From 85cc056cb921a1696772fef3372ca52dd2ed8281 Mon Sep 17 00:00:00 2001 From: Edward Cormany Date: Wed, 18 Sep 2024 15:23:53 -0400 Subject: [PATCH 1/3] docs and notes for partial pickup static workaround --- api/docs/v2/pipettes/partial_tip_pickup.rst | 63 ++++++++++++--------- api/release-notes.md | 1 + 2 files changed, 37 insertions(+), 27 deletions(-) diff --git a/api/docs/v2/pipettes/partial_tip_pickup.rst b/api/docs/v2/pipettes/partial_tip_pickup.rst index e799d25554f..a0cb2291b56 100644 --- a/api/docs/v2/pipettes/partial_tip_pickup.rst +++ b/api/docs/v2/pipettes/partial_tip_pickup.rst @@ -183,10 +183,10 @@ The ``start`` parameter sets the first and only nozzle used in the configuration - | Back to front, left to right | (A1 through H1, A2 through H2, …) -Since they follow the same pickup order as a single-channel pipette, Opentrons recommends using the following configurations: +.. warning:: + In certain environmental conditions, tips in adjacent columns may cling to empty nozzles due to static electricity. You can avoid this by overriding automatic tip tracking to pick up tips row by row, rather than column by column. The code sample below demonstrates how to pick up tips this way. -- For 8-channel pipettes, ``start="H1"``. -- For 96-channel pipettes, ``start="H12"``. + However, as with all partial tip layouts, be careful that you don't place the pipette in a position where it overlaps more tips than intended. Here is the start of a protocol that imports the ``SINGLE`` and ``ALL`` layout constants, loads an 8-channel pipette, and sets it to pick up a single tip. @@ -210,21 +210,22 @@ Here is the start of a protocol that imports the ``SINGLE`` and ``ALL`` layout c ) pipette.configure_nozzle_layout( style=SINGLE, - start="H12", - tip_racks=[partial_rack] + start="H1" ) .. versionadded:: 2.20 -Since this configuration uses ``start="H12"``, it will pick up tips in the usual order:: +To pick up tips row by row, first construct a list of all wells in the tip rack ordered from A1, A2 … H11, H12. One way to do this is to use :py:func:`sum` to flatten the list of lists returned by :py:meth:`.Labware.rows`:: - pipette.pick_up_tip() # picks up A1 from tip rack - pipette.drop_tip() - pipette.pick_up_tip() # picks up B1 from tip rack + tips_by_row = sum(partial_rack.rows(), []) -.. note:: +Then ``pop`` items from the front of the list (index 0) and pass them as the ``location`` of :py:meth:`.pick_up_tip`:: - You can pick up tips row by row, rather than column by column, by specifying a location for :py:meth:`.pick_up_tip` each time you use it in ``SINGLE`` configuration. However, as with all partial tip layouts, be careful that you don't place the pipette in a position where it overlaps more tips than intended. + # pick up A1 from tip rack + pipette.pick_up_tip(location=tips_by_row.pop(0)) + pipette.drop_tip() + # pick up A2 from tip rack + pipette.pick_up_tip(location=tips_by_row.pop(0)) Partial Column Layout @@ -232,7 +233,7 @@ Partial Column Layout Partial column pickup is available on 8-channel pipettes only. Partial columns contain 2 to 7 consecutive tips in a single column. The pipette always picks up partial columns with its frontmost nozzles (``start="H1"``). -To specify the number of tips to pick up, add the ``end`` parameter when calling :py:meth:`.configure_nozzle_layout`. Use the chart below to determine the end row (G through B) for your desired number of tips. The end column should be the same as your start column (1 or 12). +To specify the number of tips to pick up, add the ``end`` parameter when calling :py:meth:`.configure_nozzle_layout`. Use the chart below to determine the ending nozzle (G1 through B1) for your desired number of tips. .. list-table:: :stub-columns: 1 @@ -244,16 +245,21 @@ To specify the number of tips to pick up, add the ``end`` parameter when calling - 5 - 6 - 7 - * - ``end`` row - - G - - F - - E - - D - - C - - B + * - ``end`` nozzle + - G1 + - F1 + - E1 + - D1 + - C1 + - B1 When picking up 3, 5, 6, or 7 tips, extra tips will be left at the front of each column. You can use these tips with a different nozzle configuration, or you can manually re-rack them at the end of your protocol for future use. +.. warning:: + In