4660 Nereus CW data reduction log =-=============================== Last updated: 2007 January 9 2007 November 1 Arecibo Data: 2002 Jan 9-13 2002 Jan 09 ----------- datafile.09jan02.r1541.3 15 runs soln 24 FFT = 5000, dfreq = 1.0 Hz remote:/share/radar1/lbenner/nereus < 7 > source nereus.scr Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 6 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 7 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 8 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 9 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 10 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 11 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 12 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 13 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 14 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 15 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 6 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 7 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 8 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 9 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 10 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 11 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 12 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 13 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 14 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 15 Target name (spaces OK): target diameter (km): target rotation period (hr): Define rotation phase by giving a phase and the corresponding Julian date: sample rate (Hz): wavelength (m): nhops, first hop: hop dwell (sec): TX offset (Hz): freq step, first freq offset (Hz): First, last scan to process (numbered from 1): Scan 1 TX power (kW): Scan 2 TX power (kW): Scan 3 TX power (kW): Scan 4 TX power (kW): Scan 5 TX power (kW): Scan 6 TX power (kW): Scan 7 TX power (kW): Scan 8 TX power (kW): Scan 9 TX power (kW): Scan 10 TX power (kW): Scan 11 TX power (kW): Scan 12 TX power (kW): Scan 13 TX power (kW): Scan 14 TX power (kW): Scan 15 TX power (kW): Specify Tsys function here (0) or use Aug. 2000 fit, scaled for other dates (1)? number of intervals to avoid: Reading scan 200900004 (record length = 792 + 40000) TEST 1: recsInScan 1 t 53565.000000 t_start 53565.000000 t_end 53575.000000 TEST 1: recsInScan 2 t 53566.000000 t_start 53565.000000 t_end 53575.000000 TEST 1: recsInScan 3 t 53567.000000 t_start 53565.000000 t_end 53575.000000 TEST 1: recsInScan 4 t 53568.000000 t_start 53565.000000 t_end 53575.000000 TEST 1: recsInScan 5 t 53569.000000 t_start 53565.000000 t_end 53575.000000 TEST 1: recsInScan 6 t 53570.000000 t_start 53565.000000 t_end 53575.000000 TEST 1: recsInScan 7 t 53571.000000 t_start 53565.000000 t_end 53575.000000 TEST 1: recsInScan 8 t 53572.000000 t_start 53565.000000 t_end 53575.000000 TEST 1: recsInScan 9 t 53573.000000 t_start 53565.000000 t_end 53575.000000 TEST 1: recsInScan 10 t 53574.000000 t_start 53565.000000 t_end 53575.000000 TEST 1: recsInScan 11 t 53575.000000 t_start 53565.000000 t_end 53575.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 53576.000000 t_start 53575.000000 t_end 53585.000000 TEST 1: recsInScan 13 t 53577.000000 t_start 53575.000000 t_end 53585.000000 TEST 1: recsInScan 14 t 53578.000000 t_start 53575.000000 t_end 53585.000000 TEST 1: recsInScan 15 t 53579.000000 t_start 53575.000000 t_end 53585.000000 TEST 1: recsInScan 16 t 53580.000000 t_start 53575.000000 t_end 53585.000000 TEST 1: recsInScan 17 t 53581.000000 t_start 53575.000000 t_end 53585.000000 TEST 1: recsInScan 18 t 53582.000000 t_start 53575.000000 t_end 53585.000000 TEST 1: recsInScan 19 t 53583.000000 t_start 53575.000000 t_end 53585.000000 TEST 1: recsInScan 20 t 53584.000000 t_start 53575.000000 t_end 53585.000000 TEST 1: recsInScan 21 t 53585.000000 t_start 53575.000000 t_end 53585.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 53586.000000 t_start 53585.000000 t_end 53595.000000 TEST 1: recsInScan 23 t 53587.000000 t_start 53585.000000 t_end 53595.000000 TEST 1: recsInScan 24 t 53588.000000 t_start 53585.000000 t_end 53595.000000 TEST 1: recsInScan 25 t 53589.000000 t_start 53585.000000 t_end 53595.000000 TEST 1: recsInScan 26 t 53590.000000 t_start 53585.000000 t_end 53595.000000 TEST 1: recsInScan 27 t 53591.000000 t_start 53585.000000 t_end 53595.000000 TEST 1: recsInScan 28 t 53592.000000 t_start 53585.000000 t_end 53595.000000 TEST 1: recsInScan 29 t 53593.000000 t_start 53585.000000 t_end 53595.000000 TEST 1: recsInScan 30 t 53594.000000 t_start 53585.000000 t_end 53595.000000 TEST 1: recsInScan 31 t 53595.000000 t_start 53585.000000 t_end 53595.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 53596.000000 t_start 53595.000000 t_end 53605.000000 TEST 1: recsInScan 33 t 53597.000000 t_start 53595.000000 t_end 53605.000000 TEST 1: recsInScan 34 t 53598.000000 t_start 53595.000000 t_end 53605.000000 TEST 1: recsInScan 35 t 53599.000000 t_start 53595.000000 t_end 53605.000000 TEST 1: recsInScan 36 t 53600.000000 t_start 53595.000000 t_end 53605.000000 TEST 1: recsInScan 37 t 53601.000000 t_start 53595.000000 t_end 53605.000000 TEST 1: recsInScan 38 t 53602.000000 t_start 53595.000000 t_end 53605.000000 TEST 1: recsInScan 39 t 53603.000000 t_start 53595.000000 t_end 53605.000000 TEST 1: recsInScan 40 t 53604.000000 t_start 53595.000000 t_end 53605.000000 TEST 1: recsInScan 41 t 53605.000000 t_start 53595.000000 t_end 53605.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 53606.000000 t_start 53605.000000 t_end 53615.000000 TEST 1: recsInScan 43 t 53607.000000 t_start 53605.000000 t_end 53615.000000 TEST 1: recsInScan 44 t 53608.000000 t_start 53605.000000 t_end 53615.000000 TEST 1: recsInScan 45 t 53609.000000 t_start 53605.000000 t_end 53615.000000 Wrote records for 9 dwells in scan 200900004 (last 5 are dummy records) Reading scan 200900005 (record length = 792 + 40000) TEST 1: recsInScan 1 t 53667.000000 t_start 53667.000000 t_end 53677.000000 TEST 1: recsInScan 2 t 53668.000000 t_start 53667.000000 t_end 53677.000000 TEST 1: recsInScan 3 t 53669.000000 t_start 53667.000000 t_end 53677.000000 TEST 1: recsInScan 4 t 53670.000000 t_start 53667.000000 t_end 53677.000000 TEST 1: recsInScan 5 t 53671.000000 t_start 53667.000000 t_end 53677.000000 TEST 1: recsInScan 6 t 53672.000000 t_start 53667.000000 t_end 53677.000000 TEST 1: recsInScan 7 t 53673.000000 t_start 53667.000000 t_end 53677.000000 TEST 1: recsInScan 8 t 53674.000000 t_start 53667.000000 t_end 53677.000000 TEST 1: recsInScan 9 t 53675.000000 t_start 53667.000000 t_end 53677.000000 TEST 1: recsInScan 10 t 53676.000000 t_start 53667.000000 t_end 53677.000000 TEST 1: recsInScan 11 t 53677.000000 t_start 53667.000000 t_end 53677.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 53678.000000 t_start 53677.000000 t_end 53687.000000 TEST 1: recsInScan 13 t 53679.000000 t_start 53677.000000 t_end 53687.000000 TEST 1: recsInScan 14 t 53680.000000 t_start 53677.000000 t_end 53687.000000 TEST 1: recsInScan 15 t 53681.000000 t_start 53677.000000 t_end 53687.000000 TEST 1: recsInScan 16 t 53682.000000 t_start 53677.000000 t_end 53687.000000 TEST 1: recsInScan 17 t 53683.000000 t_start 53677.000000 t_end 53687.000000 TEST 1: recsInScan 18 t 53684.000000 t_start 53677.000000 t_end 53687.000000 TEST 1: recsInScan 19 t 53685.000000 t_start 53677.000000 t_end 53687.000000 TEST 1: recsInScan 20 t 53686.000000 t_start 53677.000000 t_end 53687.000000 TEST 1: recsInScan 21 t 53687.000000 t_start 53677.000000 t_end 53687.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 53688.000000 t_start 53687.000000 t_end 53697.000000 TEST 1: recsInScan 23 t 53689.000000 t_start 53687.000000 t_end 53697.000000 TEST 1: recsInScan 24 t 53690.000000 t_start 53687.000000 t_end 53697.000000 TEST 1: recsInScan 25 t 53691.000000 t_start 53687.000000 t_end 53697.000000 TEST 1: recsInScan 26 t 53692.000000 t_start 53687.000000 t_end 53697.000000 TEST 1: recsInScan 27 t 53693.000000 t_start 53687.000000 t_end 53697.000000 TEST 1: recsInScan 28 t 53694.000000 t_start 53687.000000 t_end 53697.000000 TEST 1: recsInScan 29 t 53695.000000 t_start 53687.000000 t_end 53697.000000 TEST 1: recsInScan 30 t 53696.000000 t_start 53687.000000 t_end 53697.000000 TEST 1: recsInScan 31 t 53697.000000 t_start 53687.000000 t_end 53697.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 53698.000000 t_start 53697.000000 t_end 53707.000000 TEST 1: recsInScan 33 t 53699.000000 t_start 53697.000000 t_end 53707.000000 TEST 1: recsInScan 34 t 53700.000000 t_start 53697.000000 t_end 53707.000000 TEST 1: recsInScan 35 t 53701.000000 t_start 53697.000000 t_end 53707.000000 TEST 1: recsInScan 36 t 53702.000000 t_start 53697.000000 t_end 53707.000000 TEST 1: recsInScan 37 t 53703.000000 t_start 53697.000000 t_end 53707.000000 TEST 1: recsInScan 38 t 53704.000000 t_start 53697.000000 t_end 53707.000000 TEST 1: recsInScan 39 t 53705.000000 t_start 53697.000000 t_end 53707.000000 TEST 1: recsInScan 40 t 53706.000000 t_start 53697.000000 t_end 53707.000000 TEST 1: recsInScan 41 t 53707.000000 t_start 53697.000000 t_end 53707.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 53708.000000 t_start 53707.000000 t_end 53717.000000 TEST 1: recsInScan 43 t 53709.000000 t_start 53707.000000 t_end 53717.000000 TEST 1: recsInScan 44 t 53710.000000 t_start 53707.000000 t_end 53717.000000 TEST 1: recsInScan 45 t 53711.000000 t_start 53707.000000 t_end 53717.000000 Wrote records for 9 dwells in scan 200900005 (last 5 are dummy records) Reading scan 200900006 (record length = 792 + 40000) TEST 1: recsInScan 1 t 53769.000000 t_start 53769.000000 t_end 53779.000000 TEST 1: recsInScan 2 t 53770.000000 t_start 53769.000000 t_end 53779.000000 TEST 1: recsInScan 3 t 53771.000000 t_start 53769.000000 t_end 53779.000000 TEST 1: recsInScan 4 t 53772.000000 t_start 53769.000000 t_end 53779.000000 TEST 1: recsInScan 5 t 53773.000000 t_start 53769.000000 t_end 53779.000000 TEST 1: recsInScan 6 t 53774.000000 t_start 53769.000000 t_end 53779.000000 TEST 1: recsInScan 7 t 53775.000000 t_start 53769.000000 t_end 53779.000000 TEST 1: recsInScan 8 t 53776.000000 t_start 53769.000000 t_end 53779.000000 TEST 1: recsInScan 9 t 53777.000000 t_start 53769.000000 t_end 53779.000000 TEST 1: recsInScan 10 t 53778.000000 t_start 53769.000000 t_end 53779.000000 TEST 1: recsInScan 11 t 53779.000000 t_start 53769.000000 t_end 53779.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 53780.000000 t_start 53779.000000 t_end 53789.000000 TEST 1: recsInScan 13 t 53781.000000 t_start 53779.000000 t_end 53789.000000 TEST 1: recsInScan 14 t 53782.000000 t_start 53779.000000 t_end 53789.000000 TEST 1: recsInScan 15 t 53783.000000 t_start 53779.000000 t_end 53789.000000 TEST 1: recsInScan 16 t 53784.000000 t_start 53779.000000 t_end 53789.000000 TEST 1: recsInScan 17 t 53785.000000 t_start 53779.000000 t_end 53789.000000 TEST 1: recsInScan 18 t 53786.000000 t_start 53779.000000 t_end 53789.000000 TEST 1: recsInScan 19 t 53787.000000 t_start 53779.000000 t_end 53789.000000 TEST 1: recsInScan 20 t 53788.000000 t_start 53779.000000 t_end 53789.000000 TEST 1: recsInScan 21 t 53789.000000 t_start 53779.000000 t_end 53789.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 53790.000000 t_start 53789.000000 t_end 53799.000000 TEST 1: recsInScan 23 t 53791.000000 t_start 53789.000000 t_end 53799.000000 TEST 1: recsInScan 24 t 53792.000000 t_start 53789.000000 t_end 53799.000000 TEST 1: recsInScan 25 t 53793.000000 t_start 53789.000000 t_end 53799.000000 TEST 1: recsInScan 26 t 53794.000000 t_start 53789.000000 t_end 53799.000000 TEST 1: recsInScan 27 t 53795.000000 t_start 53789.000000 t_end 53799.000000 TEST 1: recsInScan 28 t 53796.000000 t_start 53789.000000 t_end 53799.000000 TEST 1: recsInScan 29 t 53797.000000 t_start 53789.000000 t_end 53799.000000 TEST 1: recsInScan 30 t 53798.000000 t_start 53789.000000 t_end 53799.000000 TEST 1: recsInScan 31 t 53799.000000 t_start 53789.000000 t_end 53799.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 53800.000000 t_start 53799.000000 t_end 53809.000000 TEST 1: recsInScan 33 t 53801.000000 t_start 53799.000000 t_end 53809.000000 TEST 1: recsInScan 34 t 53802.000000 t_start 53799.000000 t_end 53809.000000 TEST 1: recsInScan 35 t 53803.000000 t_start 53799.000000 t_end 53809.000000 TEST 1: recsInScan 36 t 53804.000000 t_start 53799.000000 t_end 53809.000000 TEST 1: recsInScan 37 t 53805.000000 t_start 53799.000000 t_end 53809.000000 TEST 1: recsInScan 38 t 53806.000000 t_start 53799.000000 t_end 53809.000000 TEST 1: recsInScan 39 t 53807.000000 t_start 53799.000000 t_end 53809.000000 TEST 1: recsInScan 40 t 53808.000000 t_start 53799.000000 t_end 53809.000000 TEST 1: recsInScan 41 t 53809.000000 t_start 53799.000000 t_end 53809.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 53810.000000 t_start 53809.000000 t_end 53819.000000 TEST 1: recsInScan 43 t 53811.000000 t_start 53809.000000 t_end 53819.000000 TEST 1: recsInScan 44 t 53812.000000 t_start 53809.000000 t_end 53819.000000 TEST 1: recsInScan 45 t 53813.000000 t_start 53809.000000 t_end 53819.000000 Wrote records for 9 dwells in scan 200900006 (last 5 are dummy records) Reading scan 200900007 (record length = 792 + 40000) TEST 1: recsInScan 1 t 53871.000000 t_start 53871.000000 t_end 53881.000000 TEST 1: recsInScan 2 t 53872.000000 t_start 53871.000000 t_end 53881.000000 TEST 1: recsInScan 3 t 53873.000000 t_start 53871.000000 t_end 53881.000000 TEST 1: recsInScan 4 t 53874.000000 t_start 53871.000000 t_end 53881.000000 TEST 1: recsInScan 5 t 53875.000000 t_start 53871.000000 t_end 53881.000000 TEST 1: recsInScan 6 t 53876.000000 t_start 53871.000000 t_end 53881.000000 TEST 1: recsInScan 7 t 53877.000000 t_start 53871.000000 t_end 53881.000000 TEST 1: recsInScan 8 t 53878.000000 t_start 53871.000000 t_end 53881.000000 TEST 1: recsInScan 9 t 53879.000000 t_start 53871.000000 t_end 53881.000000 TEST 1: recsInScan 10 t 53880.000000 t_start 53871.000000 t_end 53881.000000 TEST 1: recsInScan 11 t 53881.000000 t_start 53871.000000 t_end 53881.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 53882.000000 t_start 53881.000000 t_end 53891.000000 TEST 1: recsInScan 13 t 53883.000000 t_start 53881.000000 t_end 53891.000000 TEST 1: recsInScan 14 t 53884.000000 t_start 53881.000000 t_end 53891.000000 TEST 1: recsInScan 15 t 53885.000000 t_start 53881.000000 t_end 53891.000000 TEST 1: recsInScan 16 t 53886.000000 t_start 53881.000000 t_end 53891.000000 TEST 1: recsInScan 17 t 53887.000000 t_start 53881.000000 t_end 53891.000000 TEST 1: recsInScan 18 t 53888.000000 t_start 53881.000000 t_end 53891.000000 TEST 1: recsInScan 19 t 53889.000000 t_start 53881.000000 t_end 53891.000000 TEST 1: recsInScan 20 t 53890.000000 t_start 53881.000000 t_end 53891.000000 TEST 1: recsInScan 21 t 53891.000000 t_start 53881.000000 t_end 53891.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 53892.000000 t_start 53891.000000 t_end 53901.000000 TEST 1: recsInScan 23 t 53893.000000 t_start 53891.000000 t_end 53901.000000 TEST 1: recsInScan 24 t 53894.000000 t_start 53891.000000 t_end 53901.000000 TEST 1: recsInScan 25 t 53895.000000 t_start 53891.000000 t_end 53901.000000 TEST 1: recsInScan 26 t 53896.000000 t_start 53891.000000 t_end 53901.000000 TEST 1: recsInScan 27 t 53897.000000 t_start 53891.000000 t_end 53901.000000 TEST 1: recsInScan 28 t 53898.000000 t_start 53891.000000 t_end 53901.000000 TEST 1: recsInScan 29 t 53899.000000 t_start 53891.000000 t_end 53901.000000 TEST 1: recsInScan 30 t 53900.000000 t_start 53891.000000 t_end 53901.000000 TEST 1: recsInScan 31 t 53901.000000 t_start 53891.000000 t_end 53901.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 53902.000000 t_start 53901.000000 t_end 53911.000000 TEST 1: recsInScan 33 t 53903.000000 t_start 53901.000000 t_end 53911.000000 TEST 1: recsInScan 34 t 53904.000000 t_start 53901.000000 t_end 53911.000000 TEST 1: recsInScan 35 t 53905.000000 t_start 53901.000000 t_end 53911.000000 TEST 1: recsInScan 36 t 53906.000000 t_start 53901.000000 t_end 53911.000000 TEST 1: recsInScan 37 t 53907.000000 t_start 53901.000000 t_end 53911.000000 TEST 1: recsInScan 38 t 53908.000000 t_start 53901.000000 t_end 53911.000000 TEST 1: recsInScan 39 t 53909.000000 t_start 53901.000000 t_end 53911.000000 TEST 1: recsInScan 40 t 53910.000000 t_start 53901.000000 t_end 53911.000000 TEST 1: recsInScan 41 t 53911.000000 t_start 53901.000000 t_end 53911.