!($l1-- CJS.EUV.WLtracking.1x1 at top1, 90 sec. cadence for WL, 45 sec. for 171 interleaved, ## NONE ## CCK.arflareresp.1x1.all.1 Respond to CCK.arflarewatch.1x1.all.1 ## NONE ## CCK.energetics.1x1 1216/171/195, 1min. sustainable cadence. Many options. ## NONE ## CCK.flareresp.1wav Flare response for CCK.flarewatch.1wav ## NONE ## CCK.flarewatch.1wav Simple flare watch ## NONE ## CCK.four_tops flexible multi-target sequence with up to five ## NONE ## CCK.logic2 sequence logic test ## NONE ## CCK.scene.flexible Flexible multiwavelength scene. ## NONE ## CJS.failsafe.norepoint EUV+UV at current pointing, low cadence, high compression ## NONE ## CJS.scene.UValignment take a set of standard UV exposures for alignment purposes ## NONE ## CJW.ccd4_ice For cosmetics including possible "ice" ## NONE ## COM.aec2_euv AEC test at 195 ## NONE ## COM.aec_wluv AEC test at white light. Intended for use with lamp. ## NONE ## COM.af1_front_al Front Aluminum filter integrity ## NONE ## COM.cjs_misctests2 Subsequence to test some software options not routinely used ## NONE ## COM.dark_movie take movie dark frames, based on COM.ts1_1st_movie ## NONE ## COM.dc1_compress_dark some packing and JPEG tests, intended to ferret out ## NONE ## COM.dc1_compress_euv initial compression tests for EUV wavelengths ## NONE ## COM.dc1_compress_euv2 more compression tests for EUV wavelengths, just 171 with ## NONE ## COM.dc1_compress_uv initial compression tests for uv only ## NONE ## COM.dc1_compress_uv2 another compression test for uv only, more levels of ## NONE ## COM.dc1_compress_wl initial compression tests for wl only ## NONE ## COM.dc1_compress_wluv initial compression tests for wl and uv only ## NONE ## COM.fe1_focus_euv Focus tests at 171, 195, 284 using different exposures ## NONE ## COM.fe1_focus_uv Focus tests in UV CIV triplet and 1216 at set of exposures ## NONE ## COM.fe1_focus_wl Focus tests in white light only using different exposures ## NONE ## COM.ff1_flats_euv Make flat field map by using PZT offsets for EUV ## NONE ## COM.ff1_flats_wluv Make flat field map by using PZT offsets for WL/UV ## NONE ## COM.gti1_gt_cal Measure displacement of image for given error signal. ## NONE ## COM.gti3_pzt_offset Calibrate PZT offsets ## NONE ## COM.gti4_pzt_gain Measure displacement of image for given PZT signal. ## NONE ## COM.subpixel_wluv Test sub_pixel imaging by using PZT offsets for WL/UV ## NONE ## DPM.CCDProt_dis Setup parameters for CCD safety checks. ## NONE ## DPM.UTL_ExecList ## NONE ## DPM.UTL_ProcFrm ## NONE ## DPM.UTL_procfrm ## NONE ## DPM.flare_check Call a sequence to check for flare. ## NONE ## DPM.flare_check_init Initialize flare check parameters for STD.flare_check. ## NONE ## DPM.flare_chk1 Call a sequence to check for flare. ## NONE ## DPM.gti1_gt_cal Measure displacement of image for given error signal. ## NONE ## DPM.gti4_pzt_gain Measure displacement of image for given PZT signal. ## NONE ## DPM.ift_Fill_SmallBuf1 To fill Small buffer # 1. ## NONE ## DPM.ift_Fill_SmallBuf2 To fill Small buffer # 1. ## NONE ## DPM.ift_Fill_SmallBuf3 To fill Small buffer # 3. ## NONE ## DPM.ift_Fill_SmallBuf4 To fill Small buffer # 1. ## NONE ## DPM.ift_aec_test Outputs image data and it's histogram ## NONE ## DPM.ift_fast Run a sequence to time average data ## NONE ## DPM.ift_focus Test