certain environmental conditions, tips in adjacent columns may cling to empty nozzles due to static electricity. You can avoid this by overriding automatic tip tracking to pick up tips row by row, rather than column by column. The code sample below demonstrates how to pick up tips this way. + + However, as with all partial tip layouts, be careful that you don't place the pipette in a position where it overlaps more tips than intended. + Here is the start of a protocol that imports the ``PARTIAL_COLUMN`` and ``ALL`` layout constants, loads an 8-channel pipette, and sets it to pick up four tips: .. code-block:: python @@ -274,21 +280,24 @@ Here is the start of a protocol that imports the ``PARTIAL_COLUMN`` and ``ALL`` pipette.configure_nozzle_layout( style=PARTIAL_COLUMN, start="H1", - end="E1", - tip_racks=[partial_rack] + end="E1" ) .. versionadded:: 2.20 -This configuration will pick up tips from the back half of column 1, then the front half of column 1, then the back half of column 2, and so on:: +When pipetting in partial column configuration, remember that *the frontmost channel of the pipette is its primary channel*. To pick up tips across the back half of the rack, then across the front half of the rack, construct a list of that includes all and only the wells in row D and row H:: - pipette.pick_up_tip() # picks up A1-D1 from tip rack - pipette.drop_tip() - pipette.pick_up_tip() # picks up E1-H1 from tip rack + tips_by_row = partial_rack.rows_by_name()["D"] + partial_rack.rows_by_name()["H"] + +Then ``pop`` items from the front of the list (index 0) and pass them as the ``location`` of :py:meth:`.pick_up_tip`:: + + # pick up A1-D1 from tip rack + pipette.pick_up_tip(location=tips_by_row.pop(0)) pipette.drop_tip() - pipette.pick_up_tip() # picks up A2-D2 from tip rack + # pick up A2-D2 from tip rack + pipette.pick_up_tip(location=tips_by_row.pop(0)) -When handling liquids in partial column configuration, remember that *the frontmost channel of the pipette is its primary channel*. For example, to use the same configuration as above to transfer liquid from wells A1–D1 to wells A2–D2 on a plate, you must use the wells in row D as the source and destination targets:: +To use the same configuration as above to transfer liquid from wells A1–D1 to wells A2–D2 on a plate, you must use the wells in row D as the source and destination targets:: # pipette in 4-nozzle partial column layout pipette.transfer( diff --git a/api/release-notes.md b/api/release-notes.md index f1ee3a99277..e9b62ac618b 100644 --- a/api/release-notes.md +++ b/api/release-notes.md @@ -26,6 +26,7 @@ Welcome to the v8.0.0 release of the Opentrons robot software! ### Known Issues +- During single-tip or partial-column pickup with a multi-channel pipette, tips in adjacent columns may cling to empty nozzles due to static electricity. Pick up tips row-by-row, rather than column-by-column, to avoid this. - Protocol analysis and `opentrons_simulate` do not raise an error when a protocol tries to detect liquid with a pipette nozzle configuration that doesn't contain a pressure sensor (single-tip pickup with A12 or H1). Avoid using the A12 and H1 nozzles for single-tip pickup if you need to detect liquid presence within wells. - `opentrons_simulate` describes motion to wells only with respect to the primary channel, regardless of the current pipette nozzle configuration. From 6c471926837577de6f346d25a41a765be4d1069c Mon Sep 17 00:00:00 2001 From: Edward Cormany Date: Wed, 18 Sep 2024 15:28:23 -0400 Subject: [PATCH 2/3] save all the files, dummy --- api/release-notes.md | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/api/release-notes.md b/api/release-notes.md index e9b62ac618b..fe872378af3 100644 --- a/api/release-notes.md +++ b/api/release-notes.md @@ -26,7 +26,7 @@ Welcome to the v8.0.0 release of the Opentrons robot software! ### Known Issues -- During single-tip or partial-column pickup with a multi-channel pipette, tips in adjacent columns may cling to empty nozzles due to static electricity. Pick up tips row-by-row, rather than column-by-column, to avoid this. +- During single-tip or partial-column pickup with a multi-channel pipette, tips in adjacent columns may cling