concentrations_for_RRTMGP_suite + long_name = DDT containing gas concentrations for RRTMGP radiation scheme + units = DDT + dimensions = () + type = ty_gas_concs + intent = in + optional = F +[lw_optical_props_clrsky] + standard_name = longwave_optical_properties_for_clear_sky + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_1scl + intent = out + optional = F +[sources] + standard_name = longwave_source_function + long_name = Fortran DDT containing RRTMGP source functions + units = DDT + dimensions = () + type = ty_source_func_lw + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F diff --git a/physics/rrtmgp_lw_pre.F90 b/physics/rrtmgp_lw_pre.F90 new file mode 100644 index 000000000..0be239671 --- /dev/null +++ b/physics/rrtmgp_lw_pre.F90 @@ -0,0 +1,86 @@ +module rrtmgp_lw_pre + use physparam + use machine, only: & + kind_phys ! Working type + use GFS_typedefs, only: & + GFS_control_type, & ! + GFS_sfcprop_type, & ! Surface fields + GFS_grid_type, & ! Grid and interpolation related data + GFS_statein_type, & ! + GFS_radtend_type ! Radiation tendencies needed in physics + use module_radiation_surface, only: & + setemis ! Routine to compute surface-emissivity + use mo_gas_optics_rrtmgp, only: & + ty_gas_optics_rrtmgp + + public rrtmgp_lw_pre_run,rrtmgp_lw_pre_init,rrtmgp_lw_pre_finalize + +contains + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_pre_init + ! ######################################################################################### + subroutine rrtmgp_lw_pre_init () + end subroutine rrtmgp_lw_pre_init + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_pre_run + ! ######################################################################################### +!> \section arg_table_rrtmgp_lw_pre_run +!! \htmlinclude rrtmgp_lw_pre.html +!! + subroutine rrtmgp_lw_pre_run (doLWrad, nCol, xlon, xlat, slmsk, zorl, snowd, sncovr, tsfc, & + hprime, lw_gas_props, sfc_emiss_byband, semis, errmsg, errflg) + + ! Inputs + logical, intent(in) :: & + doLWrad ! Logical flag for longwave radiation call + integer, intent(in) :: & + nCol ! Number of horizontal grid points + real(kind_phys), dimension(nCol), intent(in) :: & + xlon, & ! Longitude + xlat, & ! Latitude + slmsk, & ! Land/sea/sea-ice mask + zorl, & ! Surface roughness length (cm) + snowd, & ! water equivalent snow depth (mm) + sncovr, & ! Surface snow are fraction (1) + tsfc, & ! Surface skin temperature (K) + hprime ! Standard deviation of subgrid orography + type(ty_gas_optics_rrtmgp),intent(in) :: & + lw_gas_props ! RRTMGP DDT: spectral information for LW calculation + + ! Outputs + real(kind_phys), dimension(lw_gas_props%get_nband(),ncol), intent(out) :: & + sfc_emiss_byband ! Surface emissivity in each band + character(len=*), intent(out) :: & + errmsg ! Error message + integer, intent(out) :: & + errflg ! Error flag + real(kind_phys), dimension(nCol), intent(out) :: & + semis + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. doLWrad) return + + ! ####################################################################################### + ! Call module_radiation_surface::setemis(),to setup surface emissivity for LW radiation. + ! ####################################################################################### + call setemis (xlon, xlat, slmsk, snowd, sncovr, zorl, tsfc, tsfc, hprime, nCol, semis) + + ! Assign same emissivity to all bands + do iBand=1,lw_gas_props%get_nband() + sfc_emiss_byband(iBand,:) = semis + enddo + + end subroutine rrtmgp_lw_pre_run + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_pre_finalize + ! ######################################################################################### + subroutine rrtmgp_lw_pre_finalize () + end subroutine rrtmgp_lw_pre_finalize + +end module rrtmgp_lw_pre diff --git a/physics/rrtmgp_lw_pre.meta b/physics/rrtmgp_lw_pre.meta new file mode 100644 index 000000000..5d1c518b6 --- /dev/null +++ b/physics/rrtmgp_lw_pre.meta @@ -0,0 +1,134 @@ +[ccpp-arg-table] + name = rrtmgp_lw_pre_run + type = scheme +[doLWrad] + standard_name = flag_to_calc_lw + long_name = logical flags for lw radiation calls + units = flag + dimensions = () + type = logical + intent = in + optional = F +[nCol] + standard_name = horizontal_loop_extent + long_name = horizontal loop extent + units = count + dimensions = () + type = integer + intent = in + optional = F +[xlon] + standard_name = longitude + long_name = longitude + units = radians + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[xlat] + standard_name = latitude + long_name = latitude + units = radians + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[slmsk] + standard_name = sea_land_ice_mask_real + long_name = landmask: sea/land/ice=0/1/2 + units = flag + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[zorl] + standard_name = surface_roughness_length + long_name = surface roughness length + units = cm + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[snowd] + standard_name = surface_snow_thickness_water_equivalent + long_name = water equivalent snow depth + units = mm + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sncovr] + standard_name = surface_snow_area_fraction_over_land + long_name = surface snow area fraction + units = frac + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[tsfc] + standard_name = surface_skin_temperature + long_name = surface skin temperature + units = K + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[hprime] + standard_name = standard_deviation_of_subgrid_orography + long_name = standard deviation of subgrid orography + units = m + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[lw_gas_props] + standard_name = coefficients_for_lw_gas_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[semis] + standard_name = surface_longwave_emissivity + long_name = surface lw emissivity in fraction + units = frac + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[sfc_emiss_byband] + standard_name = surface_emissivity_in_each_RRTMGP_LW_band + long_name = surface emissivity in each RRTMGP LW band + units = none + dimensions = (number_of_lw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F diff --git a/physics/rrtmgp_lw_rte.F90 b/physics/rrtmgp_lw_rte.F90 new file mode 100644 index 000000000..94c9b741e --- /dev/null +++ b/physics/rrtmgp_lw_rte.F90 @@ -0,0 +1,172 @@ +! ########################################################################################### +! ########################################################################################### +module rrtmgp_lw_rte + use machine, only: kind_phys + use mo_rte_kind, only: wl + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use mo_cloud_optics, only: ty_cloud_optics + use mo_optical_props, only: ty_optical_props_1scl + use mo_rte_lw, only: rte_lw + use mo_fluxes_byband, only: ty_fluxes_byband + use mo_source_functions, only: ty_source_func_lw + use rrtmgp_aux, only: check_error_msg + + public rrtmgp_lw_rte_init, rrtmgp_lw_rte_run, rrtmgp_lw_rte_finalize +contains + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_rte_init + ! ######################################################################################### + subroutine rrtmgp_lw_rte_init() + end subroutine rrtmgp_lw_rte_init + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_rte_run + ! ######################################################################################### +!! \section arg_table_rrtmgp_lw_rte_run +!! \htmlinclude rrtmgp_lw_rte.html +!! + subroutine rrtmgp_lw_rte_run(doLWrad, nCol, nLev, p_lay, t_lay, p_lev, skt, lw_gas_props, & + sfc_emiss_byband, sources, lw_optical_props_clrsky, lw_optical_props_clouds, & + lw_optical_props_aerosol, secdiff, nGauss_angles, fluxlwUP_allsky, fluxlwDOWN_allsky,& + fluxlwUP_clrsky, fluxlwDOWN_clrsky, hlw0, hlwb, errmsg, errflg) + + ! Inputs + logical, intent(in) :: & + doLWrad ! Logical flag for longwave radiation call + integer, intent(in) :: & + nCol, & ! Number of horizontal gridpoints + nLev, & ! Number of vertical levels + nGauss_angles ! Number of angles used in Gaussian quadrature + real(kind_phys), dimension(ncol,nLev), intent(in) :: & + p_lay, & ! Pressure @ model layer-centers (hPa) + t_lay ! Temperature (K) + real(kind_phys), dimension(ncol,nLev+1), intent(in) :: & + p_lev ! Pressure @ model layer-interfaces (hPa) + real(kind_phys), dimension(ncol), intent(in) :: & + skt ! Surface(skin) temperature (K) + type(ty_gas_optics_rrtmgp),intent(in) :: & + lw_gas_props ! RRTMGP DDT: longwave spectral information + real(kind_phys), dimension(lw_gas_props%get_nband(),ncol), intent(in) :: & + sfc_emiss_byband ! Surface emissivity in each band + type(ty_source_func_lw),intent(in) :: & + sources ! RRTMGP DDT: longwave source functions + type(ty_optical_props_1scl),intent(inout) :: & + lw_optical_props_clrsky ! RRTMGP DDT: longwave clear-sky radiative properties + type(ty_optical_props_1scl),intent(in) :: & + lw_optical_props_clouds, & ! RRTMGP DDT: longwave cloud radiative properties + lw_optical_props_aerosol ! RRTMGP DDT: longwave aerosol radiative properties + real(kind_phys), dimension(lw_gas_props%get_nband(),ncol),intent(in) :: & + secdiff + ! Outputs + real(kind_phys), dimension(ncol,nLev+1), intent(out) :: & + fluxlwUP_allsky, & ! All-sky flux (W/m2) + fluxlwDOWN_allsky, & ! All-sky flux (W/m2) + fluxlwUP_clrsky, & ! Clear-sky flux (W/m2) + fluxlwDOWN_clrsky ! All-sky flux (W/m2) + character(len=*), intent(out) :: & + errmsg ! CCPP error message + integer, intent(out) :: & + errflg ! CCPP error flag + + ! Outputs (optional) + real(kind_phys), dimension(ncol,nLev,lw_gas_props%get_nband()), optional, intent(inout) :: & + hlwb ! All-sky heating rate, by band (K/sec) + real(kind_phys), dimension(ncol,nLev), optional, intent(inout) :: & + hlw0 ! Clear-sky heating rate (K/sec) + + ! Local variables + integer :: & + iCol, iBand, iLay + type(ty_fluxes_byband) :: & + flux_allsky, flux_clrsky + real(kind_phys), dimension(ncol,nLev+1,lw_gas_props%get_nband()),target :: & + fluxLW_up_allsky, fluxLW_up_clrsky, fluxLW_dn_allsky, fluxLW_dn_clrsky + logical :: & + l_ClrSky_HR, l_AllSky_HR_byband, top_at_1 + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. doLWrad) return + + ! Vertical ordering? + top_at_1 = (p_lev(1,1) .lt. p_lev(1, nLev)) + + ! Are any optional outputs requested? Need to know now to compute correct fluxes. + l_ClrSky_HR = present(hlw0) + l_AllSky_HR_byband = present(hlwb) + + ! Initialize RRTMGP DDT containing 2D(3D) fluxes + flux_allsky%bnd_flux_up => fluxLW_up_allsky + flux_allsky%bnd_flux_dn => fluxLW_dn_allsky + flux_clrsky%bnd_flux_up => fluxLW_up_clrsky + flux_clrsky%bnd_flux_dn => fluxLW_dn_clrsky + + ! + ! Compute clear-sky fluxes (if requested) + ! + ! Add aerosol optics to gas optics + call check_error_msg('rrtmgp_lw_rte_run',lw_optical_props_aerosol%increment(lw_optical_props_clrsky)) + + ! Apply diffusivity angle adjustment (RRTMG legacy) + do iCol=1,nCol + do iBand=1,lw_gas_props%get_nband() + lw_optical_props_clrsky%tau(iCol,1:nLev,iBand) = lw_optical_props_clrsky%tau(iCol,1:nLev,iBand)*secdiff(iBand,iCol) + enddo + enddo + + ! Call RTE solver + if (l_ClrSky_HR) then + call check_error_msg('rrtmgp_lw_rte_run',rte_lw( & + lw_optical_props_clrsky, & ! IN - optical-properties + top_at_1, & ! IN - veritcal ordering flag + sources, & ! IN - source function + sfc_emiss_byband, & ! IN - surface emissivity in each LW band + flux_clrsky, & ! OUT - Fluxes + n_gauss_angles = nGauss_angles)) + ! Store fluxes + fluxlwUP_clrsky = sum(flux_clrsky%bnd_flux_up,dim=3) + fluxlwDOWN_clrsky = sum(flux_clrsky%bnd_flux_dn,dim=3) + endif + + ! + ! All-sky fluxes + ! + + ! Apply diffusivity angle adjustment (RRTMG legacy) + !do iCol=1,nCol + ! do iBand=1,lw_gas_props%get_nband() + ! lw_optical_props_clouds%tau(iCol,1:nLev,iBand) = lw_optical_props_clouds%tau(iCol,1:nLev,iBand)*secdiff(iBand,iCol) + ! enddo + !enddo + ! Add cloud optics to clear-sky optics + call