-
Type:
Task
-
Status: Done (View Workflow)
-
Priority:
Normal
-
Resolution: Done
-
Affects Version/s: None
-
Fix Version/s: None
-
Component/s: None
-
Labels:
-
Sprint:Engrun15Mar
Please make a plan for the data acquisition in March 2024 run.
The following plan duplicate PIPE2D-1335 : Plan for December 2023 Run.
It needs to be updated with the correct priorities...
[Higher priority]
- biases / darks (~20 / ~140 min.)
- no telescope time needed
- masterBiases (20 min.?) and masterDarks (140 min.?) but take n-band darks occasionally for removing persistence
- data for detectorMap (~120 min.)
- a full set of arcs and quartz (configuration in allHome)
- brn (5 frames per arc lamp and quartz) (60 min.?)
- bmn (5 frames per arc lamp and quartz) (80 min.?)
- retake a few times during the run to see the stability (is this needed?)
- a full set of arcs and quartz (configuration in allHome)
- data for FiberProfiles (TBD min.)
- repeat the following sequence for [*mod4+1, mod4+2, mod4+3, mod4+4*]
-
-
- (darkRoach)
- configure to allHidden (20 min.)
- 45 sec. quartz brn for dithers of 0.0, -0.4, 0.2, 0.0, 0.2, 0.4, 0.0 pixels (TBD min.)
- 45 sec. quartz bmn for dithers of 0.0, -0.4, 0.2, 0.0, 0.2, 0.4, 0.0 pixels (TBD min.)
- (mod4+x)
- configure to mod4+x (2 min?)
- 45 sec. quartz brn for dithers of 0.0, -0.4, 0.2, 0.0, 0.2, 0.4, 0.0 pixels (TBD min.)
- 45 sec. quartz bmn for dithers of 0.0, -0.4, 0.2, 0.0, 0.2, 0.4, 0.0 pixels (TBD min.)
- (darkRoach)
- We may add the sequence for mod32 (or mod16) with no dithering in the above
- take n-band dark while configuring allHidden?
- can we replace bmn --> m?**
-
- data for illumination study (TBD min.)
- take arc/quartz with/without flat screen (in allHome)
- configure to allHome (if home keep the configuration)
- (with flat screen)
- remove top screen (if removed keep the screen position)
- brn (3 frames for HgCd [TBC] and quartz)
- bmn (3 frames for HgCd [TBC] and quartz)
- (without flat screen)
- insert top screen
- brn (3 frames for HgCd [TBC] and quartz)
- bmn (3 frames for HgCd [TBC] and quartz)
- change illumination using different ring lamp position (in allHome)
- configure to allHome (if home keep the configuration)
- repeat the following the lamp position in [p1, p2, p3, p4]
- Turn ring lamp p1
- brn, 3 repeats of TBD sec. ring lamp quartz (TBD min.)
- bmn, 3 repeats of TBD sec. ring lamp quartz (TBD min.)
- take arc/quartz with/without flat screen (in allHome)
[Lower priority]
- data for background study (TBD min.)
- take sparse sky in [*allHidden, mod32, mod16*]
- configure to allHidden (20 min.)
- brn, 3 repeats of TBD sec. sky (TBD min)
- bmn, 3 repeats of TBD sec. sky (TBD min.)
- configure to mod32 (2 min?)
- brn, 3 repeats of TBD sec. sky (TBD min)
- bmn, 3 repeats of TBD sec. sky (TBD min.)
- configure to mod16 (2 min?)
- brn, 3 repeats of TBD sec. sky (TBD min)
- bmn, 3 repeats of TBD sec. sky (TBD min.)
- take arc/quartz in [*allHidden, mod32, mod16?*]
- configure to allHidden (20 min.)
- brn, 3 repeats of arcs and quartz (36 min)
- bmn, 3 repeats of arcs and quartz (48 min.)
- configure to mod32 (2 min?)
- brn, 3 repeats of arcs and quartz (36 min)
- bmn, 3 repeats of arcs and quartz (48 min.)
- configure to mod16 (2 min?) <-- do we need?
- brn, 3 repeats of arcs and quartz (36 min)
- bmn, 3 repeats of arcs and quartz (48 min.)
- do we need take allHidden data just before each brn(or bmn) sequence like fiberProfiles data?
- take sparse sky in [*allHidden, mod32, mod16*]
- data for dot penumbra study (TBD min.)
- configure cobras at different distance from dots
- take brn, 3 repeats of quartz
- data for uniformity (~90 min.)
- quartz (in allHome)
- configure to allHome
- brn, 3 repeats of 60 sec. quartz, InR = -150,-90,-30,0,30,90,150 (7 min. x 7)
- twilight (in allHome)
- configure to allHome
- brn, 3 repeats of 180 sec. twilight, InR = -90, 0, 90 (13 min. x 3)
- quartz (in allHome)
- data for PSF modeling (TBD min.)
- change various theta/phi angle
- configure cobras at different theta/phi angle
- take brn, 3 repeats of quartz
- (defocus data for Kota’s study if we have time)
- change various theta/phi angle
- data for n-band specific?