Focus offsets. ## NONE ## DPM.ift_focus_series Focus series. ## NONE ## DPM.ift_hist Outputs image data and it's histogram ## NONE ## DPM.ift_hist_test Outputs image data and it's histogram ## NONE ## DPM.ift_pics Takes dark frames until stopped ## NONE ## DPM.ift_sbfill To fill Small buffer. ## NONE ## DPM.ift_sblock_test To test small buffer locking process. ## NONE ## DPM.ift_short_focus_series Short Focus series. ## NONE ## DPM.ift_speed1024 To take full frame pictures as fast as possible. ## NONE ## DPM.ift_speed1024j To take full frame pictures as fast as possible. ## NONE ## DPM.ift_speed1024s To take full frame pictures as fast as possible. ## NONE ## DPM.ift_speed64 To take pictures as fast as possible. ## NONE ## DPM.ift_speed64_delay To take 64x64 images with 1 tick delay. ## NONE ## DPM.ift_timavg Run a sequence to time average data ## NONE ## DPM.ift_transchk Run a sequence to time average data ## NONE ## DPM.iss_disp_errs Measure displacement of image for given error signal. ## NONE ## DPM.junk Measure displacement of image for given PZT signal. ## NONE ## DPM.qs_test16 Move QS to every position from every position. ## NONE ## DPM.safety_chk Checks CCD safety code. ## NONE ## DPM.safety_prm Setup parameters for CCD safety checks. ## NONE ## DPM.sbfill_test To fill Small buffer. ## NONE ## DPM.scene ## NONE ## DPM.speed64_hp To take pictures as fast as possible. ## NONE ## DPM.sqt_addrchk Sequence of images in all camera modes ## NONE ## DPM.sqt_amptest Takes frames using both amplifiers ## NONE ## DPM.sqt_chk64x128 To take pictures as fast as possible. ## NONE ## DPM.sqt_flrchk_test Test flare check sequences ## NONE ## DPM.sqt_jpgtst To take pictures as fast as possible and JPG compress them. ## NONE ## DPM.sqt_pics3 Downlinks 3 full frame areas per frame ## NONE ## DPM.sqt_small_pics To take 64x64 pictures continuously. ## NONE ## DPM.sqt_speed64_dark To take dark pictures as fast as possible. ## NONE ## DPM.sw1_dhc_fncal Outputs image data and it's histogram ## NONE ## DPM.sw3_table_dump Dumps DHC Page3 (COntains all tables) ## NONE ## DPM.test.imax.imin a simple I max/I min test ## NONE ## DPM.transient_test_wl Test of the transient flag, using high and low thresholds ## NONE ## DPM.util_ExecList A sequence to loop through a set of targets and frames ## NONE ## DPM.util_ProcFrm To loop through all frames specified in R106-R113 ## NONE ## HDW.dummy1 ## NONE ## HDW.dummy2 ## NONE ## HPW.flareresp flare response for HPW.flarewatch ## NONE ## HPW.flarewatch A sequence for flare observations. ## NONE ## MDM.qs_test32 Move QS to every position from every position and then ## NONE ## MDM.qs_test4 Move QS to position B B C C B B ... for 100 frames ## NONE ## MDM.test_pzt_ff1 Do flat field images using PZT offsets ## NONE ## MDM.test_soft_dark To take soft dark frames. ## NONE ## RAS.dynamics_1 a customizable sequence for smaller fov and fast cadence ## NONE ## RAS.dynamics_2 a customizable sequence for smaller fov and fast cadence ## NONE ## RAS.euvfull uses general registers to take a set of EUV images ## NONE ## RAS.seq_flare.2 a proto-type flare sequence ## NONE ## RAS.test.transient ## NONE ## RAS.testcomp.long some packing and JPEG tests, intended to ferret out ## NONE ## RAS.testcomp.short some packing and JPEG tests, intended to ferret out ## NONE ## RAS.uvfull uses general registers to take a set of UV images ## NONE ## STD.13pos_pzt_ff Make flat field map by using 13 PZT offsets ## NONE ## STD.CCDsafe checks for CCD safety ## NONE ## STD.CCDsafe_init initializes counters for CCD safety ## NONE ## STD.ISS_close_loop Close ISS loop ## NONE ## STD.ISS_open_loop Open ISS loop ## NONE ## STD.amplifierA initialize the default amplifier to A ## NONE ## STD.amplifierB initialize the default amplifier to B ## NONE ## STD.dynamics a customizable sequence, handles most single pointing observations ## NONE ## STD.execlist A sequence to loop through a set of targets and frames ## NONE ## STD.flare1600 flares in 1600, options for EUV response also ## NONE ## STD.flats_1700 Make flat field map by using PZT offsets for 1700 ## NONE ## STD.flats_171 Make flat field map by using PZT offsets for 171 ## NONE ## STD.flats_195 Make flat field map by using PZT offsets for 195 ## NONE ## STD.flats_284 Make flat field map by using PZT offsets for 284 ## NONE ## STD.flats_wl Make flat field map by using PZT offsets for WL ## NONE ## STD.focus_euv Focus tests at 171, 195, 284 at optimal default exposure ## NONE ## STD.focus_lyman Focus tests at lyman alpha at optimal default exposure ## NONE ## STD.focus_wluv Focus tests at wl and C IV triplet at optimal default exposure ## NONE ## STD.ltc_wl Provides light transfer curve dataset in WL ## NONE ## STD.pinholes_euv ## NONE ## STD.procfrm To loop through all frames specified in R106-R113 ## NONE ## STD.reset_regs Reset Event flag registers. ## NONE ## STD.responseEUV_for_flare1600 the EUV response sequence, phase one or two ## NONE ## STD.response_for_flare1600 the response sequence, phase one ## NONE ## STD.subpixel Make subpixel imaging set using 4 PZT offsets ## NONE ## TDT.dummy16 ## NONE ## TDT.dummy17 ## NONE ## TDT.dummy18 ## NONE ## TDT.dummy18 ## NONE ## TDT.dummy5 ## NONE ## TDT.dummy6 ## NONE ## cmmodes ## NONE ## doframe ## NONE ## exec_list ## NONE ## junk $g0==0 CJS.movie.tuneEUV_someWL Take a movie at a single EUV (tunable) wavelength, some WL $g0==0 STD.selecttarget Select a target prescribed by global register $g0 $g0==0 STD.selecttarget Select a target prescribed by global register $g0 $g0==1 CJS.EUV.WLtracking.1x1 at top1, 90 sec. cadence for WL, 45 sec. for 171 interleaved, $g0==1 CJS.UVdynamics.1x1.EUVcontext Obtain a sequence of lyman alpha images at moderate cadence. $g0==1 CJS.UVdynamics.1x1.EUVcontext Obtain a sequence of lyman alpha images at moderate cadence. $g0==1 CJS.smallmosiac.tune (E)UV of central field, EUV 4 or 7 panel mosaic at EUV 2x2 bined $g0==1 CJS.tracking.1x1.all1 at top1, 90 sec. cadence for white light, + UV+EUV interleaved $g0==1 STD.selecttarget Select a target prescribed by global register $g0 $g0==1 STD.selecttarget Select a target prescribed by global register $g0 $g0==2 CJS.smallmosiac.tune (E)UV of central field, EUV 4 or 7 panel mosaic at EUV 2x2 bined $g0==2 STD.selecttarget Select a target prescribed by global register $g0 $g0==2 STD.selecttarget Select a target prescribed by global register $g0 $g0==3 CJS.smallmosiac.tune (E)UV of central field, EUV 4 or 7 panel mosaic at EUV 2x2 bined $g0==3 STD.selecttarget Select a target prescribed by global register $g0 $g0==3 STD.selecttarget Select a target prescribed by global register $g0 $g0==4 CJS.smallmosiac.tune (E)UV of central field, EUV 4 or 7 panel mosaic at EUV 2x2 bined $g0==4 STD.selecttarget Select a target prescribed by global register $g0 $g0==4 STD.selecttarget Select a target prescribed by global register $g0 $g0==5 CJS.largedynamicrange.1x1 Take a range of exposures around optimal AEC in quiet Sun $g0==5 STD.selecttarget Select a target prescribed by global register $g0 $g0==5 STD.selecttarget Select a target prescribed by global register $g0 $g0==6 STD.selecttarget Select a target prescribed by global register $g0 $g0==6 STD.selecttarget Select a target prescribed by global register $g0 $g0==7 CJS.smallmosiac.tune (E)UV of central field, EUV 4 or 7 panel mosaic at EUV 2x2 bined $g0==7 STD.selecttarget Select a target prescribed by global register $g0 $g0==7 STD.selecttarget Select a target prescribed by global register $g0 $g0==8 STD.selecttarget Select a target prescribed by global register $g0 $g0==9 CJS.crosscaldiskcenter.1x1.all Provide images at all wavelengths at disk center, low cadence. $g0>=9 STD.selecttarget Select a target prescribed by global register $g0 $g0>=9 STD.selecttarget Select a target prescribed by global register $g0 $g1 RAS.brightest_ar.t1 a proto-type flare sequence $l0 CCK.fdm.bulletproof make a full-disk mosaic at selected wavelengths $l1 CJS.tracking.1x1.all2 at top1, 90 sec. cadence for WL, plus UV+EUV interleaved, + FDM $l3 STD.fdm.bulletproof make a full-disk mosaic at selected wavelengths, based $l3>=20 RAS.limb.1x1.all a movie with wavelengths interleaved, first movie at the limb $l3>=20 RAS.limb.1x1.all a movie with wavelengths interleaved, first movie at the limb $list$ar1.7panel CJS.armosaic.7panel.all.1 AR1 (E)UV of central field, EUV mosaic at 195 with 2x2 binning. $list$equator CJS.scene.equator.6x1.all northern act. belt of a full-disk mosaic at all wavelengths $list$equator CJS.scene.fulldisk.allpanel.all make a full-disk mosaic at all wavelengths $list$fullmosaic CJS.scene.fulldisk.allpanel.1600 make a full-disk mosaic at only one wavelength (1600) $list$fullmosaic CJS.scene.fulldisk.allpanel.1wave make a full-disk mosaic at only one wavelength (Lyman alpha) $list$fullmosaic CJS.scene.fulldisk.allpanel.tune make a full-disk mosaic at selected wavelengths; no flare checks $list$fullmosaic CJS.scene.priofulldisk.allpanel.1wave make a full-disk mosaic at only one wavelength (195A) $list$fullmosaic CJS.scene.priofulldisk.allpanel.all make a full-disk mosaic at all wavelengths, at high priority $list$fullmosaic DPM.fast_mosaic Do Full Disk Mosaic with no delays $list$fullmosaic DPM.ift_mosaic Do Full Disk Mosaic with no delays $list$fullmosaic DPM.ift_mosaic_1 Do Full Disk Mosaic $list$fullmosaic DPM.mosaic_30s Do Full Disk Mosaic $list$fullmosaic DPM.mosaic_30s_delay Do Full Disk Mosaic $list$fullmosaic DPM.test_execlist Do Full Disk Mosaic with no delays $list$fullmosaic DPM.test_gen_mos Do Full Disk Mosaic with no delays $list$fullmosaic MDM.test_mosaic64dark Exercise the wedge motors by running "mosaic" up $list$fullmosaic_bkwMDM.test_mosaic64dark Exercise the wedge motors by running "mosaic" up $list$northbelt CJS.scene.fulldisk.allpanel.all make a full-disk mosaic at all wavelengths $list$northbelt CJS.scene.northbelt.5x1.all northern act. belt of a full-disk mosaic at all wavelengths $list$northcap DPM.sqt_execlist Scan the entire wavelength table. $list$northswath CJS.scene.fulldisk.allpanel.all make a full-disk mosaic at all wavelengths $list$northswath CJS.scene.northswath.4x1.all northernmost swath of a full-disk mosaic at all wavelengths $list$qr1.2x2 DC.filament.mix.all1 Observe a filament, 1x1 with 2x2 interleaved. $list$qr1.7panel CJS.qrmosaic.7panel.all.1 at QR1, UV single panel + mosaic 7 panels at 195A 2x2 binned $list$southbelt CJS.scene.fulldisk.allpanel.all make a full-disk mosaic at all wavelengths $list$southbelt CJS.scene.southbelt.5x1.all northern act. belt of a full-disk mosaic at all wavelengths $list$southswath CJS.scene.fulldisk.allpanel.all make a full-disk mosaic at all wavelengths $list$southswath CJS.scene.southswath.4x1.all northernmost swath of a full-disk mosaic at all wavelengths $rtn!=99 CJS.movie.tuneEUV_someWL Take a movie at a single EUV (tunable) wavelength, some WL @nomove CCK.aec1 AEC test at wl, 1600, 1550, 195 @nomove CJW.darks_full_ccd Dark current and noise via set of hard and soft dark frames @nomove COM.aec1_euv AEC test at wl, 1600, 1550, 195 @nomove COM.aec2_wluv AEC test at wl, 1600, 1550, 1216 @nomove COM.af2_back_al Back Aluminum filter integrity @nomove COM.af2_back_al Back Aluminum filter integrity @nomove DPM.ift_cmmodes Sequence of images in all camera modes @nomove DPM.ift_wlscan Scan the entire wavelength table. @nomove DPM.sqt_extst Sequence of images with different offsets @nomove DPM.vis_ltc Linearity, offset, and "gain" for full CCD in visible light @nomove STD.dark_set Provide dark images at summings 1x1, 2x2 and 4x4 @nomove TDT.test_640 Fast fluctuations in the transition region -- test @nomove TDT.trnotsofast Fast fluctuations in the transition region ar1 CCK.arflareresp.1x1.195 Respond to CCK.arflarewatch.1x1.195 ar1 CCK.arflareresp.1x1.195 Respond to CCK.arflarewatch.1x1.195 ar1 CCK.arflareresp.1x1.195_171 Alternative response to CCK.arflarewatch.1x1.195 ar1 CCK.arflareresp.1x1.195_171 Alternative response to CCK.arflarewatch.1x1.195 ar1 CCK.arflareresp.1x1.CIV Respond to CCK.arflarewatch.1x1.CIV ar1 CCK.arflareresp.1x1.CIV Respond to CCK.arflarewatch.1x1.CIV ar1 CCK.arflareresp.1x1.all.2 Respond to CCK.arflarewatch.1x1.all.1 ar1 CCK.arflareresp.1x1.all.2 Respond to CCK.arflarewatch.1x1.all.1 ar1 CCK.arflarewatch.1x1.195 Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.195 Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.195 Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.195 Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.195 Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.195 Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.195 Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.CIV Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.CIV Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.CIV Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.CIV Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.CIV Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.CIV Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.CIV Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.all.1 Test the flare check algorithm with response sequence. ar1 CCK.arflarewatch.1x1.all.2 Test the flare check algorithm with response sequence. ar1 CJS.scene.ar1.allnoWL at ar1, take