check_error_msg('rrtmgp_lw_rte_run',lw_optical_props_clouds%increment(lw_optical_props_clrsky)) + + ! Call RTE solver + call check_error_msg('rrtmgp_lw_rte_run',rte_lw( & + lw_optical_props_clrsky, & ! IN - optical-properties + top_at_1, & ! IN - veritcal ordering flag + sources, & ! IN - source function + sfc_emiss_byband, & ! IN - surface emissivity in each LW band + flux_allsky, & ! OUT - Flxues + n_gauss_angles = nGauss_angles)) + ! Store fluxes + fluxlwUP_allsky = sum(flux_allsky%bnd_flux_up,dim=3) + fluxlwDOWN_allsky = sum(flux_allsky%bnd_flux_dn,dim=3) + + ! Only output fluxes by-band when heating-rate profiles by band are requested. + !if (l_AllSky_HR_byband) then + !endif + + end subroutine rrtmgp_lw_rte_run + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_lw_rte_finalize + ! ######################################################################################### + subroutine rrtmgp_lw_rte_finalize() + end subroutine rrtmgp_lw_rte_finalize + + +end module rrtmgp_lw_rte diff --git a/physics/rrtmgp_lw_rte.meta b/physics/rrtmgp_lw_rte.meta new file mode 100644 index 000000000..e85a607fa --- /dev/null +++ b/physics/rrtmgp_lw_rte.meta @@ -0,0 +1,200 @@ +[ccpp-arg-table] + name = rrtmgp_lw_rte_run + type = scheme +[doLWrad] + standard_name = flag_to_calc_lw + long_name = logical flags for lw radiation calls + units = flag + dimensions = () + type = logical + intent = in + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[nLev] + standard_name = vertical_dimension + long_name = number of vertical levels + units = count + dimensions = () + type = integer + intent = in + optional = F +[nGauss_angles] + standard_name = number_of_angles_used_in_gaussian_quadrature + long_name = Number of angles used in Gaussian quadrature + units = count + dimensions = () + type = integer + intent = in + optional = F +[p_lay] + standard_name = air_pressure_at_layer_for_RRTMGP_in_hPa + long_name = air pressure layer + units = hPa + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[p_lev] + standard_name = air_pressure_at_interface_for_RRTMGP_in_hPa + long_name = air pressure level + units = hPa + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[t_lay] + standard_name = air_temperature_at_layer_for_RRTMGP + long_name = air temperature layer + units = K + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[skt] + standard_name = surface_ground_temperature_for_radiation + long_name = surface ground temperature for radiation + units = K + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sfc_emiss_byband] + standard_name = surface_emissivity_in_each_RRTMGP_LW_band + long_name = surface emissivity in each RRTMGP LW band + units = none + dimensions = (number_of_lw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[lw_gas_props] + standard_name = coefficients_for_lw_gas_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[lw_optical_props_clrsky] + standard_name = longwave_optical_properties_for_clear_sky + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_1scl + intent = inout + optional = F +[lw_optical_props_clouds] + standard_name = longwave_optical_properties_for_cloudy_atmosphere + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_1scl + intent = in + optional = F +[lw_optical_props_aerosol] + standard_name = longwave_optical_properties_for_aerosols + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_1scl + intent = in + optional = F +[sources] + standard_name = longwave_source_function + long_name = Fortran DDT containing RRTMGP source functions + units = DDT + dimensions = () + type = ty_source_func_lw + intent = in + optional = F +[hlw0] + standard_name = RRTMGP_lw_heating_rate_clear_sky + long_name = RRTMGP longwave clear sky heating rate + units = K s-1 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = T +[hlwb] + standard_name = RRTMGP_lw_heating_rate_spectral + long_name = RRTMGP longwave total sky heating rate (spectral) + units = K s-1 + dimensions = (horizontal_dimension,vertical_dimension,number_of_lw_spectral_points_rrtmgp) + type = real + kind = kind_phys + intent = in + optional = T +[secdiff] + standard_name = secant_of_diffusivity_angle_each_RRTMGP_LW_band + long_name = secant of diffusivity angle in each RRTMGP LW band + units = none + dimensions = (number_of_lw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[fluxlwUP_allsky] + standard_name = RRTMGP_lw_flux_profile_upward_allsky + long_name = RRTMGP upward longwave all-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = out + optional = F +[fluxlwDOWN_allsky] + standard_name = RRTMGP_lw_flux_profile_downward_allsky + long_name = RRTMGP downward longwave all-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = out + optional = F +[fluxlwUP_clrsky] + standard_name = RRTMGP_lw_flux_profile_upward_clrsky + long_name = RRTMGP upward longwave clr-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = out + optional = F +[fluxlwDOWN_clrsky] + standard_name = RRTMGP_lw_flux_profile_downward_clrsky + long_name = RRTMGP downward longwave clr-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F diff --git a/physics/rrtmgp_sw_aerosol_optics.F90 b/physics/rrtmgp_sw_aerosol_optics.F90 new file mode 100644 index 000000000..d6413c368 --- /dev/null +++ b/physics/rrtmgp_sw_aerosol_optics.F90 @@ -0,0 +1,115 @@ +module rrtmgp_sw_aerosol_optics + use machine, only: kind_phys + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use mo_optical_props, only: ty_optical_props_2str + use rrtmgp_aux, only: check_error_msg + use module_radiation_aerosols, only: & + NF_AESW, & ! Number of optical-fields in SW output (3=tau+g+omega) + NF_AELW, & ! Number of optical-fields in LW output (3=tau+g+omega) + setaer, & ! Routine to compute aerosol radiative properties (tau,g,omega) + NSPC1 ! Number of species for vertically integrated aerosol optical-depth + use netcdf + + public rrtmgp_sw_aerosol_optics_init, rrtmgp_sw_aerosol_optics_run, rrtmgp_sw_aerosol_optics_finalize +contains + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_sw_aerosol_optics_init() + ! ######################################################################################### + subroutine rrtmgp_sw_aerosol_optics_init() + end subroutine rrtmgp_sw_aerosol_optics_init + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_sw_aerosol_optics_run() + ! ######################################################################################### +!! \section arg_table_rrtmgp_sw_aerosol_optics_run +!! \htmlinclude rrtmgp_sw_aerosol_optics.html +!! + subroutine rrtmgp_sw_aerosol_optics_run(doSWrad, nCol, nLev, nTracer, nDay, idxday, p_lev,& + p_lay, p_lk, tv_lay, relhum, lsmask, tracer, lon, lat, lw_gas_props, sw_gas_props, & + aerodp, sw_optical_props_aerosol, errmsg, errflg) + + ! Inputs + logical, intent(in) :: & + doSWrad ! Logical flag for shortwave radiation call + integer, intent(in) :: & + nCol, & ! Number of horizontal grid points + nDay, & ! Number of daylit points + nLev, & ! Number of vertical layers + nTracer ! Number of tracers + integer,intent(in),dimension(nCol) :: & + idxday ! Indices for daylit points. + real(kind_phys), dimension(nCol), intent(in) :: & + lon, & ! Longitude + lat, & ! Latitude + lsmask ! Land/sea/sea-ice mask + real(kind_phys), dimension(nCol,Nlev),intent(in) :: & + p_lay, & ! Pressure @ layer-centers (Pa) + tv_lay, & ! Virtual-temperature @ layer-centers (K) + relhum, & ! Relative-humidity @ layer-centers + p_lk ! Exner function @ layer-centers (1) + real(kind_phys), dimension(nCol, nLev, nTracer),intent(in) :: & + tracer ! trace gas concentrations + real(kind_phys), dimension(nCol,nLev+1),intent(in) :: & + p_lev ! Pressure @ layer-interfaces (Pa) + type(ty_gas_optics_rrtmgp),intent(in) :: & + sw_gas_props ! RRTMGP DDT: spectral information for SW calculation + type(ty_gas_optics_rrtmgp),intent(in) :: & + lw_gas_props ! RRTMGP DDT: spectral information for LW calculation + + ! Outputs + real(kind_phys), dimension(nCol,NSPC1), intent(inout) :: & + aerodp ! Vertical integrated optical depth for various aerosol species + type(ty_optical_props_2str),intent(out) :: & + sw_optical_props_aerosol ! RRTMGP DDT: Longwave aerosol optical properties (tau) + integer, intent(out) :: & + errflg ! CCPP error flag + character(len=*), intent(out) :: & + errmsg ! CCPP error message + + ! Local variables + real(kind_phys), dimension(nCol, nLev, lw_gas_props%get_nband(), NF_AELW) :: & + aerosolslw ! + real(kind_phys), dimension(nCol, nLev, sw_gas_props%get_nband(), NF_AESW) :: & + aerosolssw, aerosolssw2 + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. doSWrad) return + if (nDay .gt. 0) then + + ! Call module_radiation_aerosols::setaer(),to setup aerosols property profile + call setaer(p_lev, p_lay, p_lk, tv_lay, relhum, lsmask, tracer, lon, lat, nCol, nLev, & + nLev+1, .true., .true., aerosolssw2, aerosolslw, aerodp) + + ! Store aerosol optical properties + ! SW. + ! For RRTMGP SW the bands are now ordered from [IR(band) -> nIR -> UV], in RRTMG the + ! band ordering was [nIR -> UV -> IR(band)] + aerosolssw(1:nCol,:,1,1) = aerosolssw2(1:nCol,:,sw_gas_props%get_nband(),1) + aerosolssw(1:nCol,:,1,2) = aerosolssw2(1:nCol,:,sw_gas_props%get_nband(),2) + aerosolssw(1:nCol,:,1,3) = aerosolssw2(1:nCol,:,sw_gas_props%get_nband(),3) + aerosolssw(1:nCol,:,2:sw_gas_props%get_nband(),1) = aerosolssw2(1:nCol,:,1:sw_gas_props%get_nband()-1,1) + aerosolssw(1:nCol,:,2:sw_gas_props%get_nband(),2) = aerosolssw2(1:nCol,:,1:sw_gas_props%get_nband()-1,2) + aerosolssw(1:nCol,:,2:sw_gas_props%get_nband(),3) = aerosolssw2(1:nCol,:,1:sw_gas_props%get_nband()-1,3) + + ! Allocate RRTMGP DDT: Aerosol optics [nCol,nlev,nBands] + call check_error_msg('rrtmgp_sw_aerosol_optics_run',sw_optical_props_aerosol%alloc_2str( & + nDay, nlev, sw_gas_props%get_band_lims_wavenumber())) + + ! Copy aerosol optical information to RRTMGP DDT + sw_optical_props_aerosol%tau = aerosolssw(idxday(1:nday),:,:,1) + sw_optical_props_aerosol%ssa = aerosolssw(idxday(1:nday),:,:,2) + sw_optical_props_aerosol%g = aerosolssw(idxday(1:nday),:,:,3) + endif + + end subroutine rrtmgp_sw_aerosol_optics_run + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_sw_aerosol_optics_finalize() + ! ######################################################################################### + subroutine rrtmgp_sw_aerosol_optics_finalize() + end subroutine rrtmgp_sw_aerosol_optics_finalize +end module rrtmgp_sw_aerosol_optics diff --git a/physics/rrtmgp_sw_aerosol_optics.meta b/physics/rrtmgp_sw_aerosol_optics.meta new file mode 100644 index 000000000..20240327f --- /dev/null +++ b/physics/rrtmgp_sw_aerosol_optics.meta @@ -0,0 +1,182 @@ +[ccpp-arg-table] + name = rrtmgp_sw_aerosol_optics_run + type = scheme +[doSWrad] + standard_name = flag_to_calc_sw + long_name = logical flags for sw radiation calls + units = flag + dimensions = () + type = logical + intent = in + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[nLev] + standard_name = vertical_dimension + long_name = number of vertical levels + units = count + dimensions = () + type = integer + intent = in + optional = F +[nTracer] + standard_name = number_of_tracers + long_name = number of tracers + units = count + dimensions = () + type = integer + intent = in + optional = F +[nday] + standard_name = daytime_points_dimension + long_name = daytime points dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[idxday] + standard_name = daytime_points + long_name = daytime points + units = index + dimensions = (horizontal_dimension) + type = integer + intent = in + optional = F +[p_lev] + standard_name = air_pressure_at_interface_for_RRTMGP_in_hPa + long_name = air pressure at vertical interface for radiation calculation + units = hPa + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[p_lay] + standard_name = air_pressure_at_layer_for_RRTMGP_in_hPa + long_name = air pressure at vertical layer for radiation calculation + units = hPa + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[p_lk] + standard_name = dimensionless_exner_function_at_model_layers + long_name = dimensionless Exner function at model layer centers + units = none + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[tv_lay] + standard_name = virtual_temperature + long_name = layer virtual temperature + units = K + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[relhum] + standard_name = relative_humidity + long_name = layer relative humidity + units = frac + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[lsmask] + standard_name = sea_land_ice_mask_real + long_name = landmask: sea/land/ice=0/1/2 + units = flag + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[tracer] + standard_name = chemical_tracers + long_name = chemical tracers + units = g g-1 + dimensions = (horizontal_dimension,vertical_dimension,number_of_tracers) + type = real + kind = kind_phys + intent = in + optional = F +[lon] + standard_name = longitude + long_name = longitude + units = radians + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[lat] + standard_name = latitude + long_name = latitude + units = radians + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[lw_gas_props] + standard_name = coefficients_for_lw_gas_optics + long_name = DDT containing spectral information for RRTMGP LW radiation scheme + units = DDT + dimensions = () + intent = in + type = ty_gas_optics_rrtmgp + optional = F +[sw_gas_props] + standard_name = coefficients_for_sw_gas_optics + long_name = DDT containing spectral information for RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[aerodp] + standard_name = atmosphere_optical_thickness_due_to_ambient_aerosol_particles + long_name = vertical integrated optical depth for various aerosol species + units = none + dimensions = (horizontal_dimension,number_of_species_for_aerosol_optical_depth) + type = real + kind = kind_phys + intent = inout + optional = F +[sw_optical_props_aerosol] + standard_name = shortwave_optical_properties_for_aerosols + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_2str + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F \ No newline at end of file diff --git a/physics/rrtmgp_sw_cloud_optics.F90 b/physics/rrtmgp_sw_cloud_optics.F90 new file mode 100644 index 000000000..99dcef2a5 --- /dev/null +++ b/physics/rrtmgp_sw_cloud_optics.F90 @@ -0,0 +1,367 @@ +module rrtmgp_sw_cloud_optics + use machine, only: kind_phys + use mo_rte_kind, only: wl + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use mo_cloud_optics, only: ty_cloud_optics + use physparam, only: isubcsw, iovrsw + use mo_optical_props, only: ty_optical_props_2str + use mo_rrtmg_sw_cloud_optics, only: rrtmg_sw_cloud_optics + use rrtmgp_aux, only: check_error_msg + use netcdf + + public rrtmgp_sw_cloud_optics_init, rrtmgp_sw_cloud_optics_run, rrtmgp_sw_cloud_optics_finalize +contains + ! ######################################################################################### + ! SUBROUTINE sw_cloud_optics_init + ! ######################################################################################### +!! \section arg_table_rrtmgp_sw_cloud_optics_init +!! \htmlinclude rrtmgp_lw_cloud_optics.html +!! + subroutine rrtmgp_sw_cloud_optics_init(cld_optics_scheme, nrghice, rrtmgp_root_dir, & + rrtmgp_sw_file_clouds, mpicomm, mpirank, mpiroot, sw_cloud_props, errmsg, errflg) + + ! Inputs + integer, intent(inout) :: & + nrghice ! Number of ice-roughness categories + integer, intent(in) :: & + cld_optics_scheme, & ! Cloud-optics scheme + mpicomm, & ! MPI communicator + mpirank, & ! Current MPI rank + mpiroot ! Master MPI rank + character(len=128),intent(in) :: & + rrtmgp_root_dir, & ! RTE-RRTMGP root directory + rrtmgp_sw_file_clouds ! RRTMGP file containing coefficients used to compute clouds optical properties + + ! Outputs + type(ty_cloud_optics),intent(out) :: & + sw_cloud_props ! RRTMGP DDT: shortwave spectral information + character(len=*), intent(out) :: & + errmsg ! CCPP error message + integer, intent(out) :: & + errflg ! CCPP error code + + ! Variables that will be passed to cloud_optics%load() + ! cld_optics_scheme = 1 + real(kind_phys) :: & + radliq_lwr, & ! Liquid particle size lower bound for LUT interpolation + radliq_upr, & ! Liquid particle size upper bound for LUT interpolation + radliq_fac, & ! Factor for calculating LUT interpolation indices for liquid + radice_lwr, & ! Ice particle size upper bound for LUT interpolation + radice_upr, & ! Ice particle size lower bound for LUT interpolation + radice_fac ! Factor for calculating LUT interpolation indices for ice + real(kind_phys), dimension(:,:), allocatable :: & + lut_extliq, & ! LUT shortwave liquid extinction coefficient + lut_ssaliq, & ! LUT shortwave liquid single scattering albedo + lut_asyliq, & ! LUT shortwave liquid asymmetry parameter + band_lims ! Beginning and ending wavenumber [cm -1] for each band + real(kind_phys), dimension(:,:,:), allocatable :: & + lut_extice, & ! LUT shortwave ice extinction coefficient + lut_ssaice, & ! LUT shortwave ice single scattering albedo + lut_asyice ! LUT shortwave ice asymmetry parameter + ! cld_optics_scheme = 2 + real(kind_phys), dimension(:), allocatable :: & + pade_sizereg_extliq, & ! Particle size regime boundaries for shortwave liquid extinction + ! coefficient for Pade interpolation + pade_sizereg_ssaliq, & ! Particle size regime boundaries for shortwave liquid single + ! scattering albedo for Pade interpolation + pade_sizereg_asyliq, & ! Particle size regime boundaries for shortwave liquid asymmetry + ! parameter for Pade interpolation + pade_sizereg_extice, & ! Particle size regime boundaries for shortwave ice extinction + ! coefficient for Pade interpolation + pade_sizereg_ssaice, & ! Particle size regime boundaries for shortwave ice single + ! scattering albedo for Pade interpolation + pade_sizereg_asyice ! Particle size regime boundaries for shortwave ice asymmetry + ! parameter for Pade interpolation + real(kind_phys), dimension(:,:,:), allocatable :: & + pade_extliq, & ! PADE coefficients for shortwave liquid extinction + pade_ssaliq, & ! PADE coefficients for shortwave liquid single scattering albedo + pade_asyliq ! PADE coefficients for shortwave liquid asymmetry parameter + real(kind_phys), dimension(:,:,:,:), allocatable :: & + pade_extice, & ! PADE coefficients for shortwave ice extinction + pade_ssaice, & ! PADE coefficients for shortwave ice single scattering albedo + pade_asyice ! PADE coefficients for shortwave ice asymmetry parameter + ! Dimensions + integer :: & + nrghice_fromfile, nBand, nSize_liq, nSize_ice, nSizereg,& + nCoeff_ext, nCoeff_ssa_g, nBound, nPairs + + ! Local variables + integer :: status,ncid,dimid,varID + character(len=264) :: sw_cloud_props_file + integer,parameter :: nrghice_default=2 + + ! Initialize + errmsg = '' + errflg = 0 + + if (cld_optics_scheme .eq. 0) return + + ! Filenames are set in the physics_nml + sw_cloud_props_file = trim(rrtmgp_root_dir)//trim(rrtmgp_sw_file_clouds) + + ! On master processor only... +! if (mpirank .eq. mpiroot) then + ! Open file + status = nf90_open(trim(sw_cloud_props_file), NF90_WRITE, ncid) + + ! Read dimensions + status = nf90_inq_dimid(ncid, 'nband', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nBand) + status = nf90_inq_dimid(ncid, 'nrghice', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nrghice_fromfile) + status = nf90_inq_dimid(ncid, 'nsize_liq', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nSize_liq) + status = nf90_inq_dimid(ncid, 'nsize_ice', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nSize_ice) + status = nf90_inq_dimid(ncid, 'nsizereg', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nSizereg) + status = nf90_inq_dimid(ncid, 'ncoeff_ext', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nCoeff_ext) + status = nf90_inq_dimid(ncid, 'ncoeff_ssa_g', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nCoeff_ssa_g) + status = nf90_inq_dimid(ncid, 'nbound', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nBound) + status = nf90_inq_dimid(ncid, 'pair', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nPairs) + + ! Has the number of ice-roughnesses to use been provided from the namelist? + ! If not provided, use default number of ice-roughness categories + if (nrghice .eq. 0) then + nrghice = nrghice_default + else + nrghice = nrghice_fromfile + ! If provided in the namelist, check to ensure that number of ice-roughness categories is feasible. + if (nrghice .gt. nrghice_fromfile) then + errmsg = 'Number of RRTMGP ice-roughness categories requested in namelist file is not allowed. Using default number of categories.' + nrghice = nrghice_default + endif + endif + + ! Allocate space for arrays + if (cld_optics_scheme .eq. 1) then + allocate(lut_extliq(nSize_liq, nBand)) + allocate(lut_ssaliq(nSize_liq, nBand)) + allocate(lut_asyliq(nSize_liq, nBand)) + allocate(lut_extice(nSize_ice, nBand, nrghice_fromfile)) + allocate(lut_ssaice(nSize_ice, nBand, nrghice_fromfile)) + allocate(lut_asyice(nSize_ice, nBand, nrghice_fromfile)) + endif + if (cld_optics_scheme .eq. 2) then + allocate(pade_extliq(nBand, nSizeReg, nCoeff_ext )) + allocate(pade_ssaliq(nBand, nSizeReg, nCoeff_ssa_g)) + allocate(pade_asyliq(nBand, nSizeReg, nCoeff_ssa_g)) + allocate(pade_extice(nBand, nSizeReg, nCoeff_ext, nrghice_fromfile)) + allocate(pade_ssaice(nBand, nSizeReg, nCoeff_ssa_g, nrghice_fromfile)) + allocate(pade_asyice(nBand, nSizeReg, nCoeff_ssa_g, nrghice_fromfile)) + allocate(pade_sizereg_extliq(nBound)) + allocate(pade_sizereg_ssaliq(nBound)) + allocate(pade_sizereg_asyliq(nBound)) + allocate(pade_sizereg_extice(nBound)) + allocate(pade_sizereg_ssaice(nBound)) + allocate(pade_sizereg_asyice(nBound)) + endif + allocate(band_lims(2,nBand)) + + ! Read in fields from file + if (cld_optics_scheme .eq. 1) then + write (*,*) 'Reading RRTMGP shortwave cloud data (LUT) ... ' + status = nf90_inq_varid(ncid,'radliq_lwr',varID) + status = nf90_get_var(ncid,varID,radliq_lwr) + status = nf90_inq_varid(ncid,'radliq_upr',varID) + status = nf90_get_var(ncid,varID,radliq_upr) + status = nf90_inq_varid(ncid,'radliq_fac',varID) + status = nf90_get_var(ncid,varID,radliq_fac) + status = nf90_inq_varid(ncid,'radice_lwr',varID) + status = nf90_get_var(ncid,varID,radice_lwr) + status = nf90_inq_varid(ncid,'radice_upr',varID) + status = nf90_get_var(ncid,varID,radice_upr) + status = nf90_inq_varid(ncid,'radice_fac',varID) + status = nf90_get_var(ncid,varID,radice_fac) + status = nf90_inq_varid(ncid,'lut_extliq',varID) + status = nf90_get_var(ncid,varID,lut_extliq) + status = nf90_inq_varid(ncid,'lut_ssaliq',varID) + status = nf90_get_var(ncid,varID,lut_ssaliq) + status = nf90_inq_varid(ncid,'lut_asyliq',varID) + status = nf90_get_var(ncid,varID,lut_asyliq) + status = nf90_inq_varid(ncid,'lut_extice',varID) + status = nf90_get_var(ncid,varID,lut_extice) + status = nf90_inq_varid(ncid,'lut_ssaice',varID) + status = nf90_get_var(ncid,varID,lut_ssaice) + status = nf90_inq_varid(ncid,'lut_asyice',varID) + status = nf90_get_var(ncid,varID,lut_asyice) + status = nf90_inq_varid(ncid,'bnd_limits_wavenumber',varID) + status = nf90_get_var(ncid,varID,band_lims) + endif + if (cld_optics_scheme .eq. 2) then + write (*,*) 'Reading RRTMGP shortwave cloud data (PADE) ... ' + status = nf90_inq_varid(ncid,'radliq_lwr',varID) + status = nf90_get_var(ncid,varID,radliq_lwr) + status = nf90_inq_varid(ncid,'radliq_upr',varID) + status = nf90_get_var(ncid,varID,radliq_upr) + status = nf90_inq_varid(ncid,'radliq_fac',varID) + status = nf90_get_var(ncid,varID,radliq_fac) + status = nf90_inq_varid(ncid,'radice_lwr',varID) + status = nf90_get_var(ncid,varID,radice_lwr) + status = nf90_inq_varid(ncid,'radice_upr',varID) + status = nf90_get_var(ncid,varID,radice_upr) + status = nf90_inq_varid(ncid,'radice_fac',varID) + status = nf90_get_var(ncid,varID,radice_fac) + status = nf90_inq_varid(ncid,'pade_extliq',varID) + status = nf90_get_var(ncid,varID,pade_extliq) + status = nf90_inq_varid(ncid,'pade_ssaliq',varID) + status = nf90_get_var(ncid,varID,pade_ssaliq) + status = nf90_inq_varid(ncid,'pade_asyliq',varID) + status = nf90_get_var(ncid,varID,pade_asyliq) + status = nf90_inq_varid(ncid,'pade_extice',varID) + status = nf90_get_var(ncid,varID,pade_extice) + status = nf90_inq_varid(ncid,'pade_ssaice',varID) + status = nf90_get_var(ncid,varID,pade_ssaice) + status = nf90_inq_varid(ncid,'pade_asyice',varID) + status = nf90_get_var(ncid,varID,pade_asyice) + status = nf90_inq_varid(ncid,'pade_sizreg_extliq',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_extliq) + status = nf90_inq_varid(ncid,'pade_sizreg_ssaliq',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_ssaliq) + status = nf90_inq_varid(ncid,'pade_sizreg_asyliq',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_asyliq) + status = nf90_inq_varid(ncid,'pade_sizreg_extice',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_extice) + status = nf90_inq_varid(ncid,'pade_sizreg_ssaice',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_ssaice) + status = nf90_inq_varid(ncid,'pade_sizreg_asyice',varID) + status = nf90_get_var(ncid,varID,pade_sizereg_asyice) + status = nf90_inq_varid(ncid,'bnd_limits_wavenumber',varID) + status = nf90_get_var(ncid,varID,band_lims) + endif + + ! Close file + status = nf90_close(ncid) +! endif + + ! Load tables data for RRTMGP cloud-optics + if (cld_optics_scheme .eq. 1) then + call check_error_msg('sw_cloud_optics_init',sw_cloud_props%load(band_lims, & + radliq_lwr, radliq_upr, radliq_fac, radice_lwr, radice_upr, radice_fac, & + lut_extliq, lut_ssaliq, lut_asyliq, lut_extice, lut_ssaice, lut_asyice)) + endif + if (cld_optics_scheme .eq. 2) then + call check_error_msg('sw_cloud_optics_init', sw_cloud_props%load(band_lims, & + pade_extliq, pade_ssaliq, pade_asyliq, pade_extice, pade_ssaice, pade_asyice,& + pade_sizereg_extliq, pade_sizereg_ssaliq, pade_sizereg_asyliq, & + pade_sizereg_extice, pade_sizereg_ssaice, pade_sizereg_asyice)) + endif + call check_error_msg('sw_cloud_optics_init',sw_cloud_props%set_ice_roughness(nrghice)) + end subroutine rrtmgp_sw_cloud_optics_init + + ! ######################################################################################### + ! SUBROTUINE rrtmgp_sw_cloud_optics_run() + ! ######################################################################################### +!! \section arg_table_rrtmgp_sw_cloud_optics_run +!! \htmlinclude rrtmgp_sw_cloud_optics.html +!! + subroutine rrtmgp_sw_cloud_optics_run(doSWrad, nCol, nLev, nDay, idxday, nrghice, & + cld_optics_scheme, cld_frac, cld_lwp, cld_reliq, cld_iwp, cld_reice, cld_swp, & + cld_resnow, cld_rwp, cld_rerain, sw_cloud_props, sw_gas_props, & + sw_optical_props_cloudsByBand, cldtausw, errmsg, errflg) + + ! Inputs + logical, intent(in) :: & + doSWrad ! Logical flag for shortwave radiation call + integer, intent(in) :: & + nCol, & ! Number of horizontal gridpoints + nLev, & ! Number of vertical levels + nday, & ! Number of daylit points. + nrghice, & ! Number of ice-roughness categories + cld_optics_scheme ! Cloud-optics scheme + integer,intent(in),dimension(ncol) :: & + idxday ! Indices for daylit points. + real(kind_phys), dimension(ncol,nLev),intent(in) :: & + cld_frac, & ! Total cloud fraction by layer + cld_lwp, & ! Cloud liquid water path + cld_reliq, & ! Cloud liquid effective radius + cld_iwp, & ! Cloud ice water path + cld_reice, & ! Cloud ice effective radius + cld_swp, & ! Cloud snow water path + cld_resnow, & ! Cloud snow effective radius + cld_rwp, & ! Cloud rain water path + cld_rerain ! Cloud rain effective radius + type(ty_cloud_optics),intent(in) :: & + sw_cloud_props ! RRTMGP DDT: shortwave cloud properties + type(ty_gas_optics_rrtmgp),intent(in) :: & + sw_gas_props ! RRTMGP DDT: shortwave K-distribution data + + ! Outputs + character(len=*), intent(out) :: & + errmsg ! CCPP error message + integer, intent(out) :: & + errflg ! CCPP error code + type(ty_optical_props_2str),intent(out) :: & + sw_optical_props_cloudsByBand ! RRTMGP DDT: Shortwave optical properties (cloudy atmosphere) + real(kind_phys), dimension(ncol,NLev), intent(out) :: & + cldtausw ! approx 10.mu band layer cloud optical depth + + ! Local variables + logical,dimension(nday,nLev) :: liqmask, icemask + real(kind_phys), dimension(nday,nLev,sw_gas_props%get_nband()) :: & + tau_cld, ssa_cld, asy_cld + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. doSWrad) return + if (nDay .gt. 0) then + + ! Compute ice/liquid cloud masks, needed by rrtmgp_cloud_optics + liqmask = (cld_frac(idxday(1:nday),:) .gt. 0 .and. cld_lwp(idxday(1:nday),:) .gt. 0) + icemask = (cld_frac(idxday(1:nday),:) .gt. 0 .and. cld_iwp(idxday(1:nday),:) .gt. 0) + + ! Allocate space for RRTMGP DDTs containing cloud radiative properties + ! Cloud optics [nday,nLev,nBands] + call check_error_msg('rrtmgp_sw_cloud_optics_run',sw_optical_props_cloudsByBand%alloc_2str(& + nday, nLev, sw_gas_props%get_band_lims_wavenumber())) + sw_optical_props_cloudsByBand%tau(:,:,:) = 0._kind_phys + sw_optical_props_cloudsByBand%ssa(:,:,:) = 0._kind_phys + sw_optical_props_cloudsByBand%g(:,:,:) = 0._kind_phys + + ! Compute cloud-optics for RTE. + if (cld_optics_scheme .gt. 0) then + ! RRTMGP cloud-optics. + call check_error_msg('rrtmgp_sw_cloud_optics_run',sw_cloud_props%cloud_optics(& + cld_lwp(idxday(1:nday),:), & ! IN - Cloud liquid water path + cld_iwp(idxday(1:nday),:), & ! IN - Cloud ice water path + cld_reliq(idxday(1:nday),:), & ! IN - Cloud liquid effective radius + cld_reice(idxday(1:nday),:), & ! IN - Cloud ice effective radius + sw_optical_props_cloudsByBand)) ! OUT - RRTMGP DDT: Shortwave optical properties, + ! in each band (tau,ssa,g) + else + ! RRTMG cloud-optics + tau_cld(:,:,:) = 0._kind_phys + ssa_cld(:,:,:) = 0._kind_phys + asy_cld(:,:,:) = 0._kind_phys + if (any(cld_frac .gt. 0)) then + call rrtmg_sw_cloud_optics(nday, nLev, sw_gas_props%get_nband(), & + cld_lwp(idxday(1:nday),:), cld_reliq(idxday(1:nday),:), & + cld_iwp(idxday(1:nday),:), cld_reice(idxday(1:nday),:), & + cld_rwp(idxday(1:nday),:), cld_rerain(idxday(1:nday),:), & + cld_swp(idxday(1:nday),:), cld_resnow(idxday(1:nday),:), & + cld_frac(idxday(1:nday),:), tau_cld, ssa_cld, asy_cld) + endif + sw_optical_props_cloudsByBand%tau(:,:,:) = tau_cld + sw_optical_props_cloudsByBand%ssa(:,:,:) = ssa_cld + sw_optical_props_cloudsByBand%g(:,:,:) = asy_cld + endif + + ! All-sky SW optical depth ~0.55microns + cldtausw(idxday(1:nDay),:) = sw_optical_props_cloudsByBand%tau(:,:,11) + endif + + end subroutine rrtmgp_sw_cloud_optics_run + + ! ######################################################################################### + ! SUBROTUINE rrtmgp_sw_cloud_optics_finalize() + ! ######################################################################################### + subroutine rrtmgp_sw_cloud_optics_finalize() + end subroutine rrtmgp_sw_cloud_optics_finalize + +end module rrtmgp_sw_cloud_optics diff --git a/physics/rrtmgp_sw_cloud_optics.meta b/physics/rrtmgp_sw_cloud_optics.meta new file mode 100644 index 000000000..c60ae90d6 --- /dev/null +++ b/physics/rrtmgp_sw_cloud_optics.meta @@ -0,0 +1,278 @@ +[ccpp-arg-table] + name = rrtmgp_sw_cloud_optics_init + type = scheme +[cld_optics_scheme] + standard_name = rrtmgp_cloud_optics_flag + long_name = Flag to control which RRTMGP cloud-optics scheme + units = flag + dimensions = () + type = integer + intent = in + optional = F +[nrghice] + standard_name = number_of_rrtmgp_ice_roughness + long_name = number of ice-roughness categories in RRTMGP calculation + units = count + dimensions = () + type = integer + intent = inout + optional = F +[rrtmgp_root_dir] + standard_name = directory_for_rte_rrtmgp_source_code + long_name = directory for rte+rrtmgp source code + units = none + dimensions = () + type = character + intent = in + optional = F + kind = len=128 +[rrtmgp_sw_file_clouds] + standard_name = rrtmgp_coeff_sw_cloud_optics + long_name = file containing coefficients for RRTMGP SW cloud optics + units = none + dimensions = () + type = character + intent = in + optional = F + kind = len=128 +[mpirank] + standard_name = mpi_rank + long_name = current MPI rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[mpiroot] + standard_name = mpi_root + long_name = master MPI rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[mpicomm] + standard_name = mpi_comm + long_name = MPI communicator + units = index + dimensions = () + type = integer + intent = in + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F +[sw_cloud_props] + standard_name = coefficients_for_sw_cloud_optics + long_name = DDT containing spectral information for RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_cloud_optics + intent = out + optional = F + +######################################################################## +[ccpp-arg-table] + name = rrtmgp_sw_cloud_optics_run + type = scheme +[doSWrad] + standard_name = flag_to_calc_sw + long_name = logical flags for sw radiation calls + units = flag + dimensions = () + type = logical + intent = in + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[nLev] + standard_name = vertical_dimension + long_name = number of vertical levels + units = count + dimensions = () + type = integer + intent = in + optional = F +[cld_optics_scheme] + standard_name = rrtmgp_cloud_optics_flag + long_name = Flag to control which RRTMGP cloud-optics scheme + units = flag + dimensions = () + type = integer + intent = in + optional = F +[nrghice] + standard_name = number_of_rrtmgp_ice_roughness + long_name = number of ice-roughness categories in RRTMGP calculation + units = count + dimensions = () + type = integer + intent = in + optional = F +[cld_frac] + standard_name = total_cloud_fraction + long_name = layer total cloud fraction + units = frac + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[cld_lwp] + standard_name = cloud_liquid_water_path + long_name = layer cloud liquid water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[cld_reliq] + standard_name = mean_effective_radius_for_liquid_cloud + long_name = mean effective radius for liquid cloud + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[cld_iwp] + standard_name = cloud_ice_water_path + long_name = layer cloud ice water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[cld_reice] + standard_name = mean_effective_radius_for_ice_cloud + long_name = mean effective radius for ice cloud + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[cld_swp] + standard_name = cloud_snow_water_path + long_name = layer cloud snow water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[cld_resnow] + standard_name = mean_effective_radius_for_snow_flake + long_name = mean effective radius for snow cloud + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[cld_rwp] + standard_name = cloud_rain_water_path + long_name = layer cloud rain water path + units = g m-2 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[cld_rerain] + standard_name = mean_effective_radius_for_rain_drop + long_name = mean effective radius for rain cloud + units = micron + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sw_cloud_props] + standard_name = coefficients_for_sw_cloud_optics + long_name = DDT containing spectral information for cloudy RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_cloud_optics + intent = in + optional = F +[sw_gas_props] + standard_name = coefficients_for_sw_gas_optics + long_name = DDT containing spectral information for RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[nday] + standard_name = daytime_points_dimension + long_name = daytime points dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[idxday] + standard_name = daytime_points + long_name = daytime points + units = index + dimensions = (horizontal_dimension) + type = integer + intent = in + optional = F +[sw_optical_props_cloudsByBand] + standard_name = shortwave_optical_properties_for_cloudy_atmosphere_by_band + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_2str + intent = out + optional = F +[cldtausw] + standard_name = RRTMGP_cloud_optical_depth_layers_at_0_55mu_band + long_name = approx .55mu band layer cloud optical depth + units = none + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F diff --git a/physics/rrtmgp_sw_cloud_sampling.F90 b/physics/rrtmgp_sw_cloud_sampling.F90 new file mode 100644 index 000000000..cc998b755 --- /dev/null +++ b/physics/rrtmgp_sw_cloud_sampling.F90 @@ -0,0 +1,133 @@ +module rrtmgp_sw_cloud_sampling + use machine, only: kind_phys + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use physparam, only: isubcsw, iovrsw + use mo_optical_props, only: ty_optical_props_2str + use mo_cloud_sampling, only: sampled_mask_max_ran, sampled_mask_exp_ran, draw_samples + use mersenne_twister, only: random_setseed, random_number, random_stat + use rrtmgp_aux, only: check_error_msg + use netcdf + +contains + + ! ######################################################################################### + ! SUBROUTINE mcica_init + ! ######################################################################################### +!! \section arg_table_rrtmgp_sw_cloud_sampling_init +!! \htmlinclude rrtmgp_sw_cloud_sampling.html +!! + subroutine rrtmgp_sw_cloud_sampling_init(sw_gas_props, ipsdsw0) + ! Inputs + type(ty_gas_optics_rrtmgp),intent(in) :: & + sw_gas_props ! RRTMGP DDT: K-distribution data + ! Outputs + integer, intent(out) :: & + ipsdsw0 ! Initial permutation seed for McICA + + ! Set initial permutation seed for McICA, initially set to number of G-points + ipsdsw0 = sw_gas_props%get_ngpt() + + end subroutine rrtmgp_sw_cloud_sampling_init + + ! ######################################################################################### + ! SUBROTUINE rrtmgp_sw_cloud_sampling_run() + ! ######################################################################################### +!! \section arg_table_rrtmgp_sw_cloud_sampling_run +!! \htmlinclude rrtmgp_sw_cloud_sampling.html +!! + subroutine rrtmgp_sw_cloud_sampling_run(doSWrad, nCol, nDay, nLev, ipsdsw0, idxday, & + icseed_sw, cld_frac, sw_gas_props, sw_optical_props_cloudsByBand, & + sw_optical_props_clouds, errmsg, errflg) + + ! Inputs + logical, intent(in) :: & + doSWrad ! Logical flag for shortwave radiation call + integer, intent(in) :: & + nCol, & ! Number of horizontal gridpoints + nDay, & ! Number of daylit points. + nLev, & ! Number of vertical layers + ipsdsw0 ! Initial permutation seed for McICA + integer,intent(in),dimension(ncol) :: & + idxday ! Indices for daylit points. + integer,intent(in),dimension(ncol) :: & + icseed_sw ! auxiliary special cloud related array when module + ! variable isubcsw=2, it provides permutation seed + ! for each column profile that are used for generating + ! random numbers. when isubcsw /=2, it will not be used. + real(kind_phys), dimension(ncol,nLev),intent(in) :: & + cld_frac ! Total cloud fraction by layer + type(ty_gas_optics_rrtmgp),intent(in) :: & + sw_gas_props ! RRTMGP DDT: K-distribution data + type(ty_optical_props_2str),intent(in) :: & + sw_optical_props_cloudsByBand ! RRTMGP DDT: Shortwave optical properties (cloudy atmosphere) + + ! Outputs + character(len=*), intent(out) :: & + errmsg ! Error message + integer, intent(out) :: & + errflg ! Error code + type(ty_optical_props_2str),intent(out) :: & + sw_optical_props_clouds ! RRTMGP DDT: Shortwave optical properties (cloudy atmosphere) + + ! Local variables + integer :: iCol + integer,dimension(ncol) :: ipseed_sw + type(random_stat) :: rng_stat + real(kind_phys), dimension(sw_gas_props%get_ngpt(),nLev,ncol) :: rng3D + real(kind_phys), dimension(sw_gas_props%get_ngpt()*nLev) :: rng1D + logical, dimension(ncol,nLev,sw_gas_props%get_ngpt()) :: cldfracMCICA + real(kind_phys), dimension(ncol,nLev) :: cld_frac_noSamp + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. doSWrad) return + if (nDay .gt. 0) then + + ! Allocate space RRTMGP DDTs [nday,nLev,nGpt] + call check_error_msg('rrtmgp_sw_cloud_sampling_run',sw_optical_props_clouds%alloc_2str( & + nday, nLev, sw_gas_props)) + + ! Change random number seed value for each radiation invocation (isubcsw =1 or 2). + if(isubcsw == 1) then ! advance prescribed permutation seed + do iCol = 1, ncol + ipseed_sw(iCol) = ipsdsw0 + iCol + enddo + elseif (isubcsw == 2) then ! use input array of permutaion seeds + do iCol = 1, ncol + ipseed_sw(iCol) = icseed_sw(iCol) + enddo + endif + + ! Call McICA to generate subcolumns. + ! Call RNG. Mersennse Twister accepts 1D array, so loop over columns and collapse along G-points + ! and layers. ([nGpts,nLev,nColumn]-> [nGpts*nLev]*nColumn) + do iCol=1,ncol + call random_setseed(ipseed_sw(icol),rng_stat) + call random_number(rng1D,rng_stat) + rng3D(:,:,iCol) = reshape(source = rng1D,shape=[sw_gas_props%get_ngpt(),nLev]) + enddo + + ! Call McICA + select case ( iovrsw ) + ! Maximumn-random + case(1) + call check_error_msg('rrtmgp_sw_cloud_sampling_run',sampled_mask_max_ran(rng3D,cld_frac,cldfracMCICA)) + end select + + ! Map band optical depth to each g-point using McICA + call check_error_msg('rrtmgp_sw_cloud_sampling_run',draw_samples(& + cldfracMCICA(idxday(1:nDay),:,:),sw_optical_props_cloudsByBand,sw_optical_props_clouds)) + + endif + + end subroutine rrtmgp_sw_cloud_sampling_run + + ! ######################################################################################### + ! SUBROTUINE rrtmgp_sw_cloud_sampling_finalize() + ! ######################################################################################### + subroutine rrtmgp_sw_cloud_sampling_finalize() + end subroutine rrtmgp_sw_cloud_sampling_finalize + +end module rrtmgp_sw_cloud_sampling diff --git a/physics/rrtmgp_sw_cloud_sampling.meta b/physics/rrtmgp_sw_cloud_sampling.meta new file mode 100644 index 000000000..3ad9073d5 --- /dev/null +++ b/physics/rrtmgp_sw_cloud_sampling.meta @@ -0,0 +1,130 @@ +[ccpp-arg-table] + name = rrtmgp_sw_cloud_sampling_init + type = scheme +[sw_gas_props] + standard_name = coefficients_for_sw_gas_optics + long_name = DDT containing spectral information for RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[ipsdsw0] + standard_name = initial_permutation_seed_sw + long_name = initial seed for McICA SW + units = none + dimensions = () + type = integer + intent = out + optional = F + +###################################################### +[ccpp-arg-table] + name = rrtmgp_sw_cloud_sampling_run + type = scheme +[doSWrad] + standard_name = flag_to_calc_sw + long_name = logical flags for sw radiation calls + units = flag + dimensions = () + type = logical + intent = in + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[nday] + standard_name = daytime_points_dimension + long_name = daytime points dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[nLev] + standard_name = vertical_dimension + long_name = number of vertical levels + units = count + dimensions = () + type = integer + intent = in + optional = F +[ipsdsw0] + standard_name = initial_permutation_seed_sw + long_name = initial seed for McICA SW + units = none + dimensions = () + type = integer + intent = in + optional = F +[idxday] + standard_name = daytime_points + long_name = daytime points + units = index + dimensions = (horizontal_dimension) + type = integer + intent = in + optional = F +[icseed_sw] + standard_name = seed_random_numbers_sw + long_name = seed for random number generation for shortwave radiation + units = none + dimensions = (horizontal_dimension) + type = integer + intent = in + optional = F +[cld_frac] + standard_name = total_cloud_fraction + long_name = layer total cloud fraction + units = frac + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sw_gas_props] + standard_name = coefficients_for_sw_gas_optics + long_name = DDT containing spectral information for RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[sw_optical_props_cloudsByBand] + standard_name = shortwave_optical_properties_for_cloudy_atmosphere_by_band + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_2str + intent = in + optional = F +[sw_optical_props_clouds] + standard_name = shortwave_optical_properties_for_cloudy_atmosphere + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_2str + intent = out + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F \ No newline at end of file diff --git a/physics/rrtmgp_sw_gas_optics.F90 b/physics/rrtmgp_sw_gas_optics.F90 new file mode 100644 index 000000000..a0691e940 --- /dev/null +++ b/physics/rrtmgp_sw_gas_optics.F90 @@ -0,0 +1,371 @@ +module rrtmgp_sw_gas_optics + use machine, only: kind_phys + use module_radiation_gases, only: NF_VGAS + use mo_rte_kind, only: wl + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use mo_gas_concentrations, only: ty_gas_concs + use rrtmgp_aux, only: check_error_msg + use mo_optical_props, only: ty_optical_props_2str + use mo_compute_bc, only: compute_bc + use netcdf + +contains + + ! ######################################################################################### + ! SUBROUTINE sw_gas_optics_init + ! ######################################################################################### +!! \section arg_table_rrtmgp_sw_gas_optics_init +!! \htmlinclude rrtmgp_sw_gas_optics.html +!! + subroutine rrtmgp_sw_gas_optics_init(rrtmgp_root_dir, rrtmgp_sw_file_gas, rrtmgp_nGases, & + active_gases_array, mpicomm, mpirank, mpiroot, sw_gas_props, errmsg, errflg) + + ! Inputs + character(len=128),intent(in) :: & + rrtmgp_root_dir, & ! RTE-RRTMGP root directory + rrtmgp_sw_file_gas ! RRTMGP file containing coefficients used to compute gaseous optical properties + integer, intent(in) :: & + rrtmgp_nGases ! Number of trace gases active in RRTMGP + character(len=*),dimension(rrtmgp_nGases), intent(in) :: & + active_gases_array ! Character array containing trace gases to include in RRTMGP + integer,intent(in) :: & + mpicomm, & ! MPI communicator + mpirank, & ! Current MPI rank + mpiroot ! Master MPI rank + + ! Outputs + character(len=*), intent(out) :: & + errmsg ! CCPP error message + integer, intent(out) :: & + errflg ! CCPP error code + type(ty_gas_optics_rrtmgp),intent(out) :: & + sw_gas_props ! RRTMGP DDT: shortwave spectral information + + ! Variables that will be passed to gas_optics%load() + type(ty_gas_concs) :: & + gas_concentrations + integer, dimension(:), allocatable :: & + kminor_start_lower, & ! Starting index in the [1, nContributors] vector for a contributor + ! given by \"minor_gases_lower\" (lower atmosphere) + kminor_start_upper ! Starting index in the [1, nContributors] vector for a contributor + ! given by \"minor_gases_upper\" (upper atmosphere) + integer, dimension(:,:), allocatable :: & + band2gpt, & ! Beginning and ending gpoint for each band + minor_limits_gpt_lower, & ! Beginning and ending gpoint for each minor interval in lower atmosphere + minor_limits_gpt_upper ! Beginning and ending gpoint for each minor interval in upper atmosphere + integer, dimension(:,:,:), allocatable :: & + key_species ! Key species pair for each band + real(kind_phys) :: & + press_ref_trop, & ! Reference pressure separating the lower and upper atmosphere [Pa] + temp_ref_p, & ! Standard spectroscopic reference pressure [Pa] + temp_ref_t ! Standard spectroscopic reference temperature [K] + real(kind_phys), dimension(:), allocatable :: & + press_ref, & ! Pressures for reference atmosphere; press_ref(# reference layers) [Pa] + temp_ref, & ! Temperatures for reference atmosphere; temp_ref(# reference layers) [K] + solar_source ! Stored solar source function from original RRTM + real(kind_phys), dimension(:,:), allocatable :: & + band_lims ! Beginning and ending wavenumber [cm -1] for each band + + real(kind_phys), dimension(:,:,:), allocatable :: & + vmr_ref, & ! Volume