Sequences
RAS.brightest_ar.t1 a proto-type flare sequence
RAS.dynamics.1x1.all.1 the 30 day plan states that this will be 2 hours at
RAS.dynamics.1x1.all.2 movie tests, 30 minutes each at 5 wavelengths, try fore/back
RAS.dynamics.1x1.all.3 movie tests, 60 minutes each at 5 wavelengths, try fore/back
RAS.dynamics.1x1.all.4 similar to RAS.dynamics.1x1.all.3 but wavelengths interleaved
RAS.flare.sample1 a proto-type flare sequence
RAS.flare1.t1 a proto-type flare sequence
RAS.limb.1x1.all a movie with wavelengths interleaved, first movie at the limb
RAS.movie.1x1.1EUV a test movie, we have 8 hours, keep it simple, just Fe XII 195
RAS.seq_flare.2 a proto-type flare sequence
RAS.test.imax.imin I max/I min test, revised and more complicated for
RAS.test.transient description: transient tests on the ground using WL
RAS.testcomp.long some packing and JPEG tests, intended to ferret out
RAS.testcomp.short some packing and JPEG tests, intended to ferret out
RAS.testing.FE1_euvonly take a big picture in each wavelength (5 here) and downlink
RAS.testing.FE1_sanseuv take a big picture in each wavelength (5 here) and downlink
RAS.testsnapshots.1x1.all description: take a big picture in each wavelength (8 here) and downlink
RAS.testsnapshots.a take a big picture in each wavelength (8 here) and downlink
RAS.testsnapshots.b does a 2 hour WL tracking test
RAS.testsnapshots.c takes UV/WL movies to fill 16 hours, re-target every 30 minutes
RAS.wl.flaretest for ground testing of flare flag
Frames
jls.flare195.fov2 small fov for rapid cadence during a flare, uses AEC
jls.flare195.fov4 fixed exposure Fe XII 195 with full fov
jls.flarewhm195.t1 preflare context in Fe XII 195, uses main memory, full fov
jls.flarewhmcont.t1 preflare context in white light, uses main memory, full fov
jls.preflare195.t1 preflare in Fe XII 195, 4 arc min centered on last I max
jls.preflare195.t2 preflare in Fe XII 195, 4 arc min centered on last I max
jls.preflare195.t3 preflare in Fe XII 195, 4 arc min centered on last I max
ras.1216.fb.aec 1216 image, foreground/background with jpeg
ras.1216.fb.aecupdate 1216 image, foreground/background with jpeg
ras.1216.full.aec 1216 image, standard full fov with jpeg
ras.1216.full.b2.aec 1216 image, binned 2x2, full fov, packed, not compressed
ras.1216.j9.512.aec compressed to "fair" quality and small fov, test feasibility of this as a low telemetry
ras.1550.fb.aec 1550 image, foreground/background with jpeg
ras.1550.fb.aecupdate 1550 image, foreground/background with jpeg
ras.1550.full.aec 1550 image, standard full fov with jpeg
ras.1550.full.b2.aec 1550 image, binned 2x2, full fov, packed, not compressed
ras.1550.j9.512.aec compressed to "fair" quality and small fov, test feasibility of this as a low telemetry
ras.1600.fb.aecupdate 1600 image, foreground/background with jpeg
ras.1600.full.aec 1600 image, standard full fov with jpeg
ras.1600.j9.512.aec compressed to "fair" quality and small fov, test feasibility of this as a low telemetry
ras.171.fb.aec 171 image, foreground/background with jpeg
ras.171.fb.aecupdate 171 image, foreground/background with jpeg
ras.171.full.aec 171 image, standard full fov with jpeg
ras.171.full.b2.aec 171 image, binned 2x2, full fov, packed, not compressed
ras.195.fb.aec 195 image, foreground/background with jpeg
ras.195.fb.aecupdate 195 image, foreground/background with jpeg
ras.195.full.aec 195 image, standard full fov with jpeg
ras.195.full.b2.aec 195 image, binned 2x2, full fov, packed, not compressed
ras.284.fb.aec 284 image, foreground/background with jpeg
ras.284.fb.aecupdate 284 image, foreground/background with jpeg
ras.284.full.aec 284 image, standard full fov with jpeg
ras.284.full.b2.aec 284 image, binned 2x2, full fov, packed, not compressed
ras.civ_flare.v1 small fov for rapid cadence during a flare, uses AEC
ras.feix_flare.v1 small fov for rapid cadence during a flare, uses AEC
ras.fexii_flare.v1 small fov for rapid cadence during a flare, uses AEC
ras.fexv_flare.v1 small fov for rapid cadence during a flare, uses AEC
ras.flare195.fov2 small fov for rapid cadence during a flare, uses AEC
ras.flare195.fov4 fixed exposure Fe XII 195 with full fov
ras.flarewhm195.t1 preflare context in Fe XII 195, uses main memory, full fov
ras.flarewhmcont.t1 preflare context in white light, uses main memory, full fov
ras.from.cck.195_aect cck.195_aect
ras.jpeg1216.abs1 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg1216.abs2 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg1216.abs3 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg1216.aec A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression.