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 53912.000000 t_start 53911.000000 t_end 53921.000000 TEST 1: recsInScan 43 t 53913.000000 t_start 53911.000000 t_end 53921.000000 TEST 1: recsInScan 44 t 53914.000000 t_start 53911.000000 t_end 53921.000000 TEST 1: recsInScan 45 t 53915.000000 t_start 53911.000000 t_end 53921.000000 Wrote records for 9 dwells in scan 200900007 (last 5 are dummy records) Reading scan 200900008 (record length = 792 + 40000) TEST 1: recsInScan 1 t 53973.000000 t_start 53973.000000 t_end 53983.000000 TEST 1: recsInScan 2 t 53974.000000 t_start 53973.000000 t_end 53983.000000 TEST 1: recsInScan 3 t 53975.000000 t_start 53973.000000 t_end 53983.000000 TEST 1: recsInScan 4 t 53976.000000 t_start 53973.000000 t_end 53983.000000 TEST 1: recsInScan 5 t 53977.000000 t_start 53973.000000 t_end 53983.000000 TEST 1: recsInScan 6 t 53978.000000 t_start 53973.000000 t_end 53983.000000 TEST 1: recsInScan 7 t 53979.000000 t_start 53973.000000 t_end 53983.000000 TEST 1: recsInScan 8 t 53980.000000 t_start 53973.000000 t_end 53983.000000 TEST 1: recsInScan 9 t 53981.000000 t_start 53973.000000 t_end 53983.000000 TEST 1: recsInScan 10 t 53982.000000 t_start 53973.000000 t_end 53983.000000 TEST 1: recsInScan 11 t 53983.000000 t_start 53973.000000 t_end 53983.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 53984.000000 t_start 53983.000000 t_end 53993.000000 TEST 1: recsInScan 13 t 53985.000000 t_start 53983.000000 t_end 53993.000000 TEST 1: recsInScan 14 t 53986.000000 t_start 53983.000000 t_end 53993.000000 TEST 1: recsInScan 15 t 53987.000000 t_start 53983.000000 t_end 53993.000000 TEST 1: recsInScan 16 t 53988.000000 t_start 53983.000000 t_end 53993.000000 TEST 1: recsInScan 17 t 53989.000000 t_start 53983.000000 t_end 53993.000000 TEST 1: recsInScan 18 t 53990.000000 t_start 53983.000000 t_end 53993.000000 TEST 1: recsInScan 19 t 53991.000000 t_start 53983.000000 t_end 53993.000000 TEST 1: recsInScan 20 t 53992.000000 t_start 53983.000000 t_end 53993.000000 TEST 1: recsInScan 21 t 53993.000000 t_start 53983.000000 t_end 53993.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 53994.000000 t_start 53993.000000 t_end 54003.000000 TEST 1: recsInScan 23 t 53995.000000 t_start 53993.000000 t_end 54003.000000 TEST 1: recsInScan 24 t 53996.000000 t_start 53993.000000 t_end 54003.000000 TEST 1: recsInScan 25 t 53997.000000 t_start 53993.000000 t_end 54003.000000 TEST 1: recsInScan 26 t 53998.000000 t_start 53993.000000 t_end 54003.000000 TEST 1: recsInScan 27 t 53999.000000 t_start 53993.000000 t_end 54003.000000 TEST 1: recsInScan 28 t 54000.000000 t_start 53993.000000 t_end 54003.000000 TEST 1: recsInScan 29 t 54001.000000 t_start 53993.000000 t_end 54003.000000 TEST 1: recsInScan 30 t 54002.000000 t_start 53993.000000 t_end 54003.000000 TEST 1: recsInScan 31 t 54003.000000 t_start 53993.000000 t_end 54003.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 54004.000000 t_start 54003.000000 t_end 54013.000000 TEST 1: recsInScan 33 t 54005.000000 t_start 54003.000000 t_end 54013.000000 TEST 1: recsInScan 34 t 54006.000000 t_start 54003.000000 t_end 54013.000000 TEST 1: recsInScan 35 t 54007.000000 t_start 54003.000000 t_end 54013.000000 TEST 1: recsInScan 36 t 54008.000000 t_start 54003.000000 t_end 54013.000000 TEST 1: recsInScan 37 t 54009.000000 t_start 54003.000000 t_end 54013.000000 TEST 1: recsInScan 38 t 54010.000000 t_start 54003.000000 t_end 54013.000000 TEST 1: recsInScan 39 t 54011.000000 t_start 54003.000000 t_end 54013.000000 TEST 1: recsInScan 40 t 54012.000000 t_start 54003.000000 t_end 54013.000000 TEST 1: recsInScan 41 t 54013.000000 t_start 54003.000000 t_end 54013.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 54014.000000 t_start 54013.000000 t_end 54023.000000 TEST 1: recsInScan 43 t 54015.000000 t_start 54013.000000 t_end 54023.000000 TEST 1: recsInScan 44 t 54016.000000 t_start 54013.000000 t_end 54023.000000 TEST 1: recsInScan 45 t 54017.000000 t_start 54013.000000 t_end 54023.000000 Wrote records for 9 dwells in scan 200900008 (last 5 are dummy records) Reading scan 200900009 (record length = 792 + 40000) TEST 1: recsInScan 1 t 54075.000000 t_start 54075.000000 t_end 54085.000000 TEST 1: recsInScan 2 t 54076.000000 t_start 54075.000000 t_end 54085.000000 TEST 1: recsInScan 3 t 54077.000000 t_start 54075.000000 t_end 54085.000000 TEST 1: recsInScan 4 t 54078.000000 t_start 54075.000000 t_end 54085.000000 TEST 1: recsInScan 5 t 54079.000000 t_start 54075.000000 t_end 54085.000000 TEST 1: recsInScan 6 t 54080.000000 t_start 54075.000000 t_end 54085.000000 TEST 1: recsInScan 7 t 54081.000000 t_start 54075.000000 t_end 54085.000000 TEST 1: recsInScan 8 t 54082.000000 t_start 54075.000000 t_end 54085.000000 TEST 1: recsInScan 9 t 54083.000000 t_start 54075.000000 t_end 54085.000000 TEST 1: recsInScan 10 t 54084.000000 t_start 54075.000000 t_end 54085.000000 TEST 1: recsInScan 11 t 54085.000000 t_start 54075.000000 t_end 54085.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 54086.000000 t_start 54085.000000 t_end 54095.000000 TEST 1: recsInScan 13 t 54087.000000 t_start 54085.000000 t_end 54095.000000 TEST 1: recsInScan 14 t 54088.000000 t_start 54085.000000 t_end 54095.000000 TEST 1: recsInScan 15 t 54089.000000 t_start 54085.000000 t_end 54095.000000 TEST 1: recsInScan 16 t 54090.000000 t_start 54085.000000 t_end 54095.000000 TEST 1: recsInScan 17 t 54091.000000 t_start 54085.000000 t_end 54095.000000 TEST 1: recsInScan 18 t 54092.000000 t_start 54085.000000 t_end 54095.000000 TEST 1: recsInScan 19 t 54093.000000 t_start 54085.000000 t_end 54095.000000 TEST 1: recsInScan 20 t 54094.000000 t_start 54085.000000 t_end 54095.000000 TEST 1: recsInScan 21 t 54095.000000 t_start 54085.000000 t_end 54095.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 54096.000000 t_start 54095.000000 t_end 54105.000000 TEST 1: recsInScan 23 t 54097.000000 t_start 54095.000000 t_end 54105.000000 TEST 1: recsInScan 24 t 54098.000000 t_start 54095.000000 t_end 54105.000000 TEST 1: recsInScan 25 t 54099.000000 t_start 54095.000000 t_end 54105.000000 TEST 1: recsInScan 26 t 54100.000000 t_start 54095.000000 t_end 54105.000000 TEST 1: recsInScan 27 t 54101.000000 t_start 54095.000000 t_end 54105.000000 TEST 1: recsInScan 28 t 54102.000000 t_start 54095.000000 t_end 54105.000000 TEST 1: recsInScan 29 t 54103.000000 t_start 54095.000000 t_end 54105.000000 TEST 1: recsInScan 30 t 54104.000000 t_start 54095.000000 t_end 54105.000000 TEST 1: recsInScan 31 t 54105.000000 t_start 54095.000000 t_end 54105.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 54106.000000 t_start 54105.000000 t_end 54115.000000 TEST 1: recsInScan 33 t 54107.000000 t_start 54105.000000 t_end 54115.000000 TEST 1: recsInScan 34 t 54108.000000 t_start 54105.000000 t_end 54115.000000 TEST 1: recsInScan 35 t 54109.000000 t_start 54105.000000 t_end 54115.000000 TEST 1: recsInScan 36 t 54110.000000 t_start 54105.000000 t_end 54115.000000 TEST 1: recsInScan 37 t 54111.000000 t_start 54105.000000 t_end 54115.000000 TEST 1: recsInScan 38 t 54112.000000 t_start 54105.000000 t_end 54115.000000 TEST 1: recsInScan 39 t 54113.000000 t_start 54105.000000 t_end 54115.000000 TEST 1: recsInScan 40 t 54114.000000 t_start 54105.000000 t_end 54115.000000 TEST 1: recsInScan 41 t 54115.000000 t_start 54105.000000 t_end 54115.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 54116.000000 t_start 54115.000000 t_end 54125.000000 TEST 1: recsInScan 43 t 54117.000000 t_start 54115.000000 t_end 54125.000000 TEST 1: recsInScan 44 t 54118.000000 t_start 54115.000000 t_end 54125.000000 TEST 1: recsInScan 45 t 54119.000000 t_start 54115.000000 t_end 54125.000000 Wrote records for 9 dwells in scan 200900009 (last 5 are dummy records) Reading scan 200900010 (record length = 792 + 40000) TEST 1: recsInScan 1 t 54365.000000 t_start 54365.000000 t_end 54375.000000 TEST 1: recsInScan 2 t 54366.000000 t_start 54365.000000 t_end 54375.000000 TEST 1: recsInScan 3 t 54367.000000 t_start 54365.000000 t_end 54375.000000 TEST 1: recsInScan 4 t 54368.000000 t_start 54365.000000 t_end 54375.000000 TEST 1: recsInScan 5 t 54369.000000 t_start 54365.000000 t_end 54375.000000 TEST 1: recsInScan 6 t 54370.000000 t_start 54365.000000 t_end 54375.000000 TEST 1: recsInScan 7 t 54371.000000 t_start 54365.000000 t_end 54375.000000 TEST 1: recsInScan 8 t 54372.000000 t_start 54365.000000 t_end 54375.000000 TEST 1: recsInScan 9 t 54373.000000 t_start 54365.000000 t_end 54375.000000 TEST 1: recsInScan 10 t 54374.000000 t_start 54365.000000 t_end 54375.000000 TEST 1: recsInScan 11 t 54375.000000 t_start 54365.000000 t_end 54375.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 54376.000000 t_start 54375.000000 t_end 54385.000000 TEST 1: recsInScan 13 t 54377.000000 t_start 54375.000000 t_end 54385.000000 TEST 1: recsInScan 14 t 54378.000000 t_start 54375.000000 t_end 54385.000000 TEST 1: recsInScan 15 t 54379.000000 t_start 54375.000000 t_end 54385.000000 TEST 1: recsInScan 16 t 54380.000000 t_start 54375.000000 t_end 54385.000000 TEST 1: recsInScan 17 t 54381.000000 t_start 54375.000000 t_end 54385.000000 TEST 1: recsInScan 18 t 54382.000000 t_start 54375.000000 t_end 54385.000000 TEST 1: recsInScan 19 t 54383.000000 t_start 54375.000000 t_end 54385.000000 TEST 1: recsInScan 20 t 54384.000000 t_start 54375.000000 t_end 54385.000000 TEST 1: recsInScan 21 t 54385.000000 t_start 54375.000000 t_end 54385.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 54386.000000 t_start 54385.000000 t_end 54395.000000 TEST 1: recsInScan 23 t 54387.000000 t_start 54385.000000 t_end 54395.000000 TEST 1: recsInScan 24 t 54388.000000 t_start 54385.000000 t_end 54395.000000 TEST 1: recsInScan 25 t 54389.000000 t_start 54385.000000 t_end 54395.000000 TEST 1: recsInScan 26 t 54390.000000 t_start 54385.000000 t_end 54395.000000 TEST 1: recsInScan 27 t 54391.000000 t_start 54385.000000 t_end 54395.000000 TEST 1: recsInScan 28 t 54392.000000 t_start 54385.000000 t_end 54395.000000 TEST 1: recsInScan 29 t 54393.000000 t_start 54385.000000 t_end 54395.000000 TEST 1: recsInScan 30 t 54394.000000 t_start 54385.000000 t_end 54395.000000 TEST 1: recsInScan 31 t 54395.000000 t_start 54385.000000 t_end 54395.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 54396.000000 t_start 54395.000000 t_end 54405.000000 TEST 1: recsInScan 33 t 54397.000000 t_start 54395.000000 t_end 54405.000000 TEST 1: recsInScan 34 t 54398.000000 t_start 54395.000000 t_end 54405.000000 TEST 1: recsInScan 35 t 54399.000000 t_start 54395.000000 t_end 54405.000000 TEST 1: recsInScan 36 t 54400.000000 t_start 54395.000000 t_end 54405.000000 TEST 1: recsInScan 37 t 54401.000000 t_start 54395.000000 t_end 54405.000000 TEST 1: recsInScan 38 t 54402.000000 t_start 54395.000000 t_end 54405.000000 TEST 1: recsInScan 39 t 54403.000000 t_start 54395.000000 t_end 54405.000000 TEST 1: recsInScan 40 t 54404.000000 t_start 54395.000000 t_end 54405.000000 TEST 1: recsInScan 41 t 54405.000000 t_start 54395.000000 t_end 54405.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 54406.000000 t_start 54405.000000 t_end 54415.000000 TEST 1: recsInScan 43 t 54407.000000 t_start 54405.000000 t_end 54415.000000 TEST 1: recsInScan 44 t 54408.000000 t_start 54405.000000 t_end 54415.000000 TEST 1: recsInScan 45 t 54409.000000 t_start 54405.000000 t_end 54415.000000 Wrote records for 9 dwells in scan 200900010 (last 5 are dummy records) Reading scan 200900011 (record length = 792 + 40000) TEST 1: recsInScan 1 t 54467.000000 t_start 54467.000000 t_end 54477.000000 TEST 1: recsInScan 2 t 54468.000000 t_start 54467.000000 t_end 54477.000000 TEST 1: recsInScan 3 t 54469.000000 t_start 54467.000000 t_end 54477.000000 TEST 1: recsInScan 4 t 54470.000000 t_start 54467.000000 t_end 54477.000000 TEST 1: recsInScan 5 t 54471.000000 t_start 54467.000000 t_end 54477.000000 TEST 1: recsInScan 6 t 54472.000000 t_start 54467.000000 t_end 54477.000000 TEST 1: recsInScan 7 t 54473.000000 t_start 54467.000000 t_end 54477.000000 TEST 1: recsInScan 8 t 54474.000000 t_start 54467.000000 t_end 54477.000000 TEST 1: recsInScan 9 t 54475.000000 t_start 54467.000000 t_end 54477.000000 TEST 1: recsInScan 10 t 54476.000000 t_start 54467.000000 t_end 54477.000000 TEST 1: recsInScan 11 t 54477.000000 t_start 54467.000000 t_end 54477.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 54478.000000 t_start 54477.000000 t_end 54487.000000 TEST 1: recsInScan 13 t 54479.000000 t_start 54477.000000 t_end 54487.000000 TEST 1: recsInScan 14 t 54480.000000 t_start 54477.000000 t_end 54487.000000 TEST 1: recsInScan 15 t 54481.000000 t_start 54477.000000 t_end 54487.000000 TEST 1: recsInScan 16 t 54482.000000 t_start 54477.000000 t_end 54487.000000 TEST 1: recsInScan 17 t 54483.000000 t_start 54477.000000 t_end 54487.000000 TEST 1: recsInScan 18 t 54484.000000 t_start 54477.000000 t_end 54487.000000 TEST 1: recsInScan 19 t 54485.000000 t_start 54477.000000 t_end 54487.000000 TEST 1: recsInScan 20 t 54486.000000 t_start 54477.000000 t_end 54487.000000 TEST 1: recsInScan 21 t 54487.000000 t_start 54477.000000 t_end 54487.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 54488.000000 t_start 54487.000000 t_end 54497.000000 TEST 1: recsInScan 23 t 54489.000000 t_start 54487.000000 t_end 54497.000000 TEST 1: recsInScan 24 t 54490.000000 t_start 54487.000000 t_end 54497.000000 TEST 1: recsInScan 25 t 54491.000000 t_start 54487.000000 t_end 54497.000000 TEST 1: recsInScan 26 t 54492.000000 t_start 54487.000000 t_end 54497.000000 TEST 1: recsInScan 27 t 54493.000000 t_start 54487.000000 t_end 54497.000000 TEST 1: recsInScan 28 t 54494.000000 t_start 54487.000000 t_end 54497.000000 TEST 1: recsInScan 29 t 54495.000000 t_start 54487.000000 t_end 54497.000000 TEST 1: recsInScan 30 t 54496.000000 t_start 54487.000000 t_end 54497.000000 TEST 1: recsInScan 31 t 54497.000000 t_start 54487.000000 t_end 54497.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 54498.000000 t_start 54497.000000 t_end 54507.000000 TEST 1: recsInScan 33 t 54499.000000 t_start 54497.000000 t_end 54507.000000 TEST 1: recsInScan 34 t 54500.000000 t_start 54497.000000 t_end 54507.000000 TEST 1: recsInScan 35 t 54501.000000 t_start 54497.000000 t_end 54507.000000 TEST 1: recsInScan 36 t 54502.000000 t_start 54497.000000 t_end 54507.000000 TEST 1: recsInScan 37 t 54503.000000 t_start 54497.000000 t_end 54507.000000 TEST 1: recsInScan 38 t 54504.000000 t_start 54497.000000 t_end 54507.000000 TEST 1: recsInScan 39 t 54505.000000 t_start 54497.000000 t_end 54507.000000 TEST 1: recsInScan 40 t 54506.000000 t_start 54497.000000 t_end 54507.000000 TEST 1: recsInScan 41 t 54507.000000 t_start 54497.000000 t_end 54507.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 54508.000000 t_start 54507.000000 t_end 54517.000000 TEST 1: recsInScan 43 t 54509.000000 t_start 54507.000000 t_end 54517.000000 TEST 1: recsInScan 44 t 54510.000000 t_start 54507.000000 t_end 54517.000000 TEST 1: recsInScan 45 t 54511.000000 t_start 54507.000000 t_end 54517.000000 Wrote records for 9 dwells in scan 200900011 (last 5 are dummy records) Reading scan 200900012 (record length = 792 + 40000) TEST 1: recsInScan 1 t 54569.000000 t_start 54569.000000 t_end 54579.000000 TEST 1: recsInScan 2 t 54570.000000 t_start 54569.000000 t_end 54579.000000 TEST 1: recsInScan 3 t 54571.000000 t_start 54569.000000 t_end 54579.000000 TEST 1: recsInScan 4 t 54572.000000 t_start 54569.000000 t_end 54579.000000 TEST 1: recsInScan 5 t 54573.000000 t_start 54569.000000 t_end 54579.000000 TEST 1: recsInScan 6 t 54574.000000 t_start 54569.000000 t_end 54579.000000 TEST 1: recsInScan 7 t 54575.000000 t_start 54569.000000 t_end 54579.000000 TEST 1: recsInScan 8 t 54576.000000 t_start 54569.000000 t_end 54579.000000 TEST 1: recsInScan 9 t 54577.000000 t_start 54569.000000 t_end 54579.000000 TEST 1: recsInScan 10 t 54578.000000 t_start 54569.000000 t_end 54579.000000 TEST 1: recsInScan 11 t 54579.000000 t_start 54569.000000 t_end 54579.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 54580.000000 t_start 54579.000000 t_end 54589.000000 TEST 1: recsInScan 13 t 54581.000000 t_start 54579.000000 t_end 54589.000000 TEST 1: recsInScan 14 t 54582.000000 t_start 54579.000000 t_end 54589.000000 TEST 1: recsInScan 15 t 54583.000000 t_start 54579.000000 t_end 54589.000000 TEST 1: recsInScan 16 t 54584.000000 t_start 54579.000000 t_end 54589.000000 TEST 1: recsInScan 17 t 54585.000000 t_start 54579.000000 t_end 54589.000000 TEST 1: recsInScan 18 t 54586.000000 t_start 54579.000000 t_end 54589.000000 TEST 1: recsInScan 19 t 54587.000000 t_start 54579.000000 t_end 54589.000000 TEST 1: recsInScan 20 t 54588.000000 t_start 54579.000000 t_end 54589.000000 TEST 1: recsInScan 21 t 54589.000000 t_start 54579.000000 t_end 54589.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 54590.000000 t_start 54589.000000 t_end 54599.000000 TEST 1: recsInScan 23 t 54591.000000 t_start 54589.000000 t_end 54599.000000 TEST 1: recsInScan 24 t 54592.000000 t_start 54589.000000 t_end 54599.000000 TEST 1: recsInScan 25 t 54593.000000 t_start 54589.000000 t_end 54599.000000 TEST 1: recsInScan 26 t 54594.000000 t_start 54589.000000 t_end 54599.000000 TEST 1: recsInScan 27 t 54595.000000 t_start 54589.000000 t_end 54599.000000 TEST 1: recsInScan 28 t 54596.000000 t_start 54589.000000 t_end 54599.000000 TEST 1: recsInScan 29 t 54597.000000 t_start 54589.000000 t_end 54599.000000 TEST 1: recsInScan 30 t 54598.000000 t_start 54589.000000 t_end 54599.000000 TEST 1: recsInScan 31 t 54599.000000 t_start 54589.000000 t_end 54599.