standard pictures at all wavel. except WL ar1 RAS.brightest_ar.t1 a proto-type flare sequence ar1 RAS.flare.sample1 a proto-type flare sequence ar1 RAS.testing.FE1_euvonly take a big picture in each wavelength (5 here) and downlink ar1 RAS.testing.FE1_sanseuv take a big picture in each wavelength (5 here) and downlink ar2 RAS.brightest_ar.t1 a proto-type flare sequence ar3 RAS.brightest_ar.t1 a proto-type flare sequence ar4 RAS.brightest_ar.t1 a proto-type flare sequence diskcenter CJS.priocaldiskcenter.1x1.all EUV+UV+darks at diskcenter, full res., no compr.,small buffer diskcenter CJS.priocaldiskcenter.1x1.all EUV+UV+darks at diskcenter, full res., no compr.,small buffer diskcenter CJS.scene.caldiskcenter.1x1.all Provide images at all wavelengths and darks at disk center diskcenter COM.acs3_offset_EW First Offset Pointing Test, EW Direction diskcenter COM.acs3_offset_NS First Offset Pointing Test, NS Direction diskcenter COM.gti0_diodes Diode Intensity Check diskcenter COM.gti0_diodes Diode Intensity Check eastlimb COM.gti0_diodes Diode Intensity Check eastlimb COM.gti6_4limb Four-limb alignment test eastlimb COM.roll_cal take a sunspot movie at the limb, target top1 eastlimb STD.ptg_cal take a WL movie at target top1: strip images for roll mdicenter CJS.failsafe.mdicenter EUV+UV at MDI fov, low cadence, high compression. mdicenter COM.cjs_misctests Sequence to test some software options not routinely used mdicenter DPM.sqt_misctest Sequence to test some software options not routinely used named.pos02 CCK.northpolar.east.multi polar plumes study named.pos02 CCK.northpolar.fan.multi polar plumes study named.pos03 CCK.northpolar.fan.multi polar plumes study named.pos03 CCK.northpolar.west.multi polar plumes study named.pos05 CCK.westlimb.3x2.Fe12Fe15 EUV limb study named.pos07 CJS.scene.CDSsynoptic Provide images at all wavelengths on central meridian named.pos07 COM.acs3_offset_NS First Offset Pointing Test, NS Direction named.pos09 CCK.eastlimb.3x2.Fe12Fe15 EUV limb study named.pos10 CCK.eastlimb.2x1.all EUV limb study named.pos10 CCK.eastlimb.3x2.Fe12Fe15 EUV limb study named.pos13 COM.acs3_offset_EW First Offset Pointing Test, EW Direction named.pos15 CCK.westlimb.2x1.all EUV limb study named.pos15 CCK.westlimb.3x2.Fe12Fe15 EUV limb study named.pos18 CJS.scene.CDSsynoptic Provide images at all wavelengths on central meridian named.pos22 CCK.southpolar.east.multi polar plumes study named.pos22 CCK.southpolar.fan.multi polar plumes study named.pos23 CCK.southpolar.fan.multi polar plumes study named.pos23 CCK.southpolar.west.multi polar plumes study named.pos26 CCK.northpolar.3x1.1wave Fe XII plume morphology study named.pos27 CCK.northpolar.3x1.1wave Fe XII plume morphology study named.pos27 CJS.scene.CDSsynoptic Provide images at all wavelengths on central meridian named.pos28 CCK.northpolar.3x1.1wave Fe XII plume morphology study named.pos29 CCK.southpolar.3x1.1wave Fe XII plume morphology study named.pos30 CCK.southpolar.3x1.1wave Fe XII plume morphology study named.pos30 CJS.scene.CDSsynoptic Provide images at all wavelengths on central meridian named.pos31 CCK.southpolar.3x1.1wave Fe XII plume morphology study named.pos32 CCK.northpolar.east.multi polar plumes study named.pos32 CCK.northpolar.fan.multi polar plumes study named.pos33 CCK.northpolar.fan.multi