mixing ratios for reference atmosphere + kminor_lower, & ! (transformed from [nTemp x nEta x nGpt x nAbsorbers] array to + ! [nTemp x nEta x nContributors] array) + kminor_upper, & ! (transformed from [nTemp x nEta x nGpt x nAbsorbers] array to + ! [nTemp x nEta x nContributors] array) + rayl_lower, & ! Stored coefficients due to rayleigh scattering contribution + rayl_upper ! Stored coefficients due to rayleigh scattering contribution + real(kind_phys), dimension(:,:,:,:), allocatable :: & + kmajor ! Stored absorption coefficients due to major absorbing gases + character(len=32), dimension(:), allocatable :: & + gas_names, & ! Names of absorbing gases + gas_minor, & ! Name of absorbing minor gas + identifier_minor, & ! Unique string identifying minor gas + minor_gases_lower, & ! Names of minor absorbing gases in lower atmosphere + minor_gases_upper, & ! Names of minor absorbing gases in upper atmosphere + scaling_gas_lower, & ! Absorption also depends on the concentration of this gas + scaling_gas_upper ! Absorption also depends on the concentration of this gas + logical(wl), dimension(:), allocatable :: & + minor_scales_with_density_lower, & ! Density scaling is applied to minor absorption coefficients + minor_scales_with_density_upper, & ! Density scaling is applied to minor absorption coefficients + scale_by_complement_lower, & ! Absorption is scaled by concentration of scaling_gas (F) or its complement (T) + scale_by_complement_upper ! Absorption is scaled by concentration of scaling_gas (F) or its complement (T) + ! Dimensions + integer :: & + ntemps, npress, ngpts, nabsorbers, nextrabsorbers, & + nminorabsorbers, nmixingfracs, nlayers, nbnds, npairs, & + nminor_absorber_intervals_lower, nminor_absorber_intervals_upper, & + ncontributors_lower, ncontributors_upper + + ! Local variables + integer :: status, ncid, dimid, varID, iGas + integer,dimension(:),allocatable :: temp1, temp2, temp3, temp4 + character(len=264) :: sw_gas_props_file + + ! Initialize + errmsg = '' + errflg = 0 + + write(*,"(a52,3i20)") 'rrtmgp_sw_gas_optics.F90:_init(): RRTMGP MPI ranks: ',mpirank,mpiroot,mpicomm + + ! Filenames are set in the gphysics_nml + sw_gas_props_file = trim(rrtmgp_root_dir)//trim(rrtmgp_sw_file_gas) + + ! Read dimensions for k-distribution fields (only on master processor(0)) +! if (mpirank .eq. mpiroot) then + ! Open file + status = nf90_open(trim(sw_gas_props_file), NF90_WRITE, ncid) + + ! Read dimensions for k-distribution fields + status = nf90_inq_dimid(ncid, 'temperature', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=ntemps) + status = nf90_inq_dimid(ncid, 'pressure', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=npress) + status = nf90_inq_dimid(ncid, 'absorber', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nabsorbers) + status = nf90_inq_dimid(ncid, 'minor_absorber',dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nminorabsorbers) + status = nf90_inq_dimid(ncid, 'absorber_ext', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nextrabsorbers) + status = nf90_inq_dimid(ncid, 'mixing_fraction', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nmixingfracs) + status = nf90_inq_dimid(ncid, 'atmos_layer', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nlayers) + status = nf90_inq_dimid(ncid, 'bnd', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nbnds) + status = nf90_inq_dimid(ncid, 'gpt', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=ngpts) + status = nf90_inq_dimid(ncid, 'pair', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=npairs) + status = nf90_inq_dimid(ncid, 'contributors_lower',dimid) + status = nf90_inquire_dimension(ncid, dimid, len=ncontributors_lower) + status = nf90_inq_dimid(ncid, 'contributors_upper', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=ncontributors_upper) + status = nf90_inq_dimid(ncid, 'minor_absorber_intervals_lower', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nminor_absorber_intervals_lower) + status = nf90_inq_dimid(ncid, 'minor_absorber_intervals_upper', dimid) + status = nf90_inquire_dimension(ncid, dimid, len=nminor_absorber_intervals_upper) + + ! Allocate space for arrays + allocate(gas_names(nabsorbers)) + allocate(scaling_gas_lower(nminor_absorber_intervals_lower)) + allocate(scaling_gas_upper(nminor_absorber_intervals_upper)) + allocate(gas_minor(nminorabsorbers)) + allocate(identifier_minor(nminorabsorbers)) + allocate(minor_gases_lower(nminor_absorber_intervals_lower)) + allocate(minor_gases_upper(nminor_absorber_intervals_upper)) + allocate(minor_limits_gpt_lower(npairs,nminor_absorber_intervals_lower)) + allocate(minor_limits_gpt_upper(npairs,nminor_absorber_intervals_upper)) + allocate(band2gpt(2,nbnds)) + allocate(key_species(2,nlayers,nbnds)) + allocate(band_lims(2,nbnds)) + allocate(press_ref(npress)) + allocate(temp_ref(ntemps)) + allocate(vmr_ref(nlayers, nextrabsorbers, ntemps)) + allocate(kminor_lower(ncontributors_lower, nmixingfracs, ntemps)) + allocate(kmajor(ngpts, nmixingfracs, npress+1, ntemps)) + allocate(kminor_start_lower(nminor_absorber_intervals_lower)) + allocate(kminor_upper(ncontributors_upper, nmixingfracs, ntemps)) + allocate(kminor_start_upper(nminor_absorber_intervals_upper)) + allocate(minor_scales_with_density_lower(nminor_absorber_intervals_lower)) + allocate(minor_scales_with_density_upper(nminor_absorber_intervals_upper)) + allocate(scale_by_complement_lower(nminor_absorber_intervals_lower)) + allocate(scale_by_complement_upper(nminor_absorber_intervals_upper)) + allocate(rayl_upper(ngpts, nmixingfracs, ntemps)) + allocate(rayl_lower(ngpts, nmixingfracs, ntemps)) + allocate(solar_source(ngpts)) + allocate(temp1(nminor_absorber_intervals_lower)) + allocate(temp2(nminor_absorber_intervals_upper)) + allocate(temp3(nminor_absorber_intervals_lower)) + allocate(temp4(nminor_absorber_intervals_upper)) + + ! Read in fields from file + write (*,*) 'Reading RRTMGP shortwave k-distribution data ... ' + status = nf90_inq_varid(ncid, 'gas_names', varID) + status = nf90_get_var( ncid, varID, gas_names) + status = nf90_inq_varid(ncid, 'scaling_gas_lower', varID) + status = nf90_get_var( ncid, varID, scaling_gas_lower) + status = nf90_inq_varid(ncid, 'scaling_gas_upper', varID) + status = nf90_get_var( ncid, varID, scaling_gas_upper) + status = nf90_inq_varid(ncid, 'gas_minor', varID) + status = nf90_get_var( ncid, varID, gas_minor) + status = nf90_inq_varid(ncid, 'identifier_minor', varID) + status = nf90_get_var( ncid, varID, identifier_minor) + status = nf90_inq_varid(ncid, 'minor_gases_lower', varID) + status = nf90_get_var( ncid, varID, minor_gases_lower) + status = nf90_inq_varid(ncid, 'minor_gases_upper', varID) + status = nf90_get_var( ncid, varID, minor_gases_upper) + status = nf90_inq_varid(ncid, 'minor_limits_gpt_lower', varID) + status = nf90_get_var( ncid, varID, minor_limits_gpt_lower) + status = nf90_inq_varid(ncid, 'minor_limits_gpt_upper', varID) + status = nf90_get_var( ncid, varID, minor_limits_gpt_upper) + status = nf90_inq_varid(ncid, 'bnd_limits_gpt', varID) + status = nf90_get_var( ncid, varID, band2gpt) + status = nf90_inq_varid(ncid, 'key_species', varID) + status = nf90_get_var( ncid, varID, key_species) + status = nf90_inq_varid(ncid,'bnd_limits_wavenumber', varID) + status = nf90_get_var( ncid, varID, band_lims) + status = nf90_inq_varid(ncid, 'press_ref', varID) + status = nf90_get_var( ncid, varID, press_ref) + status = nf90_inq_varid(ncid, 'temp_ref', varID) + status = nf90_get_var( ncid, varID, temp_ref) + status = nf90_inq_varid(ncid, 'absorption_coefficient_ref_P', varID) + status = nf90_get_var( ncid, varID, temp_ref_p) + status = nf90_inq_varid(ncid, 'absorption_coefficient_ref_T', varID) + status = nf90_get_var( ncid, varID, temp_ref_t) + status = nf90_inq_varid(ncid, 'press_ref_trop', varID) + status = nf90_get_var( ncid, varID, press_ref_trop) + status = nf90_inq_varid(ncid, 'kminor_lower', varID) + status = nf90_get_var( ncid, varID, kminor_lower) + status = nf90_inq_varid(ncid, 'kminor_upper', varID) + status = nf90_get_var( ncid, varID, kminor_upper) + status = nf90_inq_varid(ncid, 'vmr_ref', varID) + status = nf90_get_var( ncid, varID, vmr_ref) + status = nf90_inq_varid(ncid, 'kmajor', varID) + status = nf90_get_var( ncid, varID, kmajor) + status = nf90_inq_varid(ncid, 'kminor_start_lower', varID) + status = nf90_get_var( ncid, varID, kminor_start_lower) + status = nf90_inq_varid(ncid, 'kminor_start_upper', varID) + status = nf90_get_var( ncid, varID, kminor_start_upper) + status = nf90_inq_varid(ncid, 'solar_source', varID) + status = nf90_get_var( ncid, varID, solar_source) + status = nf90_inq_varid(ncid, 'rayl_lower', varID) + status = nf90_get_var( ncid, varID, rayl_lower) + status = nf90_inq_varid(ncid, 'rayl_upper', varID) + status = nf90_get_var( ncid, varID, rayl_upper) + + ! Logical fields are read in as integers and then converted to logicals. + status = nf90_inq_varid(ncid,'minor_scales_with_density_lower', varID) + status = nf90_get_var( ncid, varID,temp1) + minor_scales_with_density_lower(:) = .false. + where(temp1 .eq. 1) minor_scales_with_density_lower(:) = .true. + status = nf90_inq_varid(ncid,'minor_scales_with_density_upper', varID) + status = nf90_get_var( ncid, varID,temp2) + minor_scales_with_density_upper(:) = .false. + where(temp2 .eq. 1) minor_scales_with_density_upper(:) = .true. + status = nf90_inq_varid(ncid,'scale_by_complement_lower', varID) + status = nf90_get_var( ncid, varID,temp3) + scale_by_complement_lower(:) = .false. + where(temp3 .eq. 1) scale_by_complement_lower(:) = .true. + status = nf90_inq_varid(ncid,'scale_by_complement_upper', varID) + status = nf90_get_var( ncid, varID,temp4) + scale_by_complement_upper(:) = .false. + where(temp4 .eq. 1) scale_by_complement_upper(:) = .true. + + ! Close + status = nf90_close(ncid) +! endif + + + ! Initialize gas concentrations and gas optics class + call check_error_msg('sw_gas_optics_init',gas_concentrations%init(active_gases_array)) + call check_error_msg('sw_gas_optics_init',sw_gas_props%load(gas_concentrations, gas_names, & + key_species, band2gpt, band_lims, press_ref, press_ref_trop, temp_ref, temp_ref_p, & + temp_ref_t, vmr_ref, kmajor, kminor_lower, kminor_upper, gas_minor, identifier_minor, & + minor_gases_lower, minor_gases_upper, minor_limits_gpt_lower,minor_limits_gpt_upper, & + minor_scales_with_density_lower, minor_scales_with_density_upper, scaling_gas_lower, & + scaling_gas_upper, scale_by_complement_lower, scale_by_complement_upper, & + kminor_start_lower, kminor_start_upper, solar_source, rayl_lower, rayl_upper)) + + end subroutine rrtmgp_sw_gas_optics_init + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_sw_gas_optics_run + ! ######################################################################################### +!! \section arg_table_rrtmgp_sw_gas_optics_run +!! \htmlinclude rrtmgp_sw_gas_optics.html +!! + subroutine rrtmgp_sw_gas_optics_run(doSWrad, nCol, nLev, nday, idxday, sw_gas_props, p_lay,& + p_lev, toa_src_sw, t_lay, t_lev, gas_concentrations, solcon, rrtmgp_nGases, & + active_gases_array, sw_optical_props_clrsky, errmsg, errflg) + + ! Inputs + logical, intent(in) :: & + doSWrad ! Flag to calculate SW irradiances + integer,intent(in) :: & + nDay, & ! Number of daylit points. + nCol, & ! Number of horizontal points + nLev ! Number of vertical levels + integer,intent(in),dimension(ncol) :: & + idxday ! Indices for daylit points. + type(ty_gas_optics_rrtmgp),intent(in) :: & + sw_gas_props ! RRTMGP DDT: spectral information for RRTMGP SW radiation scheme + real(kind_phys), dimension(ncol,nLev), intent(in) :: & + p_lay, & ! Pressure @ model layer-centers (hPa) + t_lay ! Temperature (K) + real(kind_phys), dimension(ncol,nLev+1), intent(in) :: & + p_lev, & ! Pressure @ model layer-interfaces (hPa) + t_lev ! Temperature @ model levels + type(ty_gas_concs),intent(in) :: & + gas_concentrations ! RRTMGP DDT: trace gas concentrations (vmr) + real(kind_phys), intent(in) :: & + solcon ! Solar constant + integer, intent(in) :: & + rrtmgp_nGases ! Number of trace gases active in RRTMGP + character(len=*),dimension(rrtmgp_nGases), intent(in) :: & + active_gases_array ! Character array containing trace gases to include in RRTMGP + + ! Output + character(len=*), intent(out) :: & + errmsg ! CCPP error message + integer, intent(out) :: & + errflg ! CCPP error code + type(ty_optical_props_2str),intent(out) :: & + sw_optical_props_clrsky ! RRTMGP DDT: clear-sky shortwave optical properties, spectral (tau,ssa,g) + real(kind_phys), dimension(ncol,sw_gas_props%get_ngpt()), intent(out) :: & + toa_src_sw ! TOA incident spectral flux (W/m2) + + ! Local variables + integer :: ij,iGas + real(kind_phys), dimension(ncol,nLev) :: vmrTemp + real(kind_phys), dimension(nday,sw_gas_props%get_ngpt()) :: toa_src_sw_temp + type(ty_gas_concs) :: & + gas_concentrations_daylit ! RRTMGP DDT: trace gas concentrations (vmr) + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. doSWrad) return + + if (nDay .gt. 0) then + ! Allocate space + call check_error_msg('rrtmgp_sw_gas_optics_run',sw_optical_props_clrsky%alloc_2str(nday, nLev, sw_gas_props)) + + ! Initialize gas concentrations and gas optics class + call check_error_msg('rrtmgp_sw_rte_run',gas_concentrations_daylit%init(active_gases_array)) + + ! Subset the gas concentrations, only need daylit points. + do iGas=1,rrtmgp_nGases + call check_error_msg('rrtmgp_sw_rte_run',& + gas_concentrations%get_vmr(trim(active_gases_array(iGas)),vmrTemp)) + call check_error_msg('rrtmgp_sw_rte_run',& + gas_concentrations_daylit%set_vmr(trim(active_gases_array(iGas)),vmrTemp(idxday(1:nday),:))) + enddo + + ! Gas-optics + call check_error_msg('rrtmgp_sw_gas_optics_run',sw_gas_props%gas_optics(& + p_lay(idxday(1:nday),:), & ! IN - Pressure @ layer-centers (Pa) + p_lev(idxday(1:nday),:), & ! IN - Pressure @ layer-interfaces (Pa) + t_lay(idxday(1:nday),:), & ! IN - Temperature @ layer-centers (K) + gas_concentrations_daylit, & ! IN - RRTMGP DDT: trace gas volumne mixing-ratios + sw_optical_props_clrsky, & ! OUT - RRTMGP DDT: Shortwave optical properties, by + ! spectral point (tau,ssa,g) + toa_src_sw_temp)) ! OUT - TOA incident shortwave radiation (spectral) + toa_src_sw(idxday(1:nday),:) = toa_src_sw_temp + ! Scale incident flux + do ij=1,nday + toa_src_sw(idxday(ij),:) = toa_src_sw(idxday(ij),:)*solcon/ & + sum(toa_src_sw(idxday(ij),:)) + enddo + endif + + end subroutine rrtmgp_sw_gas_optics_run + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_sw_gas_optics_finalize + ! ######################################################################################### + subroutine rrtmgp_sw_gas_optics_finalize() + end subroutine rrtmgp_sw_gas_optics_finalize + +end module rrtmgp_sw_gas_optics + diff --git a/physics/rrtmgp_sw_gas_optics.meta b/physics/rrtmgp_sw_gas_optics.meta new file mode 100644 index 000000000..fc8e72a9a --- /dev/null +++ b/physics/rrtmgp_sw_gas_optics.meta @@ -0,0 +1,244 @@ +[ccpp-arg-table] + name = rrtmgp_sw_gas_optics_init + type = scheme +[rrtmgp_root_dir] + standard_name = directory_for_rte_rrtmgp_source_code + long_name = directory for rte+rrtmgp source code + units = none + dimensions = () + type = character + intent = in + optional = F + kind = len=128 +[rrtmgp_sw_file_gas] + standard_name = rrtmgp_kdistribution_sw + long_name = file containing RRTMGP SW k-distribution + units = none + dimensions = () + type = character + intent = in + optional = F + kind = len=128 +[rrtmgp_nGases] + standard_name = number_of_active_gases_used_by_RRTMGP + long_name = number of gases available used by RRTMGP + units = count + dimensions = () + type = integer + intent = in + optional = F +[active_gases_array] + standard_name = list_of_active_gases_used_by_RRTMGP + long_name = list of active gases used by RRTMGP + units = none + dimensions = (number_of_active_gases_used_by_RRTMGP) + type = character + kind = len=* + intent = in + optional = F +[mpirank] + standard_name = mpi_rank + long_name = current MPI rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[mpiroot] + standard_name = mpi_root + long_name = master MPI rank + units = index + dimensions = () + type = integer + intent = in + optional = F +[mpicomm] + standard_name = mpi_comm + long_name = MPI communicator + units = index + dimensions = () + type = integer + intent = in + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F +[sw_gas_props] + standard_name = coefficients_for_sw_gas_optics + long_name = DDT containing spectral information for RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = out + optional = F + +######################################################################## +[ccpp-arg-table] + name = rrtmgp_sw_gas_optics_run + type = scheme +[doSWrad] + standard_name = flag_to_calc_sw + long_name = flag to calculate SW irradiances + units = flag + dimensions = () + type = logical + intent = in + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[nLev] + standard_name = vertical_dimension + long_name = number of vertical levels + units = count + dimensions = () + type = integer + intent = in + optional = F +[nday] + standard_name = daytime_points_dimension + long_name = daytime points dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[idxday] + standard_name = daytime_points + long_name = daytime points + units = index + dimensions = (horizontal_dimension) + type = integer + intent = in + optional = F +[sw_gas_props] + standard_name = coefficients_for_sw_gas_optics + long_name = DDT containing spectral information for RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[p_lay] + standard_name = air_pressure_at_layer_for_RRTMGP_in_hPa + long_name = air pressure layer + units = hPa + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[p_lev] + standard_name = air_pressure_at_interface_for_RRTMGP_in_hPa + long_name = air pressure level + units = hPa + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[t_lay] + standard_name = air_temperature_at_layer_for_RRTMGP + long_name = air temperature layer + units = K + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[t_lev] + standard_name = air_temperature_at_interface_for_RRTMGP + long_name = air temperature level + units = K + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[toa_src_sw] + standard_name = toa_incident_sw_flux_by_spectral_point + long_name = TOA shortwave incident flux at each spectral points + units = W m-2 + dimensions = (horizontal_dimension,number_of_sw_spectral_points_rrtmgp) + type = real + kind = kind_phys + intent = out + optional = F +[gas_concentrations] + standard_name = Gas_concentrations_for_RRTMGP_suite + long_name = DDT containing gas concentrations for RRTMGP radiation scheme + units = DDT + dimensions = () + type = ty_gas_concs + intent = in + optional = F +[solcon] + standard_name = solar_constant + long_name = solar constant + units = W m-2 + dimensions = () + type = real + kind = kind_phys + intent = in + optional = F +[rrtmgp_nGases] + standard_name = number_of_active_gases_used_by_RRTMGP + long_name = number of gases available used by RRTMGP + units = count + dimensions = () + type = integer + intent = in + optional = F +[active_gases_array] + standard_name = list_of_active_gases_used_by_RRTMGP + long_name = list of active gases used by RRTMGP + units = none + dimensions = (number_of_active_gases_used_by_RRTMGP) + type = character + kind = len=* + intent = in + optional = F +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F +[sw_optical_props_clrsky] + standard_name = shortwave_optical_properties_for_clear_sky + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_2str + intent = out + optional = F diff --git a/physics/rrtmgp_sw_rte.F90 b/physics/rrtmgp_sw_rte.F90 new file mode 100644 index 000000000..96bfa94ea --- /dev/null +++ b/physics/rrtmgp_sw_rte.F90 @@ -0,0 +1,218 @@ +module rrtmgp_sw_rte + use machine, only: kind_phys + use mo_rte_kind, only: wl + use mo_gas_optics_rrtmgp, only: ty_gas_optics_rrtmgp + use mo_cloud_optics, only: ty_cloud_optics + use mo_optical_props, only: ty_optical_props_2str + use mo_rte_sw, only: rte_sw + use mo_gas_concentrations, only: ty_gas_concs + use mo_fluxes_byband, only: ty_fluxes_byband + use module_radsw_parameters, only: cmpfsw_type + use rrtmgp_aux, only: check_error_msg + + public rrtmgp_sw_rte_init, rrtmgp_sw_rte_run, rrtmgp_sw_rte_finalize + +contains + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_sw_rte_init + ! ######################################################################################### + subroutine rrtmgp_sw_rte_init() + end subroutine rrtmgp_sw_rte_init + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_sw_rte_run + ! ######################################################################################### +!! \section arg_table_rrtmgp_sw_rte_run +!! \htmlinclude rrtmgp_sw_rte.html +!! + subroutine rrtmgp_sw_rte_run(doSWrad, nCol, nLev, nDay, idxday, coszen, p_lay, t_lay, & + p_lev, sw_gas_props, sw_optical_props_clrsky, sfc_alb_nir_dir, sfc_alb_nir_dif, & + sfc_alb_uvvis_dir, sfc_alb_uvvis_dif, toa_src_sw, sw_optical_props_clouds, & + sw_optical_props_aerosol, rrtmgp_nGases, active_gases_array, scmpsw, fluxswUP_allsky, & + fluxswDOWN_allsky, fluxswUP_clrsky, fluxswDOWN_clrsky, hsw0, hswb, errmsg, errflg) + + ! Inputs + logical, intent(in) :: & + doSWrad ! Flag to calculate SW irradiances + integer, intent(in) :: & + nCol, & ! Number of horizontal gridpoints + nday, & ! Number of daytime points + nLev ! Number of vertical levels + integer, intent(in), dimension(ncol) :: & + idxday ! Index array for daytime points + real(kind_phys),intent(in), dimension(ncol) :: & + coszen ! Cosize of SZA + real(kind_phys), dimension(ncol,NLev), intent(in) :: & + p_lay, & ! Pressure @ model layer-centers (Pa) + t_lay ! Temperature (K) + real(kind_phys), dimension(ncol,NLev+1), intent(in) :: & + p_lev ! Pressure @ model layer-interfaces (Pa) + type(ty_gas_optics_rrtmgp),intent(in) :: & + sw_gas_props ! RRTMGP DDT: SW spectral information + type(ty_optical_props_2str),intent(inout) :: & + sw_optical_props_clrsky ! RRTMGP DDT: shortwave clear-sky radiative properties + type(ty_optical_props_2str),intent(in) :: & + sw_optical_props_clouds, & ! RRTMGP DDT: shortwave cloud radiative properties + sw_optical_props_aerosol ! RRTMGP DDT: shortwave aerosol radiative properties + real(kind_phys), dimension(sw_gas_props%get_nband(),ncol), intent(in) :: & + sfc_alb_nir_dir, & ! Surface albedo (direct) + sfc_alb_nir_dif, & ! Surface albedo (diffuse) + sfc_alb_uvvis_dir, & ! Surface albedo (direct) + sfc_alb_uvvis_dif ! Surface albedo (diffuse) + real(kind_phys), dimension(ncol,sw_gas_props%get_ngpt()), intent(in) :: & + toa_src_sw ! TOA incident spectral flux (W/m2) + integer, intent(in) :: & + rrtmgp_nGases ! Number of trace gases active in RRTMGP + character(len=*),dimension(rrtmgp_nGases), intent(in) :: & + active_gases_array ! Character array containing trace gases to include in RRTMGP + + ! Inputs (optional) (NOTE. We only need the optional arguments to know what fluxes to output, HR's are computed later) + real(kind_phys), dimension(ncol,NLev), optional, intent(inout) :: & + hsw0 ! Clear-sky heating rate (K/sec) + real(kind_phys), dimension(ncol,NLev,sw_gas_props%get_nband()), intent(inout), optional :: & + hswb ! All-sky heating rate, by band (K/sec) + + ! Outputs + character(len=*), intent(out) :: & + errmsg ! CCPP error message + integer, intent(out) :: & + errflg ! CCPP error flag + real(kind_phys), dimension(ncol,NLev+1), intent(inout) :: & + fluxswUP_allsky, & ! RRTMGP upward all-sky flux profiles (W/m2) + fluxswDOWN_allsky, & ! RRTMGP downward all-sky flux profiles (W/m2) + fluxswUP_clrsky, & ! RRTMGP upward clear-sky flux profiles (W/m2) + fluxswDOWN_clrsky ! RRTMGP downward clear-sky flux profiles (W/m2) + + ! Outputs (optional) + type(cmpfsw_type), dimension(ncol), intent(inout),optional :: & + scmpsw ! 