Data analysis plan
- Generate CALIBs (a good chance for NAOJ to make CALIBs)
- masterBiases/masterDarks --> constructPfsBias.py & constructPfsDark.py
- detectorMap --> reduceArc
- fiberProfiles --> reduceProfiles
- flat --> TBC
- QA analysis
- run detectorMapQA (based on Wilfred's notebook?)
- run extractionQA (Hamano-san will prepare a script)
-
- masterBiases (20 min.?) and masterDarks (140 min.?) but take n-band darks occasionally for removing persistence
- data for detectorMap (~120 min.)
- a full set of arcs and quartz (configuration in allHome)
- brn (5 frames per arc lamp and quartz) (60 min.?)
- bmn (5 frames per arc lamp and quartz) (80 min.?)
- retake a few times during the run to see the stability (is this needed?)
- a full set of arcs and quartz (configuration in allHome)
- data for FiberProfiles (TBD min.)
- repeat the following sequence for [*mod4+1, mod4+2, mod4+3, mod4+4*]
-
-
- (darkRoach)
- configure to allHidden (20 min.)
- 45 sec. quartz brn for dithers of 0.0, -0.4, 0.2, 0.0, 0.2, 0.4, 0.0 pixels (TBD min.)
- 45 sec. quartz bmn for dithers of 0.0, -0.4, 0.2, 0.0, 0.2, 0.4, 0.0 pixels (TBD min.)
- (mod4+x)
- configure to mod4+x (2 min?)
- 45 sec. quartz brn for dithers of 0.0, -0.4, 0.2, 0.0, 0.2, 0.4, 0.0 pixels (TBD min.)
- 45 sec. quartz bmn for dithers of 0.0, -0.4, 0.2, 0.0, 0.2, 0.4, 0.0 pixels (TBD min.)
- (darkRoach)
- We may add the sequence for mod32 (or mod16) with no dithering in the above
- take n-band dark while configuring allHidden?
- can we replace bmn --> m?**
-
- data for illumination study (TBD min.)
- take arc/quartz with/without flat screen (in allHome)
- configure to allHome (if home keep the configuration)
- (with flat screen)
- remove top screen (if removed keep the screen position)
- brn (3 frames for HgCd [TBC] and quartz)
- bmn (3 frames for HgCd [TBC] and quartz)
- (without flat screen)
- insert top screen
- brn (3 frames for HgCd [TBC] and quartz)
- bmn (3 frames for HgCd [TBC] and quartz)
- change illumination using different ring lamp position (in allHome)
- configure to allHome (if home keep the configuration)
- repeat the following the lamp position in [p1, p2, p3, p4]
- Turn ring lamp p1
- brn, 3 repeats of TBD sec. ring lamp quartz (TBD min.)
- bmn, 3 repeats of TBD sec. ring lamp quartz (TBD min.)
- take arc/quartz with/without flat screen (in allHome)
[Lower priority]
- data for background study (TBD min.)
- take sparse sky in [*allHidden, mod32, mod16*]
- configure to allHidden (20 min.)
- brn, 3 repeats of TBD sec. sky (TBD min)
- bmn, 3 repeats of TBD sec. sky (TBD min.)
- configure to mod32 (2 min?)
- brn, 3 repeats of TBD sec. sky (TBD min)
- bmn, 3 repeats of TBD sec. sky (TBD min.)
- configure to mod16 (2 min?)
- brn, 3 repeats of TBD sec. sky (TBD min)
- bmn, 3 repeats of TBD sec. sky (TBD min.)
- take arc/quartz in [*allHidden, mod32, mod16?*]
- configure to allHidden (20 min.)
- brn, 3 repeats of arcs and quartz (36 min)
- bmn, 3 repeats of arcs and quartz (48 min.)
- configure to mod32 (2 min?)
- brn, 3 repeats of arcs and quartz (36 min)
- bmn, 3 repeats of arcs and quartz (48 min.)
- configure to mod16 (2 min?) <-- do we need?
- brn, 3 repeats of arcs and quartz (36 min)
- bmn, 3 repeats of arcs and quartz (48 min.)
- do we need take allHidden data just before each brn(or bmn) sequence like fiberProfiles data
- take sparse sky in [*allHidden, mod32, mod16*]
- **
- data for uniformity (~90 min.)
- quartz (in allHome)
- configure to allHome
- brn, 3 repeats of 60 sec. quartz, InR = -150,-90,-30,0,30,90,150 (7 min. x 7)
- twilight (in allHome)
- configure to allHome
- brn, 3 repeats of 180 sec. twilight, InR = -90, 0, 90 (13 min. x 3)
- quartz (in allHome)
- data for PSF modeling (TBD min.)
- change various theta/phi angle
- configure cobras at different theta/phi angle
- take brn, 3 repeats of quartz
- (defocus data for Kota’s study if we have time)
- change various theta/phi angle
- data for n-band specific?
Data analysis plan
- Generate CALIBs (a good chance for NAOJ to make CALIBs)
- masterBiases/masterDarks --> constructPfsBias.py & constructPfsDark.py
- detectorMap --> reduceArc
- fiberProfiles --> reduceProfiles
- flat --> TBC
- QA analysis
- run detectorMapQA (based on Wilfred's notebook?)
- run extractionQA (Hamano-san will prepare a script)