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 54600.000000 t_start 54599.000000 t_end 54609.000000 TEST 1: recsInScan 33 t 54601.000000 t_start 54599.000000 t_end 54609.000000 TEST 1: recsInScan 34 t 54602.000000 t_start 54599.000000 t_end 54609.000000 TEST 1: recsInScan 35 t 54603.000000 t_start 54599.000000 t_end 54609.000000 TEST 1: recsInScan 36 t 54604.000000 t_start 54599.000000 t_end 54609.000000 TEST 1: recsInScan 37 t 54605.000000 t_start 54599.000000 t_end 54609.000000 TEST 1: recsInScan 38 t 54606.000000 t_start 54599.000000 t_end 54609.000000 TEST 1: recsInScan 39 t 54607.000000 t_start 54599.000000 t_end 54609.000000 TEST 1: recsInScan 40 t 54608.000000 t_start 54599.000000 t_end 54609.000000 TEST 1: recsInScan 41 t 54609.000000 t_start 54599.000000 t_end 54609.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 54610.000000 t_start 54609.000000 t_end 54619.000000 TEST 1: recsInScan 43 t 54611.000000 t_start 54609.000000 t_end 54619.000000 TEST 1: recsInScan 44 t 54612.000000 t_start 54609.000000 t_end 54619.000000 TEST 1: recsInScan 45 t 54613.000000 t_start 54609.000000 t_end 54619.000000 Wrote records for 9 dwells in scan 200900012 (last 5 are dummy records) Reading scan 200900013 (record length = 792 + 40000) TEST 1: recsInScan 1 t 54671.000000 t_start 54671.000000 t_end 54681.000000 TEST 1: recsInScan 2 t 54672.000000 t_start 54671.000000 t_end 54681.000000 TEST 1: recsInScan 3 t 54673.000000 t_start 54671.000000 t_end 54681.000000 TEST 1: recsInScan 4 t 54674.000000 t_start 54671.000000 t_end 54681.000000 TEST 1: recsInScan 5 t 54675.000000 t_start 54671.000000 t_end 54681.000000 TEST 1: recsInScan 6 t 54676.000000 t_start 54671.000000 t_end 54681.000000 TEST 1: recsInScan 7 t 54677.000000 t_start 54671.000000 t_end 54681.000000 TEST 1: recsInScan 8 t 54678.000000 t_start 54671.000000 t_end 54681.000000 TEST 1: recsInScan 9 t 54679.000000 t_start 54671.000000 t_end 54681.000000 TEST 1: recsInScan 10 t 54680.000000 t_start 54671.000000 t_end 54681.000000 TEST 1: recsInScan 11 t 54681.000000 t_start 54671.000000 t_end 54681.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 54682.000000 t_start 54681.000000 t_end 54691.000000 TEST 1: recsInScan 13 t 54683.000000 t_start 54681.000000 t_end 54691.000000 TEST 1: recsInScan 14 t 54684.000000 t_start 54681.000000 t_end 54691.000000 TEST 1: recsInScan 15 t 54685.000000 t_start 54681.000000 t_end 54691.000000 TEST 1: recsInScan 16 t 54686.000000 t_start 54681.000000 t_end 54691.000000 TEST 1: recsInScan 17 t 54687.000000 t_start 54681.000000 t_end 54691.000000 TEST 1: recsInScan 18 t 54688.000000 t_start 54681.000000 t_end 54691.000000 TEST 1: recsInScan 19 t 54689.000000 t_start 54681.000000 t_end 54691.000000 TEST 1: recsInScan 20 t 54690.000000 t_start 54681.000000 t_end 54691.000000 TEST 1: recsInScan 21 t 54691.000000 t_start 54681.000000 t_end 54691.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 54692.000000 t_start 54691.000000 t_end 54701.000000 TEST 1: recsInScan 23 t 54693.000000 t_start 54691.000000 t_end 54701.000000 TEST 1: recsInScan 24 t 54694.000000 t_start 54691.000000 t_end 54701.000000 TEST 1: recsInScan 25 t 54695.000000 t_start 54691.000000 t_end 54701.000000 TEST 1: recsInScan 26 t 54696.000000 t_start 54691.000000 t_end 54701.000000 TEST 1: recsInScan 27 t 54697.000000 t_start 54691.000000 t_end 54701.000000 TEST 1: recsInScan 28 t 54698.000000 t_start 54691.000000 t_end 54701.000000 TEST 1: recsInScan 29 t 54699.000000 t_start 54691.000000 t_end 54701.000000 TEST 1: recsInScan 30 t 54700.000000 t_start 54691.000000 t_end 54701.000000 TEST 1: recsInScan 31 t 54701.000000 t_start 54691.000000 t_end 54701.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 54702.000000 t_start 54701.000000 t_end 54711.000000 TEST 1: recsInScan 33 t 54703.000000 t_start 54701.000000 t_end 54711.000000 TEST 1: recsInScan 34 t 54704.000000 t_start 54701.000000 t_end 54711.000000 TEST 1: recsInScan 35 t 54705.000000 t_start 54701.000000 t_end 54711.000000 TEST 1: recsInScan 36 t 54706.000000 t_start 54701.000000 t_end 54711.000000 TEST 1: recsInScan 37 t 54707.000000 t_start 54701.000000 t_end 54711.000000 TEST 1: recsInScan 38 t 54708.000000 t_start 54701.000000 t_end 54711.000000 TEST 1: recsInScan 39 t 54709.000000 t_start 54701.000000 t_end 54711.000000 TEST 1: recsInScan 40 t 54710.000000 t_start 54701.000000 t_end 54711.000000 TEST 1: recsInScan 41 t 54711.000000 t_start 54701.000000 t_end 54711.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 54712.000000 t_start 54711.000000 t_end 54721.000000 TEST 1: recsInScan 43 t 54713.000000 t_start 54711.000000 t_end 54721.000000 TEST 1: recsInScan 44 t 54714.000000 t_start 54711.000000 t_end 54721.000000 TEST 1: recsInScan 45 t 54715.000000 t_start 54711.000000 t_end 54721.000000 Wrote records for 9 dwells in scan 200900013 (last 5 are dummy records) Reading scan 200900014 (record length = 792 + 40000) TEST 1: recsInScan 1 t 54773.000000 t_start 54773.000000 t_end 54783.000000 TEST 1: recsInScan 2 t 54774.000000 t_start 54773.000000 t_end 54783.000000 TEST 1: recsInScan 3 t 54775.000000 t_start 54773.000000 t_end 54783.000000 TEST 1: recsInScan 4 t 54776.000000 t_start 54773.000000 t_end 54783.000000 TEST 1: recsInScan 5 t 54777.000000 t_start 54773.000000 t_end 54783.000000 TEST 1: recsInScan 6 t 54778.000000 t_start 54773.000000 t_end 54783.000000 TEST 1: recsInScan 7 t 54779.000000 t_start 54773.000000 t_end 54783.000000 TEST 1: recsInScan 8 t 54780.000000 t_start 54773.000000 t_end 54783.000000 TEST 1: recsInScan 9 t 54781.000000 t_start 54773.000000 t_end 54783.000000 TEST 1: recsInScan 10 t 54782.000000 t_start 54773.000000 t_end 54783.000000 TEST 1: recsInScan 11 t 54783.000000 t_start 54773.000000 t_end 54783.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 54784.000000 t_start 54783.000000 t_end 54793.000000 TEST 1: recsInScan 13 t 54785.000000 t_start 54783.000000 t_end 54793.000000 TEST 1: recsInScan 14 t 54786.000000 t_start 54783.000000 t_end 54793.000000 TEST 1: recsInScan 15 t 54787.000000 t_start 54783.000000 t_end 54793.000000 TEST 1: recsInScan 16 t 54788.000000 t_start 54783.000000 t_end 54793.000000 TEST 1: recsInScan 17 t 54789.000000 t_start 54783.000000 t_end 54793.000000 TEST 1: recsInScan 18 t 54790.000000 t_start 54783.000000 t_end 54793.000000 TEST 1: recsInScan 19 t 54791.000000 t_start 54783.000000 t_end 54793.000000 TEST 1: recsInScan 20 t 54792.000000 t_start 54783.000000 t_end 54793.000000 TEST 1: recsInScan 21 t 54793.000000 t_start 54783.000000 t_end 54793.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 54794.000000 t_start 54793.000000 t_end 54803.000000 TEST 1: recsInScan 23 t 54795.000000 t_start 54793.000000 t_end 54803.000000 TEST 1: recsInScan 24 t 54796.000000 t_start 54793.000000 t_end 54803.000000 TEST 1: recsInScan 25 t 54797.000000 t_start 54793.000000 t_end 54803.000000 TEST 1: recsInScan 26 t 54798.000000 t_start 54793.000000 t_end 54803.000000 TEST 1: recsInScan 27 t 54799.000000 t_start 54793.000000 t_end 54803.000000 TEST 1: recsInScan 28 t 54800.000000 t_start 54793.000000 t_end 54803.000000 TEST 1: recsInScan 29 t 54801.000000 t_start 54793.000000 t_end 54803.000000 TEST 1: recsInScan 30 t 54802.000000 t_start 54793.000000 t_end 54803.000000 TEST 1: recsInScan 31 t 54803.000000 t_start 54793.000000 t_end 54803.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 54804.000000 t_start 54803.000000 t_end 54813.000000 TEST 1: recsInScan 33 t 54805.000000 t_start 54803.000000 t_end 54813.000000 TEST 1: recsInScan 34 t 54806.000000 t_start 54803.000000 t_end 54813.000000 TEST 1: recsInScan 35 t 54807.000000 t_start 54803.000000 t_end 54813.000000 TEST 1: recsInScan 36 t 54808.000000 t_start 54803.000000 t_end 54813.000000 TEST 1: recsInScan 37 t 54809.000000 t_start 54803.000000 t_end 54813.000000 TEST 1: recsInScan 38 t 54810.000000 t_start 54803.000000 t_end 54813.000000 TEST 1: recsInScan 39 t 54811.000000 t_start 54803.000000 t_end 54813.000000 TEST 1: recsInScan 40 t 54812.000000 t_start 54803.000000 t_end 54813.000000 TEST 1: recsInScan 41 t 54813.000000 t_start 54803.000000 t_end 54813.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 54814.000000 t_start 54813.000000 t_end 54823.000000 TEST 1: recsInScan 43 t 54815.000000 t_start 54813.000000 t_end 54823.000000 TEST 1: recsInScan 44 t 54816.000000 t_start 54813.000000 t_end 54823.000000 TEST 1: recsInScan 45 t 54817.000000 t_start 54813.000000 t_end 54823.000000 Wrote records for 9 dwells in scan 200900014 (last 5 are dummy records) Reading scan 200900015 (record length = 792 + 40000) TEST 1: recsInScan 1 t 54875.000000 t_start 54875.000000 t_end 54885.000000 TEST 1: recsInScan 2 t 54876.000000 t_start 54875.000000 t_end 54885.000000 TEST 1: recsInScan 3 t 54877.000000 t_start 54875.000000 t_end 54885.000000 TEST 1: recsInScan 4 t 54878.000000 t_start 54875.000000 t_end 54885.000000 TEST 1: recsInScan 5 t 54879.000000 t_start 54875.000000 t_end 54885.000000 TEST 1: recsInScan 6 t 54880.000000 t_start 54875.000000 t_end 54885.000000 TEST 1: recsInScan 7 t 54881.000000 t_start 54875.000000 t_end 54885.000000 TEST 1: recsInScan 8 t 54882.000000 t_start 54875.000000 t_end 54885.000000 TEST 1: recsInScan 9 t 54883.000000 t_start 54875.000000 t_end 54885.000000 TEST 1: recsInScan 10 t 54884.000000 t_start 54875.000000 t_end 54885.000000 TEST 1: recsInScan 11 t 54885.000000 t_start 54875.000000 t_end 54885.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 54886.000000 t_start 54885.000000 t_end 54895.000000 TEST 1: recsInScan 13 t 54887.000000 t_start 54885.000000 t_end 54895.000000 TEST 1: recsInScan 14 t 54888.000000 t_start 54885.000000 t_end 54895.000000 TEST 1: recsInScan 15 t 54889.000000 t_start 54885.000000 t_end 54895.000000 TEST 1: recsInScan 16 t 54890.000000 t_start 54885.000000 t_end 54895.000000 TEST 1: recsInScan 17 t 54891.000000 t_start 54885.000000 t_end 54895.000000 TEST 1: recsInScan 18 t 54892.000000 t_start 54885.000000 t_end 54895.000000 TEST 1: recsInScan 19 t 54893.000000 t_start 54885.000000 t_end 54895.000000 TEST 1: recsInScan 20 t 54894.000000 t_start 54885.000000 t_end 54895.000000 TEST 1: recsInScan 21 t 54895.000000 t_start 54885.000000 t_end 54895.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 54896.000000 t_start 54895.000000 t_end 54905.000000 TEST 1: recsInScan 23 t 54897.000000 t_start 54895.000000 t_end 54905.000000 TEST 1: recsInScan 24 t 54898.000000 t_start 54895.000000 t_end 54905.000000 TEST 1: recsInScan 25 t 54899.000000 t_start 54895.000000 t_end 54905.000000 TEST 1: recsInScan 26 t 54900.000000 t_start 54895.000000 t_end 54905.000000 TEST 1: recsInScan 27 t 54901.000000 t_start 54895.000000 t_end 54905.000000 TEST 1: recsInScan 28 t 54902.000000 t_start 54895.000000 t_end 54905.000000 TEST 1: recsInScan 29 t 54903.000000 t_start 54895.000000 t_end 54905.000000 TEST 1: recsInScan 30 t 54904.000000 t_start 54895.000000 t_end 54905.000000 TEST 1: recsInScan 31 t 54905.000000 t_start 54895.000000 t_end 54905.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 54906.000000 t_start 54905.000000 t_end 54915.000000 TEST 1: recsInScan 33 t 54907.000000 t_start 54905.000000 t_end 54915.000000 TEST 1: recsInScan 34 t 54908.000000 t_start 54905.000000 t_end 54915.000000 TEST 1: recsInScan 35 t 54909.000000 t_start 54905.000000 t_end 54915.000000 TEST 1: recsInScan 36 t 54910.000000 t_start 54905.000000 t_end 54915.000000 TEST 1: recsInScan 37 t 54911.000000 t_start 54905.000000 t_end 54915.000000 TEST 1: recsInScan 38 t 54912.000000 t_start 54905.000000 t_end 54915.000000 TEST 1: recsInScan 39 t 54913.000000 t_start 54905.000000 t_end 54915.000000 TEST 1: recsInScan 40 t 54914.000000 t_start 54905.000000 t_end 54915.000000 TEST 1: recsInScan 41 t 54915.000000 t_start 54905.000000 t_end 54915.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 54916.000000 t_start 54915.000000 t_end 54925.000000 TEST 1: recsInScan 43 t 54917.000000 t_start 54915.000000 t_end 54925.000000 TEST 1: recsInScan 44 t 54918.000000 t_start 54915.000000 t_end 54925.000000 TEST 1: recsInScan 45 t 54919.000000 t_start 54915.000000 t_end 54925.000000 Wrote records for 9 dwells in scan 200900015 (last 5 are dummy records) Reading scan 200900016 (record length = 792 + 40000) TEST 1: recsInScan 1 t 54977.000000 t_start 54977.000000 t_end 54987.000000 TEST 1: recsInScan 2 t 54978.000000 t_start 54977.000000 t_end 54987.000000 TEST 1: recsInScan 3 t 54979.000000 t_start 54977.000000 t_end 54987.000000 TEST 1: recsInScan 4 t 54980.000000 t_start 54977.000000 t_end 54987.000000 TEST 1: recsInScan 5 t 54981.000000 t_start 54977.000000 t_end 54987.000000 TEST 1: recsInScan 6 t 54982.000000 t_start 54977.000000 t_end 54987.000000 TEST 1: recsInScan 7 t 54983.000000 t_start 54977.000000 t_end 54987.000000 TEST 1: recsInScan 8 t 54984.000000 t_start 54977.000000 t_end 54987.000000 TEST 1: recsInScan 9 t 54985.000000 t_start 54977.000000 t_end 54987.000000 TEST 1: recsInScan 10 t 54986.000000 t_start 54977.000000 t_end 54987.000000 TEST 1: recsInScan 11 t 54987.000000 t_start 54977.000000 t_end 54987.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 54988.000000 t_start 54987.000000 t_end 54997.000000 TEST 1: recsInScan 13 t 54989.000000 t_start 54987.000000 t_end 54997.000000 TEST 1: recsInScan 14 t 54990.000000 t_start 54987.000000 t_end 54997.000000 TEST 1: recsInScan 15 t 54991.000000 t_start 54987.000000 t_end 54997.000000 TEST 1: recsInScan 16 t 54992.000000 t_start 54987.000000 t_end 54997.000000 TEST 1: recsInScan 17 t 54993.000000 t_start 54987.000000 t_end 54997.000000 TEST 1: recsInScan 18 t 54994.000000 t_start 54987.000000 t_end 54997.000000 TEST 1: recsInScan 19 t 54995.000000 t_start 54987.000000 t_end 54997.000000 TEST 1: recsInScan 20 t 54996.000000 t_start 54987.000000 t_end 54997.000000 TEST 1: recsInScan 21 t 54997.000000 t_start 54987.000000 t_end 54997.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 54998.000000 t_start 54997.000000 t_end 55007.000000 TEST 1: recsInScan 23 t 54999.000000 t_start 54997.000000 t_end 55007.000000 TEST 1: recsInScan 24 t 55000.000000 t_start 54997.000000 t_end 55007.000000 TEST 1: recsInScan 25 t 55001.000000 t_start 54997.000000 t_end 55007.000000 TEST 1: recsInScan 26 t 55002.000000 t_start 54997.000000 t_end 55007.000000 TEST 1: recsInScan 27 t 55003.000000 t_start 54997.000000 t_end 55007.000000 TEST 1: recsInScan 28 t 55004.000000 t_start 54997.000000 t_end 55007.000000 TEST 1: recsInScan 29 t 55005.000000 t_start 54997.000000 t_end 55007.000000 TEST 1: recsInScan 30 t 55006.000000 t_start 54997.000000 t_end 55007.000000 TEST 1: recsInScan 31 t 55007.000000 t_start 54997.000000 t_end 55007.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 55008.000000 t_start 55007.000000 t_end 55017.000000 TEST 1: recsInScan 33 t 55009.000000 t_start 55007.000000 t_end 55017.000000 TEST 1: recsInScan 34 t 55010.000000 t_start 55007.000000 t_end 55017.000000 TEST 1: recsInScan 35 t 55011.000000 t_start 55007.000000 t_end 55017.000000 TEST 1: recsInScan 36 t 55012.000000 t_start 55007.000000 t_end 55017.000000 TEST 1: recsInScan 37 t 55013.000000 t_start 55007.000000 t_end 55017.000000 TEST 1: recsInScan 38 t 55014.000000 t_start 55007.000000 t_end 55017.000000 TEST 1: recsInScan 39 t 55015.000000 t_start 55007.000000 t_end 55017.000000 TEST 1: recsInScan 40 t 55016.000000 t_start 55007.000000 t_end 55017.000000 TEST 1: recsInScan 41 t 55017.000000 t_start 55007.000000 t_end 55017.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 55018.000000 t_start 55017.000000 t_end 55027.000000 TEST 1: recsInScan 43 t 55019.000000 t_start 55017.000000 t_end 55027.000000 TEST 1: recsInScan 44 t 55020.000000 t_start 55017.000000 t_end 55027.000000 TEST 1: recsInScan 45 t 55021.000000 t_start 55017.000000 t_end 55027.000000 Wrote records for 9 dwells in scan 200900016 (last 5 are dummy records) Reading scan 200900017 (record length = 792 + 40000) TEST 1: recsInScan 1 t 55079.000000 t_start 55079.000000 t_end 55089.000000 TEST 1: recsInScan 2 t 55080.000000 t_start 55079.000000 t_end 55089.000000 TEST 1: recsInScan 3 t 55081.000000 t_start 55079.000000 t_end 55089.000000 TEST 1: recsInScan 4 t 55082.000000 t_start 55079.000000 t_end 55089.000000 TEST 1: recsInScan 5 t 55083.000000 t_start 55079.000000 t_end 55089.000000 TEST 1: recsInScan 6 t 55084.000000 t_start 55079.000000 t_end 55089.000000 TEST 1: recsInScan 7 t 55085.000000 t_start 55079.000000 t_end 55089.000000 TEST 1: recsInScan 8 t 55086.000000 t_start 55079.000000 t_end 55089.000000 TEST 1: recsInScan 9 t 55087.000000 t_start 55079.000000 t_end 55089.000000 TEST 1: recsInScan 10 t 55088.000000 t_start 55079.000000 t_end 55089.000000 TEST 1: recsInScan 11 t 55089.000000 t_start 55079.000000 t_end 55089.