2D surface fluxes, components: + ! uvbfc - total sky downward uv-b flux (W/m2) + ! uvbf0 - clear sky downward uv-b flux (W/m2) + ! nirbm - downward nir direct beam flux (W/m2) + ! nirdf - downward nir diffused flux (W/m2) + ! visbm - downward uv+vis direct beam flux (W/m2) + ! visdf - downward uv+vis diffused flux (W/m2) + + ! Local variables + real(kind_phys), dimension(sw_gas_props%get_nband(),nday) :: & + sfc_alb_dir,sfc_alb_dif + type(ty_fluxes_byband) :: & + flux_allsky, & ! All-sky flux (W/m2) + flux_clrsky ! Clear-sky flux (W/m2) + real(kind_phys), dimension(nday,NLev+1,sw_gas_props%get_nband()),target :: & + fluxSW_up_allsky, fluxSW_up_clrsky, fluxSW_dn_allsky, fluxSW_dn_clrsky, fluxSW_dn_dir_allsky + real(kind_phys), dimension(ncol,NLev) :: vmrTemp + logical :: l_ClrSky_HR=.false., l_AllSky_HR_byband=.false., l_scmpsw=.false., top_at_1 + integer :: iGas,iSFC,iTOA,iBand + + ! Initialize CCPP error handling variables + errmsg = '' + errflg = 0 + + if (.not. doSWrad) return + + ! Initialize output fluxes + fluxswUP_allsky(:,:) = 0._kind_phys + fluxswDOWN_allsky(:,:) = 0._kind_phys + fluxswUP_clrsky(:,:) = 0._kind_phys + fluxswDOWN_clrsky(:,:) = 0._kind_phys + + if (nDay .gt. 0) then + + ! Vertical ordering? + top_at_1 = (p_lev(1,1) .lt. p_lev(1, NLev)) + if (top_at_1) then + iSFC = NLev+1 + iTOA = 1 + else + iSFC = 1 + iTOA = NLev+1 + endif + + ! Are any optional outputs requested? Need to know now to compute correct fluxes. + l_ClrSky_HR = present(hsw0) + l_AllSky_HR_byband = present(hswb) + l_scmpsw = present(scmpsw) + if ( l_scmpsw ) then + scmpsw = cmpfsw_type (0., 0., 0., 0., 0., 0.) + endif + + ! Initialize RRTMGP DDT containing 2D(3D) fluxes + fluxSW_up_allsky(:,:,:) = 0._kind_phys + fluxSW_dn_allsky(:,:,:) = 0._kind_phys + fluxSW_dn_dir_allsky(:,:,:) = 0._kind_phys + fluxSW_up_clrsky(:,:,:) = 0._kind_phys + fluxSW_dn_clrsky(:,:,:) = 0._kind_phys + flux_allsky%bnd_flux_up => fluxSW_up_allsky + flux_allsky%bnd_flux_dn => fluxSW_dn_allsky + flux_allsky%bnd_flux_dn_dir => fluxSW_dn_dir_allsky + flux_clrsky%bnd_flux_up => fluxSW_up_clrsky + flux_clrsky%bnd_flux_dn => fluxSW_dn_clrsky + + ! *Note* Legacy RRTMG code. May need to revisit + do iBand=1,sw_gas_props%get_nband() + if (iBand .lt. 10) then + sfc_alb_dir(iBand,:) = sfc_alb_nir_dir(iBand,idxday(1:nday)) + sfc_alb_dif(iBand,:) = sfc_alb_nir_dif(iBand,idxday(1:nday)) + endif + if (iBand .eq. 10) then + sfc_alb_dir(iBand,:) = 0.5_kind_phys*(sfc_alb_nir_dir(iBand,idxday(1:nday)) + sfc_alb_uvvis_dir(iBand,idxday(1:nday))) + sfc_alb_dif(iBand,:) = 0.5_kind_phys*(sfc_alb_nir_dif(iBand,idxday(1:nday)) + sfc_alb_uvvis_dif(iBand,idxday(1:nday))) + endif + if (iBand .gt. 10) then + sfc_alb_dir(iBand,:) = sfc_alb_uvvis_dir(iBand,idxday(1:nday)) + sfc_alb_dif(iBand,:) = sfc_alb_uvvis_dif(iBand,idxday(1:nday)) + endif + enddo + + ! Compute clear-sky fluxes (if requested) + ! Clear-sky fluxes (gas+aerosol) + call check_error_msg('rrtmgp_sw_rte_run',sw_optical_props_aerosol%increment(sw_optical_props_clrsky)) + ! Delta-scale optical properties + call check_error_msg('rrtmgp_sw_rte_run',sw_optical_props_clrsky%delta_scale()) + if (l_ClrSky_HR) then + call check_error_msg('rrtmgp_sw_rte_run',rte_sw( & + sw_optical_props_clrsky, & ! IN - optical-properties + top_at_1, & ! IN - veritcal ordering flag + coszen(idxday(1:nday)), & ! IN - Cosine of solar zenith angle + toa_src_sw(idxday(1:nday),:), & ! IN - incident solar flux at TOA + sfc_alb_dir, & ! IN - Shortwave surface albedo (direct) + sfc_alb_dif, & ! IN - Shortwave surface albedo (diffuse) + flux_clrsky)) ! OUT - Fluxes, clear-sky, 3D (nCol,NLev,nBand) + ! Store fluxes + fluxswUP_clrsky(idxday(1:nday),:) = sum(flux_clrsky%bnd_flux_up,dim=3) + fluxswDOWN_clrsky(idxday(1:nday),:) = sum(flux_clrsky%bnd_flux_dn,dim=3) + endif + + ! Compute all-sky fluxes + ! All-sky fluxes (clear-sky + clouds) + call check_error_msg('rrtmgp_sw_rte_run',sw_optical_props_clouds%increment(sw_optical_props_clrsky)) + ! Delta-scale optical properties + call check_error_msg('rrtmgp_sw_rte_run',sw_optical_props_clrsky%delta_scale()) + call check_error_msg('rrtmgp_sw_rte_run',rte_sw( & + sw_optical_props_clrsky, & ! IN - optical-properties + top_at_1, & ! IN - veritcal ordering flag + coszen(idxday(1:nday)), & ! IN - Cosine of solar zenith angle + toa_src_sw(idxday(1:nday),:), & ! IN - incident solar flux at TOA + sfc_alb_dir, & ! IN - Shortwave surface albedo (direct) + sfc_alb_dif, & ! IN - Shortwave surface albedo (diffuse) + flux_allsky)) ! OUT - Fluxes, clear-sky, 3D (nCol,NLev,nBand) + ! Store fluxes + fluxswUP_allsky(idxday(1:nday),:) = sum(flux_allsky%bnd_flux_up,dim=3) + fluxswDOWN_allsky(idxday(1:nday),:) = sum(flux_allsky%bnd_flux_dn,dim=3) + if ( l_scmpsw ) then + scmpsw(idxday(1:nday))%nirbm = sum(flux_allsky%bnd_flux_dn_dir(idxday(1:nday),iSFC,:),dim=2) + scmpsw(idxday(1:nday))%nirdf = sum(flux_allsky%bnd_flux_dn(idxday(1:nday),iSFC,:),dim=2) - & + sum(flux_allsky%bnd_flux_dn_dir(idxday(1:nday),iSFC,:),dim=2) + endif + endif + end subroutine rrtmgp_sw_rte_run + + ! ######################################################################################### + ! SUBROUTINE rrtmgp_sw_rte_finalize + ! ######################################################################################### + subroutine rrtmgp_sw_rte_finalize() + end subroutine rrtmgp_sw_rte_finalize + +end module rrtmgp_sw_rte diff --git a/physics/rrtmgp_sw_rte.meta b/physics/rrtmgp_sw_rte.meta new file mode 100644 index 000000000..8ae7421c3 --- /dev/null +++ b/physics/rrtmgp_sw_rte.meta @@ -0,0 +1,252 @@ +[ccpp-arg-table] + name = rrtmgp_sw_rte_run + type = scheme +[doSWrad] + standard_name = flag_to_calc_sw + long_name = flag to calculate SW irradiances + units = flag + dimensions = () + type = logical + intent = in + optional = F +[ncol] + standard_name = horizontal_loop_extent + long_name = horizontal dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[nLev] + standard_name = vertical_dimension + long_name = number of vertical levels + units = count + dimensions = () + type = integer + intent = in + optional = F +[nday] + standard_name = daytime_points_dimension + long_name = daytime points dimension + units = count + dimensions = () + type = integer + intent = in + optional = F +[idxday] + standard_name = daytime_points + long_name = daytime points + units = index + dimensions = (horizontal_dimension) + type = integer + intent = in + optional = F +[coszen] + standard_name = cosine_of_zenith_angle + long_name = mean cos of zenith angle over rad call period + units = none + dimensions = (horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[p_lay] + standard_name = air_pressure_at_layer_for_RRTMGP_in_hPa + long_name = air pressure layer + units = hPa + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[p_lev] + standard_name = air_pressure_at_interface_for_RRTMGP_in_hPa + long_name = air pressure level + units = hPa + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = in + optional = F +[t_lay] + standard_name = air_temperature_at_layer_for_RRTMGP + long_name = air temperature layer + units = K + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sw_gas_props] + standard_name = coefficients_for_sw_gas_optics + long_name = DDT containing spectral information for RRTMGP SW radiation scheme + units = DDT + dimensions = () + type = ty_gas_optics_rrtmgp + intent = in + optional = F +[sw_optical_props_clrsky] + standard_name = shortwave_optical_properties_for_clear_sky + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_2str + intent = inout + optional = F +[sw_optical_props_clouds] + standard_name = shortwave_optical_properties_for_cloudy_atmosphere + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_2str + intent = in + optional = F +[sw_optical_props_aerosol] + standard_name = shortwave_optical_properties_for_aerosols + long_name = Fortran DDT containing RRTMGP optical properties + units = DDT + dimensions = () + type = ty_optical_props_2str + intent = in + optional = F +[sfc_alb_nir_dir] + standard_name = surface_albedo_nearIR_direct + long_name = near-IR (direct) surface albedo (sfc_alb_nir_dir) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sfc_alb_nir_dif] + standard_name = surface_albedo_nearIR_diffuse + long_name = near-IR (diffuse) surface albedo (sfc_alb_nir_dif) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sfc_alb_uvvis_dir] + standard_name = surface_albedo_uvvis_dir + long_name = UVVIS (direct) surface albedo (sfc_alb_uvvis_dir) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[sfc_alb_uvvis_dif] + standard_name = surface_albedo_uvvis_dif + long_name = UVVIS (diffuse) surface albedo (sfc_alb_uvvis_dif) + units = none + dimensions = (number_of_sw_bands_rrtmgp,horizontal_dimension) + type = real + kind = kind_phys + intent = in + optional = F +[toa_src_sw] + standard_name = toa_incident_sw_flux_by_spectral_point + long_name = TOA shortwave incident flux at each spectral points + units = W m-2 + dimensions = (horizontal_dimension,number_of_sw_spectral_points_rrtmgp) + type = real + kind = kind_phys + intent = in + optional = F +[rrtmgp_nGases] + standard_name = number_of_active_gases_used_by_RRTMGP + long_name = number of gases available used by RRTMGP + units = count + dimensions = () + type = integer + intent = in + optional = F +[active_gases_array] + standard_name = list_of_active_gases_used_by_RRTMGP + long_name = list of active gases used by RRTMGP + units = none + dimensions = (number_of_active_gases_used_by_RRTMGP) + type = character + kind = len=* + intent = in + optional = F +[scmpsw] + standard_name = components_of_surface_downward_shortwave_fluxes + long_name = derived type for special components of surface downward shortwave fluxes + units = W m-2 + dimensions = (horizontal_dimension) + type = cmpfsw_type + intent = inout + optional = T +[fluxswUP_allsky] + standard_name = RRTMGP_sw_flux_profile_upward_allsky + long_name = RRTMGP upward shortwave all-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = inout + optional = F +[fluxswDOWN_allsky] + standard_name = RRTMGP_sw_flux_profile_downward_allsky + long_name = RRTMGP downward shortwave all-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = inout + optional = F +[fluxswUP_clrsky] + standard_name = RRTMGP_sw_flux_profile_upward_clrsky + long_name = RRTMGP upward shortwave clr-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = inout + optional = F +[fluxswDOWN_clrsky] + standard_name = RRTMGP_sw_flux_profile_downward_clrsky + long_name = RRTMGP downward shortwave clr-sky flux profile + units = W m-2 + dimensions = (horizontal_dimension,vertical_dimension_plus_one) + type = real + kind = kind_phys + intent = inout + optional = F +[hsw0] + standard_name = RRTMGP_sw_heating_rate_clear_sky + long_name = shortwave clear sky heating rate + units = K s-1 + dimensions = (horizontal_dimension,vertical_dimension) + type = real + kind = kind_phys + intent = inout + optional = T +[hswb] + standard_name = RRTMGP_sw_heating_rate_spectral + long_name = shortwave total sky heating rate (spectral) + units = K s-1 + dimensions = (horizontal_dimension,vertical_dimension,number_of_sw_spectral_points_rrtmgp) + type = real + kind = kind_phys + intent = inout + optional = T +[errmsg] + standard_name = ccpp_error_message + long_name = error message for error handling in CCPP + units = none + dimensions = () + type = character + kind = len=* + intent = out + optional = F +[errflg] + standard_name = ccpp_error_flag + long_name = error flag for error handling in CCPP + units = flag + dimensions = () + type = integer + intent = out + optional = F diff --git a/physics/rte-rrtmgp b/physics/rte-rrtmgp new file mode 160000 index 000000000..7dfff2025 --- /dev/null +++ b/physics/rte-rrtmgp @@ -0,0 +1 @@ +Subproject commit 7dfff2025cae02c84b12df2402a39d77065f0e62