## 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 $g1 RAS.brightest_ar.t1 a proto-type flare sequence $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 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 qr1 RAS.dynamics.1x1.all.1 the 30 day plan states that this will be 2 hours at 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 top3 RAS.limb.1x1.all a movie with wavelengths interleaved, first movie at the limb