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 55090.000000 t_start 55089.000000 t_end 55099.000000 TEST 1: recsInScan 13 t 55091.000000 t_start 55089.000000 t_end 55099.000000 TEST 1: recsInScan 14 t 55092.000000 t_start 55089.000000 t_end 55099.000000 TEST 1: recsInScan 15 t 55093.000000 t_start 55089.000000 t_end 55099.000000 TEST 1: recsInScan 16 t 55094.000000 t_start 55089.000000 t_end 55099.000000 TEST 1: recsInScan 17 t 55095.000000 t_start 55089.000000 t_end 55099.000000 TEST 1: recsInScan 18 t 55096.000000 t_start 55089.000000 t_end 55099.000000 TEST 1: recsInScan 19 t 55097.000000 t_start 55089.000000 t_end 55099.000000 TEST 1: recsInScan 20 t 55098.000000 t_start 55089.000000 t_end 55099.000000 TEST 1: recsInScan 21 t 55099.000000 t_start 55089.000000 t_end 55099.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 55100.000000 t_start 55099.000000 t_end 55109.000000 TEST 1: recsInScan 23 t 55101.000000 t_start 55099.000000 t_end 55109.000000 TEST 1: recsInScan 24 t 55102.000000 t_start 55099.000000 t_end 55109.000000 TEST 1: recsInScan 25 t 55103.000000 t_start 55099.000000 t_end 55109.000000 TEST 1: recsInScan 26 t 55104.000000 t_start 55099.000000 t_end 55109.000000 TEST 1: recsInScan 27 t 55105.000000 t_start 55099.000000 t_end 55109.000000 TEST 1: recsInScan 28 t 55106.000000 t_start 55099.000000 t_end 55109.000000 TEST 1: recsInScan 29 t 55107.000000 t_start 55099.000000 t_end 55109.000000 TEST 1: recsInScan 30 t 55108.000000 t_start 55099.000000 t_end 55109.000000 TEST 1: recsInScan 31 t 55109.000000 t_start 55099.000000 t_end 55109.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 55110.000000 t_start 55109.000000 t_end 55119.000000 TEST 1: recsInScan 33 t 55111.000000 t_start 55109.000000 t_end 55119.000000 TEST 1: recsInScan 34 t 55112.000000 t_start 55109.000000 t_end 55119.000000 TEST 1: recsInScan 35 t 55113.000000 t_start 55109.000000 t_end 55119.000000 TEST 1: recsInScan 36 t 55114.000000 t_start 55109.000000 t_end 55119.000000 TEST 1: recsInScan 37 t 55115.000000 t_start 55109.000000 t_end 55119.000000 TEST 1: recsInScan 38 t 55116.000000 t_start 55109.000000 t_end 55119.000000 TEST 1: recsInScan 39 t 55117.000000 t_start 55109.000000 t_end 55119.000000 TEST 1: recsInScan 40 t 55118.000000 t_start 55109.000000 t_end 55119.000000 TEST 1: recsInScan 41 t 55119.000000 t_start 55109.000000 t_end 55119.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 55120.000000 t_start 55119.000000 t_end 55129.000000 TEST 1: recsInScan 43 t 55121.000000 t_start 55119.000000 t_end 55129.000000 TEST 1: recsInScan 44 t 55122.000000 t_start 55119.000000 t_end 55129.000000 TEST 1: recsInScan 45 t 55123.000000 t_start 55119.000000 t_end 55129.000000 Wrote records for 9 dwells in scan 200900017 (last 5 are dummy records) Reading scan 200900018 (record length = 792 + 40000) TEST 1: recsInScan 1 t 55181.000000 t_start 55181.000000 t_end 55191.000000 TEST 1: recsInScan 2 t 55182.000000 t_start 55181.000000 t_end 55191.000000 TEST 1: recsInScan 3 t 55183.000000 t_start 55181.000000 t_end 55191.000000 TEST 1: recsInScan 4 t 55184.000000 t_start 55181.000000 t_end 55191.000000 TEST 1: recsInScan 5 t 55185.000000 t_start 55181.000000 t_end 55191.000000 TEST 1: recsInScan 6 t 55186.000000 t_start 55181.000000 t_end 55191.000000 TEST 1: recsInScan 7 t 55187.000000 t_start 55181.000000 t_end 55191.000000 TEST 1: recsInScan 8 t 55188.000000 t_start 55181.000000 t_end 55191.000000 TEST 1: recsInScan 9 t 55189.000000 t_start 55181.000000 t_end 55191.000000 TEST 1: recsInScan 10 t 55190.000000 t_start 55181.000000 t_end 55191.000000 TEST 1: recsInScan 11 t 55191.000000 t_start 55181.000000 t_end 55191.000000 TEST 2: recsInScan 11 n 10 minRecsInDwell 10 ndwells_out 0 ndwells 2 TEST 3: just wrote dwell 0 TEST 1: recsInScan 12 t 55192.000000 t_start 55191.000000 t_end 55201.000000 TEST 1: recsInScan 13 t 55193.000000 t_start 55191.000000 t_end 55201.000000 TEST 1: recsInScan 14 t 55194.000000 t_start 55191.000000 t_end 55201.000000 TEST 1: recsInScan 15 t 55195.000000 t_start 55191.000000 t_end 55201.000000 TEST 1: recsInScan 16 t 55196.000000 t_start 55191.000000 t_end 55201.000000 TEST 1: recsInScan 17 t 55197.000000 t_start 55191.000000 t_end 55201.000000 TEST 1: recsInScan 18 t 55198.000000 t_start 55191.000000 t_end 55201.000000 TEST 1: recsInScan 19 t 55199.000000 t_start 55191.000000 t_end 55201.000000 TEST 1: recsInScan 20 t 55200.000000 t_start 55191.000000 t_end 55201.000000 TEST 1: recsInScan 21 t 55201.000000 t_start 55191.000000 t_end 55201.000000 TEST 2: recsInScan 21 n 10 minRecsInDwell 10 ndwells_out 1 ndwells 4 TEST 3: just wrote dwell 1 TEST 1: recsInScan 22 t 55202.000000 t_start 55201.000000 t_end 55211.000000 TEST 1: recsInScan 23 t 55203.000000 t_start 55201.000000 t_end 55211.000000 TEST 1: recsInScan 24 t 55204.000000 t_start 55201.000000 t_end 55211.000000 TEST 1: recsInScan 25 t 55205.000000 t_start 55201.000000 t_end 55211.000000 TEST 1: recsInScan 26 t 55206.000000 t_start 55201.000000 t_end 55211.000000 TEST 1: recsInScan 27 t 55207.000000 t_start 55201.000000 t_end 55211.000000 TEST 1: recsInScan 28 t 55208.000000 t_start 55201.000000 t_end 55211.000000 TEST 1: recsInScan 29 t 55209.000000 t_start 55201.000000 t_end 55211.000000 TEST 1: recsInScan 30 t 55210.000000 t_start 55201.000000 t_end 55211.000000 TEST 1: recsInScan 31 t 55211.000000 t_start 55201.000000 t_end 55211.000000 TEST 2: recsInScan 31 n 10 minRecsInDwell 10 ndwells_out 2 ndwells 6 TEST 3: just wrote dwell 2 TEST 1: recsInScan 32 t 55212.000000 t_start 55211.000000 t_end 55221.000000 TEST 1: recsInScan 33 t 55213.000000 t_start 55211.000000 t_end 55221.000000 TEST 1: recsInScan 34 t 55214.000000 t_start 55211.000000 t_end 55221.000000 TEST 1: recsInScan 35 t 55215.000000 t_start 55211.000000 t_end 55221.000000 TEST 1: recsInScan 36 t 55216.000000 t_start 55211.000000 t_end 55221.000000 TEST 1: recsInScan 37 t 55217.000000 t_start 55211.000000 t_end 55221.000000 TEST 1: recsInScan 38 t 55218.000000 t_start 55211.000000 t_end 55221.000000 TEST 1: recsInScan 39 t 55219.000000 t_start 55211.000000 t_end 55221.000000 TEST 1: recsInScan 40 t 55220.000000 t_start 55211.000000 t_end 55221.000000 TEST 1: recsInScan 41 t 55221.000000 t_start 55211.000000 t_end 55221.000000 TEST 2: recsInScan 41 n 10 minRecsInDwell 10 ndwells_out 3 ndwells 8 TEST 3: just wrote dwell 3 TEST 1: recsInScan 42 t 55222.000000 t_start 55221.000000 t_end 55231.000000 TEST 1: recsInScan 43 t 55223.000000 t_start 55221.000000 t_end 55231.000000 TEST 1: recsInScan 44 t 55224.000000 t_start 55221.000000 t_end 55231.000000 TEST 1: recsInScan 45 t 55225.000000 t_start 55221.000000 t_end 55231.000000 Wrote records for 9 dwells in scan 200900018 (last 5 are dummy records) Not sure what all the TEST statements mean...haven't seen those before. IDL> @red5000.jan09.pro Successfully opened file nereus.jan09.cw_5000.azel Switching from dwell = 5.00000 s to 10.0000 s Switching from lambda = 0.1259632 m to 0.1260000 m Successfully opened file nereus.jan09.cw_5000.p1 block# nseq aveback sdev rmsc tau 0 1 8.1880e+08 0.000 0.3162 10.0 1 1 8.2559e+08 0.000 0.3162 10.0 2 1 8.0382e+08 0.000 0.3162 10.0 3 1 8.0184e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 7.12111e-05 Peak = 81085513728.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.9654e+08 0.000 0.3162 10.0 1 1 8.0986e+08 0.000 0.3162 10.0 2 1 8.0590e+08 0.000 0.3162 10.0 3 1 7.9858e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.94511e-05 Peak = 55517446144.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.9967e+08 0.000 0.3162 10.0 1 1 7.9284e+08 0.000 0.3162 10.0 2 1 8.0263e+08 0.000 0.3162 10.0 3 1 8.0645e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.78630e-05 Peak = 78964195328.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.9974e+08 0.000 0.3162 10.0 1 1 7.9289e+08 0.000 0.3162 10.0 2 1 7.9126e+08 0.000 0.3162 10.0 3 1 7.9282e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.63909e-05 Peak = 65192087552.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.9404e+08 0.000 0.3162 10.0 1 1 8.0314e+08 0.000 0.3162 10.0 2 1 7.8575e+08 0.000 0.3162 10.0 3 1 7.8456e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.51408e-05 Peak = 91912208384.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.9675e+08 0.000 0.3162 10.0 1 1 7.8589e+08 0.000 0.3162 10.0 2 1 7.8609e+08 0.000 0.3162 10.0 3 1 7.8361e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.40483e-05 Peak = 75375902720.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.8762e+08 0.000 0.3162 10.0 1 1 7.7576e+08 0.000 0.3162 10.0 2 1 7.8135e+08 0.000 0.3162 10.0 3 1 7.6334e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.16991e-05 Peak = 57466081280.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.8315e+08 0.000 0.3162 10.0 1 1 7.8933e+08 0.000 0.3162 10.0 2 1 7.7762e+08 0.000 0.3162 10.0 3 1 7.6742e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.11540e-05 Peak = 75947409408.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.7040e+08 0.000 0.3162 10.0 1 1 7.6779e+08 0.000 0.3162 10.0 2 1 7.6197e+08 0.000 0.3162 10.0 3 1 7.6100e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.06840e-05 Peak = 45250789376.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.6797e+08 0.000 0.3162 10.0 1 1 7.6252e+08 0.000 0.3162 10.0 2 1 7.6613e+08 0.000 0.3162 10.0 3 1 7.5858e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.03811e-05 Peak = 48101834752.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.6541e+08 0.000 0.3162 10.0 1 1 7.6384e+08 0.000 0.3162 10.0 2 1 7.5859e+08 0.000 0.3162 10.0 3 1 7.4839e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.01880e-05 Peak = 57553874944.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.5272e+08 0.000 0.3162 10.0 1 1 7.6186e+08 0.000 0.3162 10.0 2 1 7.5624e+08 0.000 0.3162 10.0 3 1 7.6458e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.00478e-05 Peak = 43272687616.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.8071e+08 0.000 0.3162 10.0 1 1 7.4477e+08 0.000 0.3162 10.0 2 1 7.6309e+08 0.000 0.3162 10.0 3 1 7.7296e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.00476e-05 Peak = 134368706560.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.6579e+08 0.000 0.3162 10.0 1 1 7.6004e+08 0.000 0.3162 10.0 2 1 7.5393e+08 0.000 0.3162 10.0 3 1 7.6403e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.01317e-05 Peak = 85305843712.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.4745e+08 0.000 0.3162 10.0 1 1 7.5041e+08 0.000 0.3162 10.0 2 1 7.5275e+08 0.000 0.3162 10.0 3 1 7.5514e+08 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.02407e-05 Peak = 48632770560.000000 at bin #2700 Setting OC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Successfully opened file nereus.jan09.cw_5000.p2 block# nseq aveback sdev rmsc tau 0 1 1.2696e+09 0.000 0.3162 10.0 1 1 1.2711e+09 0.000 0.3162 10.0 2 1 1.2881e+09 0.000 0.3162 10.0 3 1 1.2721e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 6.57643e-05 Peak = 75695603712.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4001e+09 0.000 0.3162 10.0 1 1 1.4113e+09 0.000 0.3162 10.0 2 1 1.4127e+09 0.000 0.3162 10.0 3 1 1.4101e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 6.40738e-05 Peak = 54121054208.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4013e+09 0.000 0.3162 10.0 1 1 1.4170e+09 0.000 0.3162 10.0 2 1 1.4077e+09 0.000 0.3162 10.0 3 1 1.4071e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 6.25580e-05 Peak = 67521290240.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.3748e+09 0.000 0.3162 10.0 1 1 1.4638e+09 0.000 0.3162 10.0 2 1 1.4594e+09 0.000 0.3162 10.0 3 1 1.4463e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 6.11637e-05 Peak = 72078991360.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4597e+09 0.000 0.3162 10.0 1 1 1.4481e+09 0.000 0.3162 10.0 2 1 1.4329e+09 0.000 0.3162 10.0 3 1 1.4468e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.99833e-05 Peak = 154335297536.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4435e+09 0.000 0.3162 10.0 1 1 1.4355e+09 0.000 0.3162 10.0 2 1 1.4575e+09 0.000 0.3162 10.0 3 1 1.4522e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.89591e-05 Peak = 104088543232.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4869e+09 0.000 0.3162 10.0 1 1 1.5108e+09 0.000 0.3162 10.0 2 1 1.4857e+09 0.000 0.3162 10.0 3 1 1.4861e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.67765e-05 Peak = 134768672768.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4852e+09 0.000 0.3162 10.0 1 1 1.4833e+09 0.000 0.3162 10.0 2 1 1.4980e+09 0.000 0.3162 10.0 3 1 1.5014e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.62755e-05 Peak = 143164260352.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4917e+09 0.000 0.3162 10.0 1 1 1.5053e+09 0.000 0.3162 10.0 2 1 1.4902e+09 0.000 0.3162 10.0 3 1 1.4839e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.58476e-05 Peak = 167839858688.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4611e+09 0.000 0.3162 10.0 1 1 1.4951e+09 0.000 0.3162 10.0 2 1 1.4794e+09 0.000 0.3162 10.0 3 1 1.4761e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.55744e-05 Peak = 74937810944.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4787e+09 0.000 0.3162 10.0 1 1 1.4475e+09 0.000 0.3162 10.0 2 1 1.4703e+09 0.000 0.3162 10.0 3 1 1.4579e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.54042e-05 Peak = 91275337728.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4650e+09 0.000 0.3162 10.0 1 1 1.4709e+09 0.000 0.3162 10.0 2 1 1.4569e+09 0.000 0.3162 10.0 3 1 1.4712e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.52825e-05 Peak = 134186196992.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4502e+09 0.000 0.3162 10.0 1 1 1.4533e+09 0.000 0.3162 10.0 2 1 1.4438e+09 0.000 0.3162 10.0 3 1 1.4578e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.52901e-05 Peak = 127961776128.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4621e+09 0.000 0.3162 10.0 1 1 1.4536e+09 0.000 0.3162 10.0 2 1 1.4460e+09 0.000 0.3162 10.0 3 1 1.4678e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.53748e-05 Peak = 97455611904.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4290e+09 0.000 0.3162 10.0 1 1 1.4504e+09 0.000 0.3162 10.0 2 1 1.4368e+09 0.000 0.3162 10.0 3 1 1.4738e+09 0.000 0.3162 10.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.54831e-05 Peak = 132910931968.000000 at bin #2700 Setting SC signal limits to frequency bins 2698-2702 ( -2.50 Hz to 2.