polar plumes study named.pos33 CCK.northpolar.west.multi polar plumes study named.pos34 CCK.southpolar.east.multi polar plumes study named.pos34 CCK.southpolar.fan.multi polar plumes study named.pos35 CCK.southpolar.fan.multi polar plumes study named.pos35 CCK.southpolar.west.multi polar plumes study named.pos36 CCK.eastlimb.3x2.Fe12Fe15 EUV limb study named.pos37 CCK.eastlimb.2x1.all EUV limb study named.pos37 CCK.eastlimb.3x2.Fe12Fe15 EUV limb study named.pos39 CCK.westlimb.3x2.Fe12Fe15 EUV limb study named.pos40 CCK.westlimb.2x1.all EUV limb study named.pos40 CCK.westlimb.3x2.Fe12Fe15 EUV limb study named.pos51 COM.gti0_diodes Diode Intensity Check named.pos52 COM.gti0_diodes Diode Intensity Check named.pos53 COM.gti0_diodes Diode Intensity Check named.pos54 COM.gti0_diodes Diode Intensity Check named.pos60 CCK.eastlimb.3x2.Fe12Fe15 EUV limb study named.pos61 CCK.eastlimb.3x2.Fe12Fe15 EUV limb study named.pos65 CCK.northpolar.east.multi polar plumes study named.pos65 CCK.northpolar.fan.multi polar plumes study named.pos67 CCK.northpolar.fan.multi polar plumes study named.pos67 CCK.northpolar.west.multi polar plumes study named.pos71 CCK.westlimb.3x2.Fe12Fe15 EUV limb study named.pos72 CCK.westlimb.3x2.Fe12Fe15 EUV limb study named.pos77 CCK.southpolar.fan.multi polar plumes study named.pos77 CCK.southpolar.west.multi polar plumes study named.pos79 CCK.southpolar.east.multi polar plumes study named.pos79 CCK.southpolar.fan.multi polar plumes study northpole CCK.northpolar.1x1.171 polar study, high cadence northpole CCK.northpolar.1x1.all polar study, 7.5 min. cadence northpole COM.gti0_diodes Diode Intensity Check northpole COM.gti6_4limb Four-limb alignment test northpole COM.roll_cal take a sunspot movie at the limb, target top1 northpole STD.ptg_cal take a WL movie at target top1: strip images for roll qr1 CJS.deepquietsun.1x1.nowl Take a range of exposures around optimal AEC in quiet Sun qr1 CJS.fastdynamics.1x1.CIVcontext Obtain a sequence of C IV images (512x512) at highest cadence. qr1 CJS.qrflarewatch.1x1.euv.1 Test the flare check algorithm and Quiet Sun variability qr1 CJS.scene.qr1.allnoWL at qr1, take standard pictures at all wavelengths except WL qr1 DC.filament.1x1.HI Observe a filament or channel at high cadence qr1 DC.filament.mix.all1 Observe a filament, 1x1 with 2x2 interleaved. qr1 RAS.dynamics.1x1.all.1 the 30 day plan states that this will be 2 hours at qr1.2x2.pos1 DC.filament.2x2.all Observe a filament or channel in EUV and Lyman alpha qr1.2x2.pos2 DC.filament.2x2.all Observe a filament or channel in EUV and Lyman alpha qr1.2x2.pos3 DC.filament.2x2.all Observe a filament or channel in EUV and Lyman alpha qr1.2x2.pos4 DC.filament.2x2.all Observe a filament or channel in EUV and Lyman alpha southpole CCK.southpolar.1x1.171 polar study, high cadence southpole CCK.southpolar.1x1.all polar study, 7.5 min. cadence southpole COM.gti0_diodes Diode Intensity Check southpole COM.gti6_4limb Four-limb alignment test southpole COM.roll_cal take a sunspot movie at the limb, target top1 southpole STD.ptg_cal take a WL movie at target top1: strip images for roll test0 CCK.logic4 sequence logic test test0 CCK.logic5 sequence logic test test0 CCK.logic5 sequence logic test test1 CCK.logic1 sequence logic test test1 CCK.logic1 sequence logic test test1 CCK.logic3 