ras.jpeg1216.aecm4 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression.
ras.jpeg1216.aecp4 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression.
ras.jpeg1550.abs1 A test snapshot for 1550. JPEG test.
ras.jpeg1550.abs2 A test snapshot for 1550. JPEG test.
ras.jpeg1550.abs3 A test snapshot for 1550. JPEG test.
ras.jpeg1550.aec A test snapshot for 1550. JPEG test. Uses default AEC.
ras.jpeg1550.aecm4 A test snapshot for 1550. JPEG test. Uses default AEC with -4 offset.
ras.jpeg1550.aecp4 A test snapshot for 1550. JPEG test. Uses default AEC with + 4 offset.
ras.jpeg1600.abs1 First JPEG test for 1600.
ras.jpeg1600.abs2 First JPEG test for 1600.
ras.jpeg1600.abs3 First JPEG test for 1600.
ras.jpeg1600.aec First JPEG test for 1600. Uses default AEC.
ras.jpeg1600.aecm4 First JPEG test for 1600. Uses default AEC with -4 offset.
ras.jpeg1600.aecp4 First JPEG test for 1600. Uses default AEC with + 4 offset.
ras.jpeg1600.test1.aec First JPEG test for 1600. Uses default AEC.
ras.jpeg1600.test2.aec First JPEG test for 1600. Uses default AEC.
ras.jpeg1600.test3.aec First JPEG test for 1600. Uses default AEC.
ras.jpeg1700.abs1 First JPEG test for 1700.
ras.jpeg1700.abs2 First JPEG test for 1700.
ras.jpeg1700.abs3 First JPEG test for 1700.
ras.jpeg1700.aec First JPEG test for 1700. Uses default AEC.
ras.jpeg1700.aecm4 First JPEG test for 1700. Uses default AEC with - 4 offset.
ras.jpeg1700.aecp4 First JPEG test for 1700. Uses default AEC with + 4 offset.
ras.jpeg171.abs1 A test snapshot for 171 Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg171.abs2 A test snapshot for 171 Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg171.abs3 A test snapshot for 171. Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg171.aec A test snapshot for 171. Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg171.aecm4 A test snapshot for 171. Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg171.test1.aec A test snapshot for 171.
ras.jpeg171.test2.aec A test snapshot for 171.
ras.jpeg171.test3.aec A test snapshot for 171.
ras.jpeg195.abs1 A test snapshot for 195 Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg195.abs2 A test snapshot for 195 Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg195.abs3 A test snapshot for 195 Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg195.aec A test snapshot for 195 Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg195.aecm4 A test snapshot for 195 Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg284.abs1 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg284.abs2 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg284.abs3 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg284.aec A test snapshot for 284 Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg284.aecm4 A test snapshot for 284 Full fov and a "nearly lossless" jpeg to check compression
ras.jpeg_wl.abs1 First JPEG test for wl.
ras.jpeg_wl.abs2 First JPEG test for wl.
ras.jpeg_wl.abs3 First JPEG test for wl.
ras.jpeg_wl.aec First JPEG test for wl. Use default AEC.
ras.jpeg_wl.aecm4 First JPEG test for wl. Use default AEC with -4 offset.
ras.jpeg_wl.aecp4 First JPEG test for wl. Use default AEC with + 4 offset.
ras.jpegspeedtest0 JPEG speed test 0. Does a short exposure and small area (256 from
ras.jpegtest0 The baseline for the compression tests. Just takes an exposure of the entire
ras.jpegtest1 Test 1, test 12/8 bit packing for the entire CCD. Output raw from full, the 12 bit
ras.jpegtest10 Test 10, JPEG test. Checks the medium quality entries in JPEG tables 2 and 3.