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Added 15 OC/SC pairs to the stack, which now contains 15 spectra Loaded pair #1 (stack #1) Vignetting pair #1 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #2 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #3 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #4 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #5 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #6 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #7 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #8 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #9 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #10 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #11 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #12 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #13 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #14 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #15 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Channel 1 fit coefficients (795 points) = 1.643141e+09 27730.41 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 2.619697e+09 7958.024 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.460 Channel 2: measured/calculated noise = 1.354 Added pair #16 to the pair stack Channel 1 fit coefficients (795 points) = 1.656802e+09 99398.16 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 2.883627e+09 -30574.52 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.416 Channel 2: measured/calculated noise = 1.407 Added pair #17 to the pair stack Channel 1 fit coefficients (795 points) = 1.639844e+09 -30555.87 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 2.886770e+09 -199160.5 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.442 Channel 2: measured/calculated noise = 1.421 Added pair #18 to the pair stack Channel 1 fit coefficients (795 points) = 1.633061e+09 -1969.691 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 2.965366e+09 -30453.01 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.433 Channel 2: measured/calculated noise = 1.474 Added pair #19 to the pair stack Channel 1 fit coefficients (795 points) = 1.616234e+09 38457.70 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 2.969599e+09 -29858.14 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.440 Channel 2: measured/calculated noise = 1.463 Added pair #20 to the pair stack Channel 1 fit coefficients (795 points) = 1.597265e+09 -40819.30 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 2.947031e+09 -194658.5 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.431 Channel 2: measured/calculated noise = 1.400 Added pair #21 to the pair stack Channel 1 fit coefficients (795 points) = 1.585042e+09 -39145.03 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 3.041879e+09 -3864.090 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.438 Channel 2: measured/calculated noise = 1.343 Added pair #22 to the pair stack Channel 1 fit coefficients (795 points) = 1.587985e+09 47673.68 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 3.032363e+09 45809.95 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.424 Channel 2: measured/calculated noise = 1.365 Added pair #23 to the pair stack Channel 1 fit coefficients (795 points) = 1.580147e+09 -62840.20 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 3.054867e+09 -90968.15 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.434 Channel 2: measured/calculated noise = 1.471 Added pair #24 to the pair stack Channel 1 fit coefficients (795 points) = 1.568624e+09 -72475.77 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 3.030544e+09 -55939.97 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.444 Channel 2: measured/calculated noise = 1.464 Added pair #25 to the pair stack Channel 1 fit coefficients (795 points) = 1.538364e+09 89064.73 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 2.956610e+09 81652.24 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.488 Channel 2: measured/calculated noise = 1.431 Added pair #26 to the pair stack Channel 1 fit coefficients (795 points) = 1.536810e+09 -12577.67 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 2.969462e+09 50813.61 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.394 Channel 2: measured/calculated noise = 1.423 Added pair #27 to the pair stack Channel 1 fit coefficients (795 points) = 1.547541e+09 -11263.55 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 2.919538e+09 -62283.59 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.464 Channel 2: measured/calculated noise = 1.408 Added pair #28 to the pair stack Channel 1 fit coefficients (795 points) = 1.551293e+09 -61160.61 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 2.968237e+09 -33771.76 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.392 Channel 2: measured/calculated noise = 1.419 Added pair #29 to the pair stack Channel 1 fit coefficients (795 points) = 1.523878e+09 -53232.50 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (795 points) = 2.917156e+09 20719.44 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.420 Channel 2: measured/calculated noise = 1.386 Added pair #30 to the pair stack Deleted 15 pairs from the stack: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Stack now contains 15 pairs Wrote 1 rdf frame, containing 15 OC spectra, to file nereus.jan09.runs.1Hz.rdf Wrote 1 rdf frame, containing 15 SC spectra, to file nereus.jan09.runs.1Hz.rdf Sum #1 (15 pairs) is stack pair #16 (group #101) Channel 1 fit coefficients (996 points) = -0.03198069 9.232617e-05 Channel 1 baseline subtracted Channel 2 fit coefficients (996 points) = -0.01873838 6.027042e-05 Channel 2 baseline subtracted Wrote 1 rdf frame, containing 1 OC spectrum, to file nereus.jan09.sum.1Hz.rdf Wrote 1 rdf frame, containing 1 SC spectrum, to file nereus.jan09.sum.1Hz.rdf IDL> m/c values don't look so great... --> It turns out that the dwells in the drvcw and *azel_in file were mismatched. Fix and try again... remote:/share/radar1/lbenner/nereus < 6 > source nereus.scr Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 6 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 7 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 8 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 9 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 10 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 11 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 12 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 13 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 14 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 15 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 6 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 7 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 8 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 9 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 10 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 11 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 12 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 13 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 14 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 45 xforms done 9 ipps each of length 5000 words output Done with scan 15 Target name (spaces OK): target diameter (km): target rotation period (hr): Define rotation phase by giving a phase and the corresponding Julian date: sample rate (Hz): wavelength (m): nhops, first hop: hop dwell (sec): TX offset (Hz): freq step, first freq offset (Hz): First, last scan to process (numbered from 1): Scan 1 TX power (kW): Scan 2 TX power (kW): Scan 3 TX power (kW): Scan 4 TX power (kW): Scan 5 TX power (kW): Scan 6 TX power (kW): Scan 7 TX power (kW): Scan 8 TX power (kW): Scan 9 TX power (kW): Scan 10 TX power (kW): Scan 11 TX power (kW): Scan 12 TX power (kW): Scan 13 TX power (kW): Scan 14 TX power (kW): Scan 15 TX power (kW): Specify Tsys function here (0) or use Aug. 2000 fit, scaled for other dates (1)? number of intervals to avoid: Reading scan 200900004 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900004 Reading scan 200900005 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900005 Reading scan 200900006 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900006 Reading scan 200900007 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900007 Reading scan 200900008 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900008 Reading scan 200900009 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900009 Reading scan 200900010 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900010 Reading scan 200900011 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900011 Reading scan 200900012 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900012 Reading scan 200900013 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900013 Reading scan 200900014 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900014 Reading scan 200900015 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900015 Reading scan 200900016 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900016 Reading scan 200900017 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900017 Reading scan 200900018 (record length = 792 + 40000) Wrote records for 9 dwells in scan 200900018 remote:/share/radar1/lbenner/nereus < 7 > IDL> @red5000.jan09.pro Successfully opened file nereus.jan09.cw_5000.azel Switching from lambda = 0.1259632 m to 0.1260000 m Successfully opened file nereus.jan09.cw_5000.p1 block# nseq aveback sdev rmsc tau 0 1 8.1880e+08 0.000 0.4472 5.0 1 1 8.2559e+08 0.000 0.4472 5.0 2 1 8.0382e+08 0.000 0.4472 5.0 3 1 8.0184e+08 0.000 0.4472 5.0 4 1 8.0950e+08 0.000 0.4472 5.0 5 1 8.0186e+08 0.000 0.4472 5.0 6 1 8.0076e+08 0.000 0.4472 5.0 7 1 7.9935e+08 0.000 0.4472 5.0 8 1 8.0349e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.70958e-05 Peak = 88353456128.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.9654e+08 0.000 0.4472 5.0 1 1 8.0986e+08 0.000 0.4472 5.0 2 1 8.0590e+08 0.000 0.4472 5.0 3 1 7.9858e+08 0.000 0.4472 5.0 4 1 8.0632e+08 0.000 0.4472 5.0 5 1 7.9937e+08 0.000 0.4472 5.0 6 1 8.0978e+08 0.000 0.4472 5.0 7 1 8.1428e+08 0.000 0.4472 5.0 8 1 8.0551e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.54398e-05 Peak = 96455335936.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.9967e+08 0.000 0.4472 5.0 1 1 7.9284e+08 0.000 0.4472 5.0 2 1 8.0263e+08 0.000 0.4472 5.0 3 1 8.0645e+08 0.000 0.4472 5.0 4 1 7.9598e+08 0.000 0.4472 5.0 5 1 7.9685e+08 0.000 0.4472 5.0 6 1 7.9442e+08 0.000 0.4472 5.0 7 1 7.9787e+08 0.000 0.4472 5.0 8 1 7.8992e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.39472e-05 Peak = 104012939264.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.9974e+08 0.000 0.4472 5.0 1 1 7.9289e+08 0.000 0.4472 5.0 2 1 7.9126e+08 0.000 0.4472 5.0 3 1 7.9282e+08 0.000 0.4472 5.0 4 1 7.9225e+08 0.000 0.4472 5.0 5 1 7.9631e+08 0.000 0.4472 5.0 6 1 7.9225e+08 0.000 0.4472 5.0 7 1 8.0156e+08 0.000 0.4472 5.0 8 1 7.9829e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.25636e-05 Peak = 84006322176.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.9404e+08 0.000 0.4472 5.0 1 1 8.0314e+08 0.000 0.4472 5.0 2 1 7.8575e+08 0.000 0.4472 5.0 3 1 7.8456e+08 0.000 0.4472 5.0 4 1 7.8424e+08 0.000 0.4472 5.0 5 1 7.9247e+08 0.000 0.4472 5.0 6 1 7.9026e+08 0.000 0.4472 5.0 7 1 7.9995e+08 0.000 0.4472 5.0 8 1 7.8791e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.13882e-05 Peak = 117221736448.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.9675e+08 0.000 0.4472 5.0 1 1 7.8589e+08 0.000 0.4472 5.0 2 1 7.8609e+08 0.000 0.4472 5.0 3 1 7.8361e+08 0.000 0.4472 5.0 4 1 7.8527e+08 0.000 0.4472 5.0 5 1 7.8370e+08 0.000 0.4472 5.0 6 1 7.8466e+08 0.000 0.4472 5.0 7 1 7.8909e+08 0.000 0.4472 5.0 8 1 7.8677e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 6.03625e-05 Peak = 115137142784.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.8762e+08 0.000 0.4472 5.0 1 1 7.7576e+08 0.000 0.4472 5.0 2 1 7.8135e+08 0.000 0.4472 5.0 3 1 7.6334e+08 0.000 0.4472 5.0 4 1 7.8506e+08 0.000 0.4472 5.0 5 1 7.7580e+08 0.000 0.4472 5.0 6 1 7.8015e+08 0.000 0.4472 5.0 7 1 7.7545e+08 0.000 0.4472 5.0 8 1 7.6805e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 5.81566e-05 Peak = 95030001664.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.8315e+08 0.000 0.4472 5.0 1 1 7.8933e+08 0.000 0.4472 5.0 2 1 7.7762e+08 0.000 0.4472 5.0 3 1 7.6742e+08 0.000 0.4472 5.0 4 1 7.7220e+08 0.000 0.4472 5.0 5 1 7.6056e+08 0.000 0.4472 5.0 6 1 7.8452e+08 0.000 0.4472 5.0 7 1 7.7831e+08 0.000 0.4472 5.0 8 1 7.8623e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 5.76455e-05 Peak = 121275064320.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.7040e+08 0.000 0.4472 5.0 1 1 7.6779e+08 0.000 0.4472 5.0 2 1 7.6197e+08 0.000 0.4472 5.0 3 1 7.6100e+08 0.000 0.4472 5.0 4 1 7.6897e+08 0.000 0.4472 5.0 5 1 7.6959e+08 0.000 0.4472 5.0 6 1 7.6744e+08 0.000 0.4472 5.0 7 1 7.7253e+08 0.000 0.4472 5.0 8 1 7.6813e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 5.72050e-05 Peak = 84791558144.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.6797e+08 0.000 0.4472 5.0 1 1 7.6252e+08 0.000 0.4472 5.0 2 1 7.6613e+08 0.000 0.4472 5.0 3 1 7.5858e+08 0.000 0.4472 5.0 4 1 7.7590e+08 0.000 0.4472 5.0 5 1 7.8063e+08 0.000 0.4472 5.0 6 1 7.7541e+08 0.000 0.4472 5.0 7 1 7.5800e+08 0.000 0.4472 5.0 8 1 7.6081e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 5.69223e-05 Peak = 82222284800.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.6541e+08 0.000 0.4472 5.0 1 1 7.6384e+08 0.000 0.4472 5.0 2 1 7.5859e+08 0.000 0.4472 5.0 3 1 7.4839e+08 0.000 0.4472 5.0 4 1 7.6360e+08 0.000 0.4472 5.0 5 1 7.6152e+08 0.000 0.4472 5.0 6 1 7.5258e+08 0.000 0.4472 5.0 7 1 7.6797e+08 0.000 0.4472 5.0 8 1 7.6987e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 5.67428e-05 Peak = 97023614976.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.5272e+08 0.000 0.4472 5.0 1 1 7.6186e+08 0.000 0.4472 5.0 2 1 7.5624e+08 0.000 0.4472 5.0 3 1 7.6458e+08 0.000 0.4472 5.0 4 1 7.5756e+08 0.000 0.4472 5.0 5 1 7.5169e+08 0.000 0.4472 5.0 6 1 7.6304e+08 0.000 0.4472 5.0 7 1 7.7705e+08 0.000 0.4472 5.0 8 1 7.7003e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 5.66127e-05 Peak = 107037024256.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.8071e+08 0.000 0.4472 5.0 1 1 7.4477e+08 0.000 0.4472 5.0 2 1 7.6309e+08 0.000 0.4472 5.0 3 1 7.7296e+08 0.000 0.4472 5.0 4 1 7.5998e+08 0.000 0.4472 5.0 5 1 7.5514e+08 0.000 0.4472 5.0 6 1 7.5746e+08 0.000 0.4472 5.0 7 1 7.6219e+08 0.000 0.4472 5.0 8 1 7.4909e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 5.66150e-05 Peak = 139799166976.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.6579e+08 0.000 0.4472 5.0 1 1 7.6004e+08 0.000 0.4472 5.0 2 1 7.5393e+08 0.000 0.4472 5.0 3 1 7.6403e+08 0.000 0.4472 5.0 4 1 7.5047e+08 0.000 0.4472 5.0 5 1 7.5546e+08 0.000 0.4472 5.0 6 1 7.5797e+08 0.000 0.4472 5.0 7 1 7.6300e+08 0.000 0.4472 5.0 8 1 7.4356e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 5.66955e-05 Peak = 99060228096.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.4745e+08 0.000 0.4472 5.0 1 1 7.5041e+08 0.000 0.4472 5.0 2 1 7.5275e+08 0.000 0.4472 5.0 3 1 7.5514e+08 0.000 0.4472 5.0 4 1 7.5865e+08 0.000 0.4472 5.0 5 1 7.4025e+08 0.000 0.4472 5.0 6 1 7.5543e+08 0.000 0.4472 5.0 7 1 7.5870e+08 0.000 0.4472 5.0 8 1 7.5949e+08 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p1 sdev = 5.68000e-05 Peak = 84813332480.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Successfully opened file nereus.jan09.cw_5000.p2 block# nseq aveback sdev rmsc tau 0 1 1.2696e+09 0.000 0.4472 5.0 1 1 1.2711e+09 0.000 0.4472 5.0 2 1 1.2881e+09 0.000 0.4472 5.0 3 1 1.2721e+09 0.000 0.4472 5.0 4 1 1.3031e+09 0.000 0.4472 5.0 5 1 1.2729e+09 0.000 0.4472 5.0 6 1 1.2924e+09 0.000 0.4472 5.0 7 1 1.2803e+09 0.000 0.4472 5.0 8 1 1.2737e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 6.19624e-05 Peak = 135206297600.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4001e+09 0.000 0.4472 5.0 1 1 1.4113e+09 0.000 0.4472 5.0 2 1 1.4127e+09 0.000 0.4472 5.0 3 1 1.4101e+09 0.000 0.4472 5.0 4 1 1.4301e+09 0.000 0.4472 5.0 5 1 1.4384e+09 0.000 0.4472 5.0 6 1 1.4229e+09 0.000 0.4472 5.0 7 1 1.4136e+09 0.000 0.4472 5.0 8 1 1.4075e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 6.03727e-05 Peak = 102271950848.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4013e+09 0.000 0.4472 5.0 1 1 1.4170e+09 0.000 0.4472 5.0 2 1 1.4077e+09 0.000 0.4472 5.0 3 1 1.4071e+09 0.000 0.4472 5.0 4 1 1.4060e+09 0.000 0.4472 5.0 5 1 1.4276e+09 0.000 0.4472 5.0 6 1 1.4073e+09 0.000 0.4472 5.0 7 1 1.4399e+09 0.000 0.4472 5.0 8 1 1.4164e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.89475e-05 Peak = 135632396288.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.3748e+09 0.000 0.4472 5.0 1 1 1.4638e+09 0.000 0.4472 5.0 2 1 1.4594e+09 0.000 0.4472 5.0 3 1 1.4463e+09 0.000 0.4472 5.0 4 1 1.4766e+09 0.000 0.4472 5.0 5 1 1.4691e+09 0.000 0.4472 5.0 6 1 1.4702e+09 0.000 0.4472 5.0 7 1 1.4600e+09 0.000 0.4472 5.0 8 1 1.4715e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.76369e-05 Peak = 142079819776.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4597e+09 0.000 0.4472 5.0 1 1 1.4481e+09 0.000 0.4472 5.0 2 1 1.4329e+09 0.000 0.4472 5.0 3 1 1.4468e+09 0.000 0.4472 5.0 4 1 1.4591e+09 0.000 0.4472 5.0 5 1 1.4480e+09 0.000 0.4472 5.0 6 1 1.4603e+09 0.000 0.4472 5.0 7 1 1.4628e+09 0.000 0.4472 5.0 8 1 1.4448e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.65279e-05 Peak = 174708899840.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4435e+09 0.000 0.4472 5.0 1 1 1.4355e+09 0.000 0.4472 5.0 2 1 1.4575e+09 0.000 0.4472 5.0 3 1 1.4522e+09 0.000 0.4472 5.0 4 1 1.4554e+09 0.000 0.4472 5.0 5 1 1.4540e+09 0.000 0.4472 5.0 6 1 1.4425e+09 0.000 0.4472 5.0 7 1 1.4329e+09 0.000 0.4472 5.0 8 1 1.4431e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.55653e-05 Peak = 129411727360.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4869e+09 0.000 0.4472 5.0 1 1 1.5108e+09 0.000 0.4472 5.0 2 1 1.4857e+09 0.000 0.4472 5.0 3 1 1.4861e+09 0.000 0.4472 5.0 4 1 1.5155e+09 0.000 0.4472 5.0 5 1 1.5078e+09 0.000 0.4472 5.0 6 1 1.5088e+09 0.000 0.4472 5.0 7 1 1.4927e+09 0.000 0.4472 5.0 8 1 1.4896e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.35170e-05 Peak = 182330540032.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4852e+09 0.000 0.4472 5.0 1 1 1.4833e+09 0.000 0.4472 5.0 2 1 1.4980e+09 0.000 0.4472 5.0 3 1 1.5014e+09 0.000 0.4472 5.0 4 1 1.4865e+09 0.000 0.4472 5.0 5 1 1.4921e+09 0.000 0.4472 5.0 6 1 1.4858e+09 0.000 0.4472 5.0 7 1 1.4787e+09 0.000 0.4472 5.0 8 1 1.5077e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.30475e-05 Peak = 162905276416.