Analytic-DPM: an Analytic Estimate of the Optimal Reverse Variance in Diffusion Probabilistic Models
Code for the paper Analytic-DPM: an Analytic Estimate of the Optimal Reverse Variance in Diffusion Probabilistic Models
News (May 18, 2022): We provide an extended codebase (https://github.com/baofff/Extended-Analytic-DPM) for Analytic-DPM:
- It reproduces all main results, and additionally applies Analytic-DPM to score-based SDE.
- For easy reproducing, it provides pretrained DPMs converted to a format that can be directly used, as well as running commands and FID statistics.
News (Apr 22, 2022): Analytic-DPM received an Outstanding Paper Award at ICLR 2022!
pytorch=1.9.0
You can change the phase
variable in the code to determine the specific experiment you run.
For example, setting phase = "sample_analytic_ddpm"
will run sampling using the Analytic-DDPM.
You can find all available phases in run_xxx.py
.
$ cd cifar_imagenet_codes
$ python run_cifar10.py
$ cd celeba_lsun_codes
$ python run_celeba.py
$ cd cifar_imagenet_codes
$ python run_imagenet64.py
$ cd celeba_lsun_codes
$ python run_lsun_bedroom.py
-
CIFAR10 model: [checkpoint] trained by ourselves
-
CelebA 64x64 model: [checkpoint] from https://github.com/ermongroup/ddim
-
Imagenet 64x64 model: [checkpoint] from https://github.com/openai/improved-diffusion
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LSUN Bedroom model: [checkpoint] from https://github.com/pesser/pytorch_diffusion
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Precalculated Gamma vectors: [link]
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Precalculated FID statistics (calculated as described in Appendix F.2 in the paper): [link].
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https://github.com/pesser/pytorch_diffusion (provide codes of models for CelebA64x64 and LSUN Bedroom)
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https://github.com/openai/improved-diffusion (provide codes of models for CIFAR10 and Imagenet64x64)
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https://github.com/mseitzer/pytorch-fid (provide the official implementation of FID to PyTorch)