ras.jpegtest2 Test 2, test 12/8 bit packing for the central 256 subarea of the CCD. Output raw from
ras.jpegtest3 Test 3, JPEG test. Does 12 bit pack from full and JPEG table 0 from subarea 1. This
ras.jpegtest4 Test 4, JPEG test. Does 12 bit pack from full and JPEG table 0 from subarea 1 and
ras.jpegtest5 Test 5, JPEG test. Covers a few more of the JPEG tables. Just the central 256
ras.jpegtest6 Test 6, JPEG test. Covers a few more of the JPEG tables. Just the central 256
ras.jpegtest7 Test 7, JPEG test. Covers a few more of the JPEG tables. Just the central 256
ras.jpegtest8 Test 8, JPEG test. Checks the Huffman tables, does same JPEG tables with
ras.jpegtest9 Test 9, JPEG test. Checks the Huffman tables, does same JPEG tables with
ras.lya_flare.v1 small fov for rapid cadence during a flare, uses AEC
ras.movie195.t1 195 movie with full fov with high compression and a 256x256 area centered
ras.movie195.t2 195 movie with full fov with high compression and a 512x512 area centered
ras.notransient.nopack.test1 test transiets
ras.notransient.test1 test transiets
ras.preflare195.t1 preflare in Fe XII 195, 4 arc min centered on last I max
ras.preflare195.t2 preflare in Fe XII 195, 4 arc min centered on last I max
ras.preflare195.t3 preflare in Fe XII 195, 4 arc min centered on last I max
ras.setup195.t1 setup for a movie in 195, do Imax and Imin (check if both are correct)
ras.test.imax.imin.1 Test I max and I min. Use 8x8 binning in subarea 1. Revised 11/24/97. Now uses
ras.test.imax.imin.2 Test I max and I min. Use 4x4 binning in subarea 1. Revised 11/24/97. This is
ras.test.imax.imin.3 Test I max and I min. Use 1x1 binning in subarea 1. Revised 11/24/97. This is
ras.test.imax.imin.4 Test I max and I min. This one uses camera summing as an additional test.
ras.test.wl.at.imaxandimin Test I max and I min. This is the response part. Does an image at the I max and
ras.testshot1216.512 A test snapshot for 1216. This is used in the first movie. It uses the default AEC.
ras.testshot1216.abs1 A test snapshot for 1216.
ras.testshot1216.abs2 A test snapshot for 1216.
ras.testshot1216.abs3 A test snapshot for 1216.
ras.testshot1216.aec A test snapshot for 1216. This is used in the first movie. It uses the default AEC.
ras.testshot1216.t1 A test snapshot for 1216. Full fov and a "good" quality JPEG to evaluate.
ras.testshot1550.512 A test snapshot for 1550. This is used in the first movie. It uses the default AEC.
ras.testshot1550.abs1 A test snapshot for 1550.
ras.testshot1550.abs2 A test snapshot for 1550.
ras.testshot1550.abs3 A test snapshot for 1550.
ras.testshot1550.aec A test snapshot for 1550. This is used in the first movie. It uses the default AEC.
ras.testshot1550.t1 A test snapshot for 1550. Full fov and a "good" quality JPEG to evaluate.
ras.testshot1600.abs1 A test snapshot for 1600 light.
ras.testshot1600.abs2 A test snapshot for 1600 light.
ras.testshot1600.abs3 A test snapshot for 1600 light.
ras.testshot1600.aec A test snapshot for 1550 but using the 1600 filter for more light. This is used in
ras.testshot1600.t1 A test snapshot for 1600. Full fov and a "good" quality JPEG to evaluate.
ras.testshot1700.abs1 A test snapshot for 1700.
ras.testshot1700.abs2 A test snapshot for 1700.
ras.testshot1700.abs3 A test snapshot for 1700.
ras.testshot1700.t1 A test snapshot for 1700. Full fov and a "good" quality JPEG to evaluate.
ras.testshot171.abs1 A test snapshot for 171. Full fov and no compression.
ras.testshot171.abs2 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.testshot171.abs3 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.testshot171.t1 A test snapshot for 171. Full fov and a "good" quality JPEG to evaluate.
ras.testshot195.abs1 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.testshot195.abs2 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.testshot195.abs3 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.testshot195.t1 A test snapshot for 195. Full fov and a "good" quality JPEG to evaluate.
ras.testshot284.abs1 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.testshot284.abs2 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.testshot284.abs3 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.testshot284.t1 A test snapshot for 284. Full fov and a "good" quality JPEG to evaluate.
ras.testshot_wl.512 A test snapshot for white light. For the first movie. No compression. Default AEC.
ras.testshot_wl.abs1 A test snapshot for 1216.
ras.testshot_wl.abs2 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.testshot_wl.abs3 A test snapshot for 1216. Full fov and a "nearly lossless" jpeg to check compression
ras.testshot_wl.aec A test snapshot for white light. Default AEC. Uses high quality compression.
ras.testshot_wl.t1 A test snapshot for white light. Full fov and a "nearly lossless" jpeg to check compression.
ras.transient.nopack.test1 test transiets
ras.transient.test1 Test transients on the ground with WL. This should not response until lamp
ras.transient.test2 Test transients on the ground with WL. This should not response until lamp
ras.wl.fb.aec white light, foreground/background at center
ras.wl.full.aec white light, standard full fov, JPEG compressed, no AEC update and use default
ras.wl.fulljpeg.aec white light, full fov with "good" compression, uses AEC default, no update
ras.wl.j6.512.aec compressed to "good" quality and small fov, test feasibility of this as a low telemetry
ras.wl.preflare.t1 wl flare test, for ground tests only
ras.wl.preflare.t2 wl flare test, for ground tests only
ras.wl.tracktest.512 test tracking with JPEG by doing a "lossless" and a lossy on the same image