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4917e+09 0.000 0.4472 5.0 1 1 1.5053e+09 0.000 0.4472 5.0 2 1 1.4902e+09 0.000 0.4472 5.0 3 1 1.4839e+09 0.000 0.4472 5.0 4 1 1.4954e+09 0.000 0.4472 5.0 5 1 1.4798e+09 0.000 0.4472 5.0 6 1 1.4951e+09 0.000 0.4472 5.0 7 1 1.5000e+09 0.000 0.4472 5.0 8 1 1.4765e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.26467e-05 Peak = 194633973760.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4611e+09 0.000 0.4472 5.0 1 1 1.4951e+09 0.000 0.4472 5.0 2 1 1.4794e+09 0.000 0.4472 5.0 3 1 1.4761e+09 0.000 0.4472 5.0 4 1 1.4578e+09 0.000 0.4472 5.0 5 1 1.4650e+09 0.000 0.4472 5.0 6 1 1.4875e+09 0.000 0.4472 5.0 7 1 1.4784e+09 0.000 0.4472 5.0 8 1 1.4633e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.23918e-05 Peak = 100598784000.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4787e+09 0.000 0.4472 5.0 1 1 1.4475e+09 0.000 0.4472 5.0 2 1 1.4703e+09 0.000 0.4472 5.0 3 1 1.4579e+09 0.000 0.4472 5.0 4 1 1.4806e+09 0.000 0.4472 5.0 5 1 1.4830e+09 0.000 0.4472 5.0 6 1 1.4732e+09 0.000 0.4472 5.0 7 1 1.4910e+09 0.000 0.4472 5.0 8 1 1.4666e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.22329e-05 Peak = 130594357248.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4650e+09 0.000 0.4472 5.0 1 1 1.4709e+09 0.000 0.4472 5.0 2 1 1.4569e+09 0.000 0.4472 5.0 3 1 1.4712e+09 0.000 0.4472 5.0 4 1 1.4512e+09 0.000 0.4472 5.0 5 1 1.4719e+09 0.000 0.4472 5.0 6 1 1.4859e+09 0.000 0.4472 5.0 7 1 1.4650e+09 0.000 0.4472 5.0 8 1 1.4633e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.21204e-05 Peak = 205539147776.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4502e+09 0.000 0.4472 5.0 1 1 1.4533e+09 0.000 0.4472 5.0 2 1 1.4438e+09 0.000 0.4472 5.0 3 1 1.4578e+09 0.000 0.4472 5.0 4 1 1.4510e+09 0.000 0.4472 5.0 5 1 1.4706e+09 0.000 0.4472 5.0 6 1 1.4488e+09 0.000 0.4472 5.0 7 1 1.4582e+09 0.000 0.4472 5.0 8 1 1.4783e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.21293e-05 Peak = 142031536128.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4621e+09 0.000 0.4472 5.0 1 1 1.4536e+09 0.000 0.4472 5.0 2 1 1.4460e+09 0.000 0.4472 5.0 3 1 1.4678e+09 0.000 0.4472 5.0 4 1 1.4568e+09 0.000 0.4472 5.0 5 1 1.4773e+09 0.000 0.4472 5.0 6 1 1.4570e+09 0.000 0.4472 5.0 7 1 1.4672e+09 0.000 0.4472 5.0 8 1 1.4468e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.22114e-05 Peak = 194862792704.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.4290e+09 0.000 0.4472 5.0 1 1 1.4504e+09 0.000 0.4472 5.0 2 1 1.4368e+09 0.000 0.4472 5.0 3 1 1.4738e+09 0.000 0.4472 5.0 4 1 1.4563e+09 0.000 0.4472 5.0 5 1 1.4695e+09 0.000 0.4472 5.0 6 1 1.4726e+09 0.000 0.4472 5.0 7 1 1.4444e+09 0.000 0.4472 5.0 8 1 1.4598e+09 0.000 0.4472 5.0 Input 9 spectra from nereus.jan09.cw_5000.p2 sdev = 5.23136e-05 Peak = 196876222464.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Added 15 OC/SC pairs to the stack, which now contains 15 spectra Loaded pair #1 (stack #1) Vignetting pair #1 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #2 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #3 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #4 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #5 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #6 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #7 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #8 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #9 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #10 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #11 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #12 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #13 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #14 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #15 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Channel 1 fit coefficients (783 points) = 2.468601e+09 13802.64 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 3.933817e+09 45080.92 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.998 Channel 2: measured/calculated noise = 0.993 Added pair #16 to the pair stack Channel 1 fit coefficients (783 points) = 2.457039e+09 54111.98 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.325142e+09 -13739.54 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.981 Channel 2: measured/calculated noise = 1.007 Added pair #17 to the pair stack Channel 1 fit coefficients (783 points) = 2.429534e+09 -46861.47 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.320245e+09 -88356.51 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.993 Channel 2: measured/calculated noise = 1.008 Added pair #18 to the pair stack Channel 1 fit coefficients (783 points) = 2.434853e+09 -44746.43 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.441686e+09 6816.358 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.990 Channel 2: measured/calculated noise = 0.990 Added pair #19 to the pair stack Channel 1 fit coefficients (783 points) = 2.408154e+09 15856.15 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.402394e+09 -30403.26 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.050 Channel 2: measured/calculated noise = 1.005 Added pair #20 to the pair stack Channel 1 fit coefficients (783 points) = 2.393985e+09 -55213.67 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.393798e+09 -235775.5 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.010 Channel 2: measured/calculated noise = 0.960 Added pair #21 to the pair stack Channel 1 fit coefficients (783 points) = 2.379820e+09 14271.42 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.595752e+09 -4055.891 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.025 Channel 2: measured/calculated noise = 0.977 Added pair #22 to the pair stack Channel 1 fit coefficients (783 points) = 2.358958e+09 39946.52 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.555555e+09 91226.77 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.013 Channel 2: measured/calculated noise = 0.947 Added pair #23 to the pair stack Channel 1 fit coefficients (783 points) = 2.373212e+09 2248.040 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.551351e+09 16279.98 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.028 Channel 2: measured/calculated noise = 1.007 Added pair #24 to the pair stack Channel 1 fit coefficients (783 points) = 2.353359e+09 -109882.7 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.522258e+09 -66844.90 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.032 Channel 2: measured/calculated noise = 1.007 Added pair #25 to the pair stack Channel 1 fit coefficients (783 points) = 2.307458e+09 30257.61 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.487507e+09 -30428.37 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.044 Channel 2: measured/calculated noise = 1.012 Added pair #26 to the pair stack Channel 1 fit coefficients (783 points) = 2.307531e+09 12365.33 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.466011e+09 50294.75 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.945 Channel 2: measured/calculated noise = 1.031 Added pair #27 to the pair stack Channel 1 fit coefficients (783 points) = 2.315376e+09 -83663.50 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.418660e+09 -84248.30 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.003 Channel 2: measured/calculated noise = 0.966 Added pair #28 to the pair stack Channel 1 fit coefficients (783 points) = 2.314376e+09 -28484.70 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.429960e+09 -61859.94 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.002 Channel 2: measured/calculated noise = 0.960 Added pair #29 to the pair stack Channel 1 fit coefficients (783 points) = 2.286247e+09 -55837.21 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 4.395354e+09 53173.17 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.009 Channel 2: measured/calculated noise = 0.993 Added pair #30 to the pair stack Deleted 15 pairs from the stack: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Stack now contains 15 pairs Wrote 1 rdf frame, containing 15 OC spectra, to file nereus.jan09.runs.1Hz.rdf Wrote 1 rdf frame, containing 15 SC spectra, to file nereus.jan09.runs.1Hz.rdf Sum #1 (15 pairs) is stack pair #16 (group #101) Channel 1 fit coefficients (984 points) = -0.002861209 1.974059e-05 Channel 1 baseline subtracted Channel 2 fit coefficients (984 points) = -0.003218505 1.231996e-05 Channel 2 baseline subtracted Wrote 1 rdf frame, containing 1 OC spectrum, to file nereus.jan09.sum.1Hz.rdf Wrote 1 rdf frame, containing 1 SC spectrum, to file nereus.jan09.sum.1Hz.rdf IDL> --> This time the m/c noise values look excellent: nearly unity. ...and the noise statistics are fine. This worked. - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 2002 January 10 --------------- 5 runs, solution 26, FFT = 5000 remote:/share/radar1/lbenner/nereus < 8 > source nereus.scr Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 43 xforms done Data file:860000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 8 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 43 xforms done Data file:860000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 8 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 43 xforms done Data file:860000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 8 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 43 xforms done Data file:860000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 8 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 43 xforms done Data file:860000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 8 ipps each of length 5000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 43 xforms done Data file:860000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 8 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 43 xforms done Data file:860000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 8 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 43 xforms done Data file:860000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 8 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 43 xforms done Data file:860000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 8 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 43 xforms done Data file:860000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 8 ipps each of length 5000 words output Done with scan 5 Target name (spaces OK): target diameter (km): target rotation period (hr): Define rotation phase by giving a phase and the corresponding Julian date: sample rate (Hz): wavelength (m): nhops, first hop: hop dwell (sec): TX offset (Hz): freq step, first freq offset (Hz): First, last scan to process (numbered from 1): Scan 1 TX power (kW): Scan 2 TX power (kW): Scan 3 TX power (kW): Scan 4 TX power (kW): Scan 5 TX power (kW): Specify Tsys function here (0) or use Aug. 2000 fit, scaled for other dates (1)? number of intervals to avoid: Reading scan 201000067 (record length = 792 + 40000) Wrote records for 8 dwells in scan 201000067 Reading scan 201000068 (record length = 792 + 40000) Wrote records for 8 dwells in scan 201000068 Reading scan 201000069 (record length = 792 + 40000) Wrote records for 8 dwells in scan 201000069 Reading scan 201000070 (record length = 792 + 40000) Wrote records for 8 dwells in scan 201000070 Reading scan 201000071 (record length = 792 + 40000) Wrote records for 8 dwells in scan 201000071 remote:/share/radar1/lbenner/nereus < 9 > IDL> @red5000.jan10.pro Successfully opened file nereus.jan10.cw_5000.azel Switching from lambda = 0.1259632 m to 0.1260000 m Successfully opened file nereus.jan10.cw_5000.p1 block# nseq aveback sdev rmsc tau 0 1 7.6150e+08 0.000 0.4472 5.0 1 1 7.7751e+08 0.000 0.4472 5.0 2 1 7.7873e+08 0.000 0.4472 5.0 3 1 7.7932e+08 0.000 0.4472 5.0 4 1 7.7892e+08 0.000 0.4472 5.0 5 1 7.7820e+08 0.000 0.4472 5.0 6 1 7.8311e+08 0.000 0.4472 5.0 7 1 7.7922e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan10.cw_5000.p1 sdev = 5.57886e-05 Peak = 57651941376.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.8509e+08 0.000 0.4472 5.0 1 1 7.8546e+08 0.000 0.4472 5.0 2 1 7.8777e+08 0.000 0.4472 5.0 3 1 7.9955e+08 0.000 0.4472 5.0 4 1 7.6609e+08 0.000 0.4472 5.0 5 1 7.7546e+08 0.000 0.4472 5.0 6 1 7.7068e+08 0.000 0.4472 5.0 7 1 7.9987e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan10.cw_5000.p1 sdev = 5.48158e-05 Peak = 88635326464.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.7288e+08 0.000 0.4472 5.0 1 1 7.7056e+08 0.000 0.4472 5.0 2 1 7.7208e+08 0.000 0.4472 5.0 3 1 7.8339e+08 0.000 0.4472 5.0 4 1 7.7494e+08 0.000 0.4472 5.0 5 1 7.8583e+08 0.000 0.4472 5.0 6 1 7.7143e+08 0.000 0.4472 5.0 7 1 7.6774e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan10.cw_5000.p1 sdev = 5.39906e-05 Peak = 59742117888.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.6096e+08 0.000 0.4472 5.0 1 1 7.7717e+08 0.000 0.4472 5.0 2 1 7.7850e+08 0.000 0.4472 5.0 3 1 7.7085e+08 0.000 0.4472 5.0 4 1 7.7080e+08 0.000 0.4472 5.0 5 1 7.6966e+08 0.000 0.4472 5.0 6 1 7.6029e+08 0.000 0.4472 5.0 7 1 7.7555e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan10.cw_5000.p1 sdev = 5.32779e-05 Peak = 53749231616.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 7.6726e+08 0.000 0.4472 5.0 1 1 7.7620e+08 0.000 0.4472 5.0 2 1 7.7282e+08 0.000 0.4472 5.0 3 1 7.8989e+08 0.000 0.4472 5.0 4 1 7.7568e+08 0.000 0.4472 5.0 5 1 7.7436e+08 0.000 0.4472 5.0 6 1 7.6822e+08 0.000 0.4472 5.0 7 1 7.6771e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan10.cw_5000.p1 sdev = 5.26667e-05 Peak = 94198964224.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Successfully opened file nereus.jan10.cw_5000.p2 block# nseq aveback sdev rmsc tau 0 1 1.3732e+09 0.000 0.4472 5.0 1 1 1.3668e+09 0.000 0.4472 5.0 2 1 1.3705e+09 0.000 0.4472 5.0 3 1 1.4012e+09 0.000 0.4472 5.0 4 1 1.3670e+09 0.000 0.4472 5.0 5 1 1.3787e+09 0.000 0.4472 5.0 6 1 1.3899e+09 0.000 0.4472 5.0 7 1 1.3750e+09 0.000 0.4472 5.0 Input 8 spectra from nereus.jan10.cw_5000.p2 sdev = 5.14171e-05 Peak = 89843941376.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.3056e+09 0.000 0.4472 5.0 1 1 1.3114e+09 0.000 0.4472 5.0 2 1 1.3101e+09 0.000 0.4472 5.0 3 1 1.2919e+09 0.000 0.4472 5.0 4 1 1.3051e+09 0.000 0.4472 5.0 5 1 1.3115e+09 0.000 0.4472 5.0 6 1 1.3107e+09 0.000 0.4472 5.0 7 1 1.3239e+09 0.000 0.4472 5.0 Input 8 spectra from nereus.jan10.cw_5000.p2 sdev = 5.04947e-05 Peak = 67079307264.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.3685e+09 0.000 0.4472 5.0 1 1 1.3799e+09 0.000 0.4472 5.0 2 1 1.3811e+09 0.000 0.4472 5.0 3 1 1.3894e+09 0.000 0.4472 5.0 4 1 1.4096e+09 0.000 0.4472 5.0 5 1 1.3500e+09 0.000 0.4472 5.0 6 1 1.3812e+09 0.000 0.4472 5.0 7 1 1.3831e+09 0.000 0.4472 5.0 Input 8 spectra from nereus.jan10.cw_5000.p2 sdev = 4.97153e-05 Peak = 147305742336.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.3656e+09 0.000 0.4472 5.0 1 1 1.3671e+09 0.000 0.4472 5.0 2 1 1.3649e+09 0.000 0.4472 5.0 3 1 1.3529e+09 0.000 0.4472 5.0 4 1 1.3707e+09 0.000 0.4472 5.0 5 1 1.3771e+09 0.000 0.4472 5.0 6 1 1.3660e+09 0.000 0.4472 5.0 7 1 1.3808e+09 0.000 0.4472 5.0 Input 8 spectra from nereus.jan10.cw_5000.p2 sdev = 4.90459e-05 Peak = 98447728640.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.3664e+09 0.000 0.4472 5.0 1 1 1.3700e+09 0.000 0.4472 5.0 2 1 1.3500e+09 0.000 0.4472 5.0 3 1 1.3653e+09 0.000 0.4472 5.0 4 1 1.4018e+09 0.000 0.4472 5.0 5 1 1.3772e+09 0.000 0.4472 5.0 6 1 1.3541e+09 0.000 0.4472 5.0 7 1 1.3480e+09 0.000 0.4472 5.0 Input 8 spectra from nereus.jan10.cw_5000.p2 sdev = 4.84734e-05 Peak = 134757646336.