sequence logic test test1 CCK.logic3 sequence logic test test1 CCK.logic4 sequence logic test test2 CCK.logic1 sequence logic test test2 CCK.logic1 sequence logic test test2 CCK.logic3 sequence logic test test2 CCK.logic3 sequence logic test test2 CCK.logic4 sequence logic test test3 CCK.logic4 sequence logic test top1 CJS.dynamics.1x1.lymancontext Obtain a sequence of lyman alpha images at moderate cadence. top1 CJS.qschinterface.1x1.all1 at top1, 90 sec. cadence for WL +1550+171+195 interleaved top1 CJS.qschinterface.1x1.all1 at top1, 90 sec. cadence for WL +1550+171+195 interleaved top1 CJS.slowdynamics.1x1.CIVcontext Obtain a sequence of C IV images at moderate cadence. top1 CJS.tracking.1x1.171 at top1, 90 sec. cadence for WL, 45 sec. for 171 interleaved top1 CJS.tracking.1x1.171 at top1, 90 sec. cadence for WL, 45 sec. for 171 interleaved top1 CJS.tracking.1x1.all2 at top1, 90 sec. cadence for WL, plus UV+EUV interleaved, + FDM top1 CJS.tracking.1x1.all2 at top1, 90 sec. cadence for WL, plus UV+EUV interleaved, + FDM top1 CJS.tracking.1x1.all3 at top1, 90 sec. cadence for WL, + UV and EUV interleaved top1 CJS.tracking.1x1.all3 at top1, 90 sec. cadence for WL, + UV and EUV interleaved top1 CJS.tracking.1x1.all4 at top1, 90 sec. cadence for WL, + UV and EUV interleaved top1 CJS.tracking.1x1.all4 at top1, 90 sec. cadence for WL, + UV and EUV interleaved top1 COM.roll_cal take a sunspot movie at the limb, target top1 top1 COM.ts1_1st_movie take a first movie in a few wavelengths, may be revised top1 RAS.dynamics.1x1.all.2 movie tests, 30 minutes each at 5 wavelengths, try fore/back top1 RAS.dynamics.1x1.all.3 movie tests, 60 minutes each at 5 wavelengths, try fore/back top1 RAS.dynamics.1x1.all.4 similar to RAS.dynamics.1x1.all.3 but wavelengths interleaved top1 RAS.flare1.t1 a proto-type flare sequence top1 RAS.movie.1x1.1EUV a test movie, we have 8 hours, keep it simple, just Fe XII 195 top1 RAS.test.imax.imin I max/I min test, revised and more complicated for top1 RAS.testsnapshots.1x1.all top1 RAS.testsnapshots.1x1.all top1 RAS.testsnapshots.1x1.all top1 RAS.testsnapshots.a take a big picture in each wavelength (8 here) and downlink top1 RAS.testsnapshots.b does a 2 hour WL tracking test top1 RAS.testsnapshots.c takes UV/WL movies to fill 16 hours, re-target every 30 minutes top1 RAS.testsnapshots.c takes UV/WL movies to fill 16 hours, re-target every 30 minutes top1 RAS.wl.flaretest for ground testing of flare flag top1 STD.ptg_cal take a WL movie at target top1: strip images for roll top1 STD.repoint_top1 Point to target-of-opportunity 1 top1 TDT.trfast Fast fluctuations in the transition region top1 TDT.trfast Fast fluctuations in the transition region top1 TDT.trfast Fast fluctuations in the transition region top1 TDT.uv_subpixel movie for subpixel resolution in 1700 & 1600 top2 STD.repoint_top2 Point to target-of-opportunity 2 top3 RAS.limb.1x1.all a movie with wavelengths interleaved, first movie at the limb top3 STD.repoint_top3 Point to target-of-opportunity 3 top4 STD.repoint_top4 Point to target-of-opportunity 4 westlimb COM.gti0_diodes Diode Intensity Check westlimb COM.gti6_4limb Four-limb alignment test westlimb COM.roll_cal take a sunspot movie at the limb, target top1 westlimb STD.ptg_cal take a WL movie at target top1: strip images for roll