to empty nozzles due to static electricity. Pick up tips row by row, rather than column by column, to avoid this. - Protocol analysis and `opentrons_simulate` do not raise an error when a protocol tries to detect liquid with a pipette nozzle configuration that doesn't contain a pressure sensor (single-tip pickup with A12 or H1). Avoid using the A12 and H1 nozzles for single-tip pickup if you need to detect liquid presence within wells. - `opentrons_simulate` describes motion to wells only with respect to the primary channel, regardless of the current pipette nozzle configuration. From 4c82772e0014426d279cdb218e40ac8045a3363f Mon Sep 17 00:00:00 2001 From: Edward Cormany Date: Thu, 19 Sep 2024 10:25:08 -0400 Subject: [PATCH 3/3] simplify warning language --- api/docs/v2/pipettes/partial_tip_pickup.rst | 4 ++-- api/release-notes.md | 2 +- 2 files changed, 3 insertions(+), 3 deletions(-) diff --git a/api/docs/v2/pipettes/partial_tip_pickup.rst b/api/docs/v2/pipettes/partial_tip_pickup.rst index a0cb2291b56..1d01174be0e 100644 --- a/api/docs/v2/pipettes/partial_tip_pickup.rst +++ b/api/docs/v2/pipettes/partial_tip_pickup.rst @@ -184,7 +184,7 @@ The ``start`` parameter sets the first and only nozzle used in the configuration | (A1 through H1, A2 through H2, …) .. warning:: - In certain environmental conditions, tips in adjacent columns may cling to empty nozzles due to static electricity. You can avoid this by overriding automatic tip tracking to pick up tips row by row, rather than column by column. The code sample below demonstrates how to pick up tips this way. + In certain conditions, tips in adjacent columns may cling to empty nozzles during single-tip pickup. You can avoid this by overriding automatic tip tracking to pick up tips row by row, rather than column by column. The code sample below demonstrates how to pick up tips this way. However, as with all partial tip layouts, be careful that you don't place the pipette in a position where it overlaps more tips than intended. @@ -256,7 +256,7 @@ To specify the number of tips to pick up, add the ``end`` parameter when calling When picking up 3, 5, 6, or 7 tips, extra tips will be left at the front of each column. You can use these tips with a different nozzle configuration, or you can manually re-rack them at the end of your protocol for future use. .. warning:: - In certain environmental conditions, tips in adjacent columns may cling to empty nozzles due to static electricity. You can avoid this by overriding automatic tip tracking to pick up tips row by row, rather than column by column. The code sample below demonstrates how to pick up tips this way. + In certain conditions, tips in adjacent columns may cling to empty nozzles during partial-column pickup. You can avoid this by overriding automatic tip tracking to pick up tips row by row, rather than column by column. The code sample below demonstrates how to pick up tips this way. However, as with all partial tip layouts, be careful that you don't place the pipette in a position where it overlaps more tips than intended. diff --git a/api/release-notes.md b/api/release-notes.md index fe872378af3..aad0cadea7a 100644 --- a/api/release-notes.md +++ b/api/release-notes.md @@ -26,7 +26,7 @@ Welcome to the v8.0.0 release of the Opentrons robot software! ### Known Issues -- During single-tip or partial-column pickup with a multi-channel pipette, tips in adjacent columns may cling to empty nozzles due to static electricity. Pick up tips row by row, rather than column by column, to avoid this. +- During single-tip or partial-column pickup with a multi-channel pipette, tips in adjacent columns may cling to empty nozzles. Pick up tips row by row, rather than column by column, to avoid this. - Protocol analysis and `opentrons_simulate` do not raise an error when a protocol tries to detect liquid with a pipette nozzle configuration that doesn't contain a pressure sensor (single-tip pickup with A12 or H1). Avoid using the A12 and H1 nozzles for single-tip pickup if you need to detect liquid presence within wells. - `opentrons_simulate` describes motion to wells only with respect to the primary channel, regardless of the current pipette nozzle configuration.