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Added 5 OC/SC pairs to the stack, which now contains 5 spectra Loaded pair #1 (stack #1) Vignetting pair #1 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #2 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #3 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #4 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #5 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Channel 1 fit coefficients (783 points) = 2.230152e+09 -16217.30 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 3.979229e+09 144139.6 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.004 Channel 2: measured/calculated noise = 1.002 Added pair #6 to the pair stack Channel 1 fit coefficients (783 points) = 2.236029e+09 -59615.78 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 3.743521e+09 -7095.480 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.030 Channel 2: measured/calculated noise = 0.998 Added pair #7 to the pair stack Channel 1 fit coefficients (783 points) = 2.239662e+09 43306.27 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 3.934736e+09 51616.72 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.005 Channel 2: measured/calculated noise = 0.985 Added pair #8 to the pair stack Channel 1 fit coefficients (783 points) = 2.215419e+09 -28659.01 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 3.904794e+09 94844.00 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.000 Channel 2: measured/calculated noise = 1.015 Added pair #9 to the pair stack Channel 1 fit coefficients (783 points) = 2.219460e+09 20889.54 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 3.889084e+09 5357.372 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.035 Channel 2: measured/calculated noise = 1.042 Added pair #10 to the pair stack Deleted 5 pairs from the stack: 1 2 3 4 5 Stack now contains 5 pairs Wrote 1 rdf frame, containing 5 OC spectra, to file nereus.jan10.runs.1Hz.rdf Wrote 1 rdf frame, containing 5 SC spectra, to file nereus.jan10.runs.1Hz.rdf Sum #1 (5 pairs) is stack pair #6 (group #101) Channel 1 fit coefficients (984 points) = -0.01256684 3.727240e-05 Channel 1 baseline subtracted Channel 2 fit coefficients (984 points) = -0.003904401 4.498602e-06 Channel 2 baseline subtracted Wrote 1 rdf frame, containing 1 OC spectrum, to file nereus.jan10.sum.1Hz.rdf Wrote 1 rdf frame, containing 1 SC spectrum, to file nereus.jan10.sum.1Hz.rdf IDL> - - - - - - - - - - - - - - - - - - - - - 2002 January 11 --------------- 5 runs, solution 26, FFT = 5000 remote:/share/radar1/lbenner/nereus < 5 > source nereus.scr Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 40 xforms done 8 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 40 xforms done 8 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 40 xforms done 8 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 40 xforms done 8 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 40 xforms done 8 ipps each of length 5000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 40 xforms done 8 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 40 xforms done 8 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 40 xforms done 8 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 40 xforms done 8 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 40 xforms done 8 ipps each of length 5000 words output Done with scan 5 Target name (spaces OK): target diameter (km): target rotation period (hr): Define rotation phase by giving a phase and the corresponding Julian date: sample rate (Hz): wavelength (m): nhops, first hop: hop dwell (sec): TX offset (Hz): freq step, first freq offset (Hz): First, last scan to process (numbered from 1): Scan 1 TX power (kW): Scan 2 TX power (kW): Scan 3 TX power (kW): Scan 4 TX power (kW): Scan 5 TX power (kW): Specify Tsys function here (0) or use Aug. 2000 fit, scaled for other dates (1)? number of intervals to avoid: Reading scan 201100050 (record length = 792 + 40000) Wrote records for 8 dwells in scan 201100050 Reading scan 201100051 (record length = 792 + 40000) Wrote records for 8 dwells in scan 201100051 Reading scan 201100052 (record length = 792 + 40000) Wrote records for 8 dwells in scan 201100052 Reading scan 201100053 (record length = 792 + 40000) Wrote records for 8 dwells in scan 201100053 Reading scan 201100054 (record length = 792 + 40000) Wrote records for 8 dwells in scan 201100054 remote:/share/radar1/lbenner/nereus < 6 > IDL> @red5000.jan11.pro Successfully opened file nereus.jan11.cw_5000.azel Switching from lambda = 0.1259632 m to 0.1260000 m Successfully opened file nereus.jan11.cw_5000.p1 block# nseq aveback sdev rmsc tau 0 1 9.4865e+08 0.000 0.4472 5.0 1 1 9.7004e+08 0.000 0.4472 5.0 2 1 9.4671e+08 0.000 0.4472 5.0 3 1 9.3778e+08 0.000 0.4472 5.0 4 1 9.4140e+08 0.000 0.4472 5.0 5 1 9.5607e+08 0.000 0.4472 5.0 6 1 9.4561e+08 0.000 0.4472 5.0 7 1 9.4424e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan11.cw_5000.p1 sdev = 5.88310e-05 Peak = 69482889216.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 9.4362e+08 0.000 0.4472 5.0 1 1 9.5291e+08 0.000 0.4472 5.0 2 1 9.3854e+08 0.000 0.4472 5.0 3 1 9.3546e+08 0.000 0.4472 5.0 4 1 9.3414e+08 0.000 0.4472 5.0 5 1 9.4322e+08 0.000 0.4472 5.0 6 1 9.4068e+08 0.000 0.4472 5.0 7 1 9.5034e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan11.cw_5000.p1 sdev = 5.74658e-05 Peak = 76575055872.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 9.4895e+08 0.000 0.4472 5.0 1 1 9.3233e+08 0.000 0.4472 5.0 2 1 9.3122e+08 0.000 0.4472 5.0 3 1 9.2619e+08 0.000 0.4472 5.0 4 1 9.3861e+08 0.000 0.4472 5.0 5 1 9.2873e+08 0.000 0.4472 5.0 6 1 9.4580e+08 0.000 0.4472 5.0 7 1 9.2622e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan11.cw_5000.p1 sdev = 5.61857e-05 Peak = 88580145152.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 9.2853e+08 0.000 0.4472 5.0 1 1 9.0015e+08 0.000 0.4472 5.0 2 1 9.2894e+08 0.000 0.4472 5.0 3 1 9.3993e+08 0.000 0.4472 5.0 4 1 9.3170e+08 0.000 0.4472 5.0 5 1 9.2345e+08 0.000 0.4472 5.0 6 1 9.2612e+08 0.000 0.4472 5.0 7 1 9.1775e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan11.cw_5000.p1 sdev = 5.49420e-05 Peak = 80403808256.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 9.2161e+08 0.000 0.4472 5.0 1 1 9.1231e+08 0.000 0.4472 5.0 2 1 9.0143e+08 0.000 0.4472 5.0 3 1 9.0788e+08 0.000 0.4472 5.0 4 1 9.1032e+08 0.000 0.4472 5.0 5 1 9.1590e+08 0.000 0.4472 5.0 6 1 9.0218e+08 0.000 0.4472 5.0 7 1 9.2650e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan11.cw_5000.p1 sdev = 5.38357e-05 Peak = 99216318464.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Successfully opened file nereus.jan11.cw_5000.p2 block# nseq aveback sdev rmsc tau 0 1 8.8549e+08 0.000 0.4472 5.0 1 1 8.9236e+08 0.000 0.4472 5.0 2 1 8.8171e+08 0.000 0.4472 5.0 3 1 8.7815e+08 0.000 0.4472 5.0 4 1 8.8962e+08 0.000 0.4472 5.0 5 1 8.8530e+08 0.000 0.4472 5.0 6 1 8.9259e+08 0.000 0.4472 5.0 7 1 8.8544e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan11.cw_5000.p2 sdev = 5.47527e-05 Peak = 46285881344.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 8.7424e+08 0.000 0.4472 5.0 1 1 8.8468e+08 0.000 0.4472 5.0 2 1 8.7105e+08 0.000 0.4472 5.0 3 1 8.7480e+08 0.000 0.4472 5.0 4 1 8.7964e+08 0.000 0.4472 5.0 5 1 8.9040e+08 0.000 0.4472 5.0 6 1 8.8032e+08 0.000 0.4472 5.0 7 1 8.7272e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan11.cw_5000.p2 sdev = 5.33868e-05 Peak = 53002199040.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 8.8066e+08 0.000 0.4472 5.0 1 1 8.6939e+08 0.000 0.4472 5.0 2 1 8.7322e+08 0.000 0.4472 5.0 3 1 8.7543e+08 0.000 0.4472 5.0 4 1 8.7712e+08 0.000 0.4472 5.0 5 1 8.7034e+08 0.000 0.4472 5.0 6 1 8.5874e+08 0.000 0.4472 5.0 7 1 8.6330e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan11.cw_5000.p2 sdev = 5.21146e-05 Peak = 65760088064.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 8.6458e+08 0.000 0.4472 5.0 1 1 8.5922e+08 0.000 0.4472 5.0 2 1 8.6131e+08 0.000 0.4472 5.0 3 1 8.7074e+08 0.000 0.4472 5.0 4 1 8.7522e+08 0.000 0.4472 5.0 5 1 8.7933e+08 0.000 0.4472 5.0 6 1 8.5744e+08 0.000 0.4472 5.0 7 1 8.7169e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan11.cw_5000.p2 sdev = 5.08907e-05 Peak = 64386863104.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 8.5222e+08 0.000 0.4472 5.0 1 1 8.6443e+08 0.000 0.4472 5.0 2 1 8.5673e+08 0.000 0.4472 5.0 3 1 8.5632e+08 0.000 0.4472 5.0 4 1 8.5511e+08 0.000 0.4472 5.0 5 1 8.5351e+08 0.000 0.4472 5.0 6 1 8.6740e+08 0.000 0.4472 5.0 7 1 8.5114e+08 0.000 0.4472 5.0 Input 8 spectra from nereus.jan11.cw_5000.p2 sdev = 4.98057e-05 Peak = 62201470976.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Added 5 OC/SC pairs to the stack, which now contains 5 spectra Loaded pair #1 (stack #1) Vignetting pair #1 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #2 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #3 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #4 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #5 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Channel 1 fit coefficients (783 points) = 2.727562e+09 66087.78 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.575242e+09 44469.54 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.001 Channel 2: measured/calculated noise = 0.990 Added pair #6 to the pair stack Channel 1 fit coefficients (783 points) = 2.716725e+09 -48015.23 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.526692e+09 -23986.84 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.965 Channel 2: measured/calculated noise = 0.968 Added pair #7 to the pair stack Channel 1 fit coefficients (783 points) = 2.680185e+09 -64593.57 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.518474e+09 -58687.89 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.008 Channel 2: measured/calculated noise = 1.033 Added pair #8 to the pair stack Channel 1 fit coefficients (783 points) = 2.669498e+09 33259.86 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.479750e+09 -34119.42 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.036 Channel 2: measured/calculated noise = 0.996 Added pair #9 to the pair stack Channel 1 fit coefficients (783 points) = 2.622148e+09 -57799.86 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.435670e+09 -30535.65 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.990 Channel 2: measured/calculated noise = 0.999 Added pair #10 to the pair stack Deleted 5 pairs from the stack: 1 2 3 4 5 Stack now contains 5 pairs Wrote 1 rdf frame, containing 5 OC spectra, to file nereus.jan11.runs.1Hz.rdf Wrote 1 rdf frame, containing 5 SC spectra, to file nereus.jan11.runs.1Hz.rdf Sum #1 (5 pairs) is stack pair #6 (group #101) Channel 1 fit coefficients (984 points) = -0.01019184 3.224270e-05 Channel 1 baseline subtracted Channel 2 fit coefficients (984 points) = -0.008270858 4.326852e-05 Channel 2 baseline subtracted Wrote 1 rdf frame, containing 1 OC spectrum, to file nereus.jan11.sum.1Hz.rdf Wrote 1 rdf frame, containing 1 SC spectrum, to file nereus.jan11.sum.1Hz.rdf IDL> --> Looks fine. - - - - - - - - - - - - - - - - - - - - 2002 January 12 --------------- Solution 30, 5 runs, 5000 point FFT remote:/share/radar1/lbenner/nereus < 7 > source nereus.scr Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 38 xforms done Data file:760000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 38 xforms done Data file:760000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 38 xforms done Data file:760000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 38 xforms done Data file:760000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 38 xforms done Data file:760000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 38 xforms done Data file:760000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 38 xforms done Data file:760000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 38 xforms done Data file:760000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 38 xforms done Data file:760000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 38 xforms done Data file:760000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 5 Target name (spaces OK): target diameter (km): target rotation period (hr): Define rotation phase by giving a phase and the corresponding Julian date: sample rate (Hz): wavelength (m): nhops, first hop: hop dwell (sec): TX offset (Hz): freq step, first freq offset (Hz): First, last scan to process (numbered from 1): Scan 1 TX power (kW): Scan 2 TX power (kW): Scan 3 TX power (kW): Scan 4 TX power (kW): Scan 5 TX power (kW): Specify Tsys function here (0) or use Aug. 2000 fit, scaled for other dates (1)? number of intervals to avoid: Reading scan 201226352 (record length = 792 + 40000) Wrote records for 7 dwells in scan 201226352 Reading scan 201226353 (record length = 792 + 40000) Wrote records for 7 dwells in scan 201226353 Reading scan 201226354 (record length = 792 + 40000) Wrote records for 7 dwells in scan 201226354 Reading scan 201226355 (record length = 792 + 40000) Wrote records for 7 dwells in scan 201226355 Reading scan 201226356 (record length = 792 + 40000) Wrote records for 7 dwells in scan 201226356 remote:/share/radar1/lbenner/nereus < 8 > IDL> @red5000.jan12.pro Successfully opened file nereus.jan12.cw_5000.azel Switching from lambda = 0.1259632 m to 0.1260000 m Successfully opened file nereus.jan12.cw_5000.p1 block# nseq aveback sdev rmsc tau 0 1 3.3245e+09 0.000 0.4472 5.0 1 1 3.3230e+09 0.000 0.4472 5.0 2 1 3.2735e+09 0.000 0.4472 5.0 3 1 3.3371e+09 0.000 0.4472 5.0 4 1 3.3413e+09 0.000 0.4472 5.0 5 1 3.3135e+09 0.000 0.4472 5.0 6 1 3.2455e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan12.cw_5000.p1 sdev = 4.78384e-05 Peak = 601590661120.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 3.2784e+09 0.000 0.4472 5.0 1 1 3.2924e+09 0.000 0.4472 5.0 2 1 3.2875e+09 0.000 0.4472 5.0 3 1 3.2840e+09 0.000 0.4472 5.0 4 1 3.2947e+09 0.000 0.4472 5.0 5 1 3.3358e+09 0.000 0.4472 5.0 6 1 3.4723e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan12.cw_5000.p1 sdev = 4.69686e-05 Peak = 537887145984.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 3.3228e+09 0.000 0.4472 5.0 1 1 3.2579e+09 0.000 0.4472 5.0 2 1 3.2475e+09 0.000 0.4472 5.0 3 1 3.3179e+09 0.000 0.4472 5.0 4 1 3.3425e+09 0.000 0.4472 5.0 5 1 3.3423e+09 0.000 0.4472 5.0 6 1 3.2801e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan12.cw_5000.p1 sdev = 4.62021e-05 Peak = 483739566080.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 3.3139e+09 0.000 0.4472 5.0 1 1 3.3009e+09 0.000 0.4472 5.0 2 1 3.2871e+09 0.000 0.4472 5.0 3 1 3.2496e+09 0.000 0.4472 5.0 4 1 3.2869e+09 0.000 0.4472 5.0 5 1 3.3226e+09 0.000 0.4472 5.0 6 1 3.3084e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan12.cw_5000.p1 sdev = 4.54954e-05 Peak = 579899359232.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 3.2606e+09 0.000 0.4472 5.0 1 1 3.2392e+09 0.000 0.4472 5.0 2 1 3.2510e+09 0.000 0.4472 5.0 3 1 3.2189e+09 0.000 0.4472 5.0 4 1 3.2935e+09 0.000 0.4472 5.0 5 1 3.2509e+09 0.000 0.4472 5.0 6 1 3.2650e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan12.cw_5000.p1 sdev = 4.48457e-05 Peak = 420884545536.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Successfully opened file nereus.jan12.cw_5000.p2 block# nseq aveback sdev rmsc tau 0 1 1.0314e+09 0.000 0.4472 5.0 1 1 1.0501e+09 0.000 0.4472 5.0 2 1 1.0363e+09 0.000 0.4472 5.0 3 1 1.0437e+09 0.000 0.4472 5.0 4 1 1.0497e+09 0.000 0.4472 5.0 5 1 1.0426e+09 0.000 0.4472 5.0 6 1 1.0484e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan12.cw_5000.p2 sdev = 4.44010e-05 Peak = 99506716672.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.0352e+09 0.000 0.4472 5.0 1 1 1.0330e+09 0.000 0.4472 5.0 2 1 1.0374e+09 0.000 0.4472 5.0 3 1 1.0417e+09 0.000 0.4472 5.0 4 1 1.0510e+09 0.000 0.4472 5.0 5 1 1.0528e+09 0.000 0.4472 5.0 6 1 1.0416e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan12.cw_5000.p2 sdev = 4.35394e-05 Peak = 106068656128.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.0327e+09 0.000 0.4472 5.0 1 1 1.0218e+09 0.000 0.4472 5.0 2 1 1.0340e+09 0.000 0.4472 5.0 3 1 1.0275e+09 0.000 0.4472 5.0 4 1 1.0402e+09 0.000 0.4472 5.0 5 1 1.0226e+09 0.000 0.4472 5.0 6 1 1.0257e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan12.cw_5000.p2 sdev = 4.27810e-05 Peak = 84771315712.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.0275e+09 0.000 0.4472 5.0 1 1 1.0091e+09 0.000 0.4472 5.0 2 1 1.0280e+09 0.000 0.4472 5.0 3 1 1.0453e+09 0.000 0.4472 5.0 4 1 1.0267e+09 0.000 0.4472 5.0 5 1 1.0323e+09 0.000 0.4472 5.0 6 1 1.0266e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan12.cw_5000.p2 sdev = 4.20852e-05 Peak = 160587776000.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.0227e+09 0.000 0.4472 5.0 1 1 1.0249e+09 0.000 0.4472 5.0 2 1 1.0196e+09 0.000 0.4472 5.0 3 1 1.0289e+09 0.000 0.4472 5.0 4 1 1.0265e+09 0.000 0.4472 5.0 5 1 1.0172e+09 0.000 0.4472 5.0 6 1 1.0168e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan12.cw_5000.p2 sdev = 4.14486e-05 Peak = 103644012544.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Added 5 OC/SC pairs to the stack, which now contains 5 spectra Loaded pair #1 (stack #1) Vignetting pair #1 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #2 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #3 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #4 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #5 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Channel 1 fit coefficients (783 points) = 8.821719e+09 316130.1 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.803952e+09 -99767.69 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.970 Channel 2: measured/calculated noise = 0.985 Added pair #6 to the pair stack Channel 1 fit coefficients (783 points) = 8.830694e+09 32799.13 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.784232e+09 -32725.81 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.027 Channel 2: measured/calculated noise = 0.985 Added pair #7 to the pair stack Channel 1 fit coefficients (783 points) = 8.769690e+09 -134618.9 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.755877e+09 -65667.72 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.980 Channel 2: measured/calculated noise = 1.020 Added pair #8 to the pair stack Channel 1 fit coefficients (783 points) = 8.828753e+09 271697.2 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.713222e+09 25291.21 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.015 Channel 2: measured/calculated noise = 1.021 Added pair #9 to the pair stack Channel 1 fit coefficients (783 points) = 8.683959e+09 -215071.0 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.752116e+09 -10178.01 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.980 Channel 2: measured/calculated noise = 0.998 Added pair #10 to the pair stack Deleted 5 pairs from the stack: 1 2 3 4 5 Stack now contains 5 pairs Wrote 1 rdf frame, containing 5 OC spectra, to file nereus.jan12.runs.1Hz.rdf Wrote 1 rdf frame, containing 5 SC spectra, to file nereus.jan12.runs.1Hz.rdf Sum #1 (5 pairs) is stack pair #6 (group #101) Channel 1 fit coefficients (984 points) = 0.01680540 -3.368613e-05 Channel 1 baseline subtracted Channel 2 fit coefficients (984 points) = -0.004803499 7.098988e-06 Channel 2 baseline subtracted Wrote 1 rdf frame, containing 1 OC spectrum, to file nereus.jan12.sum.1Hz.rdf Wrote 1 rdf frame, containing 1 SC spectrum, to file nereus.jan12.sum.1Hz.rdf IDL> - - - - - - - - - - - - - - - - - - - - 2002 January 13 --------------- Solution 30, 5 runs, 5000-point FFT remote:/share/radar1/lbenner/nereus < 9 > source nereus.scr Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 36 xforms done Data file:720000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 36 xforms done Data file:720000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 36 xforms done Data file:720000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 36 xforms done Data file:720000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 36 xforms done Data file:720000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 36 xforms done Data file:720000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 36 xforms done Data file:720000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 36 xforms done Data file:720000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 36 xforms done Data file:720000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 36 xforms done Data file:720000 bytes,is not a multiple of ipp*glbal avg:100000. last rd=0 Last avg ipp not output 7 ipps each of length 5000 words output Done with scan 5 Target name (spaces OK): target diameter (km): target rotation period (hr): Define rotation phase by giving a phase and the corresponding Julian date: sample rate (Hz): wavelength (m): nhops, first hop: hop dwell (sec): TX offset (Hz): freq step, first freq offset (Hz): First, last scan to process (numbered from 1): Scan 1 TX power (kW): Scan 2 TX power (kW): Scan 3 TX power (kW): Scan 4 TX power (kW): Scan 5 TX power (kW): Specify Tsys function here (0) or use Aug. 2000 fit, scaled for other dates (1)? number of intervals to avoid: Reading scan 201300718 (record length = 792 + 40000) Wrote records for 7 dwells in scan 201300718 Reading scan 201300719 (record length = 792 + 40000) Wrote records for 7 dwells in scan 201300719 Reading scan 201300720 (record length = 792 + 40000) Wrote records for 7 dwells in scan 201300720 Reading scan 201300721 (record length = 792 + 40000) Wrote records for 7 dwells in scan 201300721 Reading scan 201300722 (record length = 792 + 40000) Wrote records for 7 dwells in scan 201300722 remote:/share/radar1/lbenner/nereus < 10 > IDL> @red5000.jan13.pro Successfully opened file nereus.jan13.cw_5000.azel Switching from lambda = 0.1259632 m to 0.1260000 m Successfully opened file nereus.jan13.cw_5000.p1 block# nseq aveback sdev rmsc tau 0 1 1.0142e+09 0.000 0.4472 5.0 1 1 1.0317e+09 0.000 0.4472 5.0 2 1 1.0304e+09 0.000 0.4472 5.0 3 1 1.0191e+09 0.000 0.4472 5.0 4 1 1.0825e+09 0.000 0.4472 5.0 5 1 1.0446e+09 0.000 0.4472 5.0 6 1 1.0227e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan13.cw_5000.p1 sdev = 4.02766e-05 Peak = 262736494592.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.0142e+09 0.000 0.4472 5.0 1 1 1.0101e+09 0.000 0.4472 5.0 2 1 1.0328e+09 0.000 0.4472 5.0 3 1 1.0099e+09 0.000 0.4472 5.0 4 1 1.0295e+09 0.000 0.4472 5.0 5 1 1.0304e+09 0.000 0.4472 5.0 6 1 1.0065e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan13.cw_5000.p1 sdev = 3.97407e-05 Peak = 157102473216.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.0721e+09 0.000 0.4472 5.0 1 1 1.0041e+09 0.000 0.4472 5.0 2 1 1.0342e+09 0.000 0.4472 5.0 3 1 1.0140e+09 0.000 0.4472 5.0 4 1 1.0332e+09 0.000 0.4472 5.0 5 1 1.0255e+09 0.000 0.4472 5.0 6 1 1.0201e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan13.cw_5000.p1 sdev = 3.92375e-05 Peak = 298785374208.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 1.0173e+09 0.000 0.4472 5.0 1 1 9.9497e+08 0.000 0.4472 5.0 2 1 1.0030e+09 0.000 0.4472 5.0 3 1 1.0211e+09 0.000 0.4472 5.0 4 1 1.0399e+09 0.000 0.4472 5.0 5 1 9.9932e+08 0.000 0.4472 5.0 6 1 1.0496e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan13.cw_5000.p1 sdev = 3.87442e-05 Peak = 235237720064.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 9.9889e+08 0.000 0.4472 5.0 1 1 9.8318e+08 0.000 0.4472 5.0 2 1 9.9111e+08 0.000 0.4472 5.0 3 1 1.0004e+09 0.000 0.4472 5.0 4 1 1.0054e+09 0.000 0.4472 5.0 5 1 9.8797e+08 0.000 0.4472 5.0 6 1 1.0341e+09 0.000 0.4472 5.0 Input 7 spectra from nereus.jan13.cw_5000.p1 sdev = 3.83208e-05 Peak = 161979432960.000000 at bin #2700 Setting OC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Successfully opened file nereus.jan13.cw_5000.p2 block# nseq aveback sdev rmsc tau 0 1 9.5236e+08 0.000 0.4472 5.0 1 1 9.5560e+08 0.000 0.4472 5.0 2 1 9.6679e+08 0.000 0.4472 5.0 3 1 9.4832e+08 0.000 0.4472 5.0 4 1 9.6715e+08 0.000 0.4472 5.0 5 1 9.5694e+08 0.000 0.4472 5.0 6 1 9.4348e+08 0.000 0.4472 5.0 Input 7 spectra from nereus.jan13.cw_5000.p2 sdev = 3.74465e-05 Peak = 149825536000.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 9.5630e+08 0.000 0.4472 5.0 1 1 9.4657e+08 0.000 0.4472 5.0 2 1 9.5129e+08 0.000 0.4472 5.0 3 1 9.4303e+08 0.000 0.4472 5.0 4 1 9.4508e+08 0.000 0.4472 5.0 5 1 9.9226e+08 0.000 0.4472 5.0 6 1 9.5467e+08 0.000 0.4472 5.0 Input 7 spectra from nereus.jan13.cw_5000.p2 sdev = 3.69056e-05 Peak = 174575566848.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 9.3694e+08 0.000 0.4472 5.0 1 1 9.4604e+08 0.000 0.4472 5.0 2 1 9.6347e+08 0.000 0.4472 5.0 3 1 9.4358e+08 0.000 0.4472 5.0 4 1 9.4761e+08 0.000 0.4472 5.0 5 1 9.4555e+08 0.000 0.4472 5.0 6 1 9.6013e+08 0.000 0.4472 5.0 Input 7 spectra from nereus.jan13.cw_5000.p2 sdev = 3.63996e-05 Peak = 176713678848.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 9.5403e+08 0.000 0.4472 5.0 1 1 9.6076e+08 0.000 0.4472 5.0 2 1 9.6282e+08 0.000 0.4472 5.0 3 1 9.3922e+08 0.000 0.4472 5.0 4 1 9.5724e+08 0.000 0.4472 5.0 5 1 9.3997e+08 0.000 0.4472 5.0 6 1 9.4518e+08 0.000 0.4472 5.0 Input 7 spectra from nereus.jan13.cw_5000.p2 sdev = 3.59080e-05 Peak = 219084832768.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) block# nseq aveback sdev rmsc tau 0 1 9.2173e+08 0.000 0.4472 5.0 1 1 9.4587e+08 0.000 0.4472 5.0 2 1 9.4949e+08 0.000 0.4472 5.0 3 1 9.3348e+08 0.000 0.4472 5.0 4 1 9.4699e+08 0.000 0.4472 5.0 5 1 9.4734e+08 0.000 0.4472 5.0 6 1 9.4041e+08 0.000 0.4472 5.0 Input 7 spectra from nereus.jan13.cw_5000.p2 sdev = 3.54859e-05 Peak = 191697944576.000000 at bin #2700 Setting SC signal limits to frequency bins 2692-2708 ( -8.50 Hz to 8.50 Hz) (Full range is bins 0-4999, 0 Hz is bin 2700) Added 5 OC/SC pairs to the stack, which now contains 5 spectra Loaded pair #1 (stack #1) Vignetting pair #1 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #2 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #3 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #4 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Vignetting pair #5 to 1001 points, frequency bins 2200-3200 ( -500.50 Hz to 500.50 Hz) Channel 1 fit coefficients (783 points) = 2.707240e+09 -59435.51 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.522795e+09 -17060.87 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.995 Channel 2: measured/calculated noise = 0.963 Added pair #6 to the pair stack Channel 1 fit coefficients (783 points) = 2.688181e+09 57374.22 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.537400e+09 -107700.6 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.017 Channel 2: measured/calculated noise = 1.038 Added pair #7 to the pair stack Channel 1 fit coefficients (783 points) = 2.705806e+09 42896.25 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.533896e+09 13866.67 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.967 Channel 2: measured/calculated noise = 0.958 Added pair #8 to the pair stack Channel 1 fit coefficients (783 points) = 2.708510e+09 -44811.20 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.522943e+09 -67833.59 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.975 Channel 2: measured/calculated noise = 0.999 Added pair #9 to the pair stack Channel 1 fit coefficients (783 points) = 2.652181e+09 -6231.169 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (783 points) = 2.499363e+09 20680.35 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.997 Channel 2: measured/calculated noise = 0.986 Added pair #10 to the pair stack Deleted 5 pairs from the stack: 1 2 3 4 5 Stack now contains 5 pairs Wrote 1 rdf frame, containing 5 OC spectra, to file nereus.jan13.runs.1Hz.rdf Wrote 1 rdf frame, containing 5 SC spectra, to file nereus.jan13.runs.1Hz.rdf Sum #1 (5 pairs) is stack pair #6 (group #101) Channel 1 fit coefficients (984 points) = 0.03429573 -7.116557e-05 Channel 1 baseline subtracted Channel 2 fit coefficients (984 points) = -0.01989936 4.248858e-05 Channel 2 baseline subtracted Wrote 1 rdf frame, containing 1 OC spectrum, to file nereus.jan13.sum.1Hz.rdf Wrote 1 rdf frame, containing 1 SC spectrum, to file nereus.jan13.sum.1Hz.rdf IDL> ========================================================== 2007 November 01 Reduce the Arecibo CW data to 0.1 Hz resolution. We get one FFT every 10 seconds. Due to the short RTTs, this means we'll get four FFTs/run on Jan 9-11 and 3 FFTs/run on Jan 12-13. Date Runs FFTs/run FFTs Dwell (s) block Jan 09 15 4 60 40 1 Jan 10 5 4 20 40 1 Jan 11 5 4 20 40 1 Jan 12 5 3 15 30 1 Jan 13 5 3 15 30 1 I modified the drvcw, *azel_in, and red* files to use 40 sec dwells on the first three days and 30 sec dwells on the latter two. January 09 ---------- remote:/share/radar1/lbenner/nereus < 6 > source nereus.scr Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 6 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 7 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 8 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 9 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 10 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 11 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 12 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 13 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 14 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 15 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 6 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 7 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 8 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 9 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 10 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 11 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 12 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 13 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 14 Starting up stripVme.. 1st,lastgrp: 1 2000000000 450000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 15 Target name (spaces OK): target diameter (km): target rotation period (hr): Define rotation phase by giving a phase and the corresponding Julian date: sample rate (Hz): wavelength (m): nhops, first hop: hop dwell (sec): TX offset (Hz): freq step, first freq offset (Hz): First, last scan to process (numbered from 1): Scan 1 TX power (kW): Scan 2 TX power (kW): Scan 3 TX power (kW): Scan 4 TX power (kW): Scan 5 TX power (kW): Scan 6 TX power (kW): Scan 7 TX power (kW): Scan 8 TX power (kW): Scan 9 TX power (kW): Scan 10 TX power (kW): Scan 11 TX power (kW): Scan 12 TX power (kW): Scan 13 TX power (kW): Scan 14 TX power (kW): Scan 15 TX power (kW): Specify Tsys function here (0) or use Aug. 2000 fit, scaled for other dates (1)? number of intervals to avoid: Reading scan 200900004 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900004 Reading scan 200900005 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900005 Reading scan 200900006 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900006 Reading scan 200900007 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900007 Reading scan 200900008 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900008 Reading scan 200900009 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900009 Reading scan 200900010 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900010 Reading scan 200900011 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900011 Reading scan 200900012 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900012 Reading scan 200900013 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900013 Reading scan 200900014 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900014 Reading scan 200900015 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900015 Reading scan 200900016 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900016 Reading scan 200900017 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900017 Reading scan 200900018 (record length = 792 + 40000) Wrote records for 1 dwells in scan 200900018 Use idl63 on the Arecibo system: it's the current version IDL> @red50000.jan09.pro Successfully opened file nereus.jan09.cw_50000.azel Switching from lambda = 0.1259632 m to 0.1260000 m Successfully opened file nereus.jan09.cw_50000.p1 block# nseq aveback sdev rmsc tau 0 1 8.0768e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 2.25190e-05 Peak = 987088945152.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 8.0504e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 2.19623e-05 Peak = 1185209647104.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.9839e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 2.14603e-05 Peak = 1510406619136.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.9493e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 2.09949e-05 Peak = 1025353187328.000000 at bin #26995 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.9174e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 2.05996e-05 Peak = 1664579665920.000000 at bin #26997 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.8689e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 2.02543e-05 Peak = 1578253811712.000000 at bin #26998 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.7808e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 1.95112e-05 Peak = 1253797134336.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.7662e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 1.93386e-05 Peak = 1338750009344.000000 at bin #26998 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.6737e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 1.91898e-05 Peak = 728226856960.000000 at bin #26998 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.6812e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 1.90942e-05 Peak = 1149205610496.000000 at bin #26998 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.6034e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 1.90331e-05 Peak = 892375138304.000000 at bin #26998 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.6059e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 1.89888e-05 Peak = 1180081586176.000000 at bin #26998 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.6195e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 1.89889e-05 Peak = 1420162236416.000000 at bin #26998 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.5878e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 1.90155e-05 Peak = 1669884936192.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.5235e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p1 sdev = 1.90494e-05 Peak = 734030659584.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) Successfully opened file nereus.jan09.cw_50000.p2 block# nseq aveback sdev rmsc tau 0 1 1.2813e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 2.07968e-05 Peak = 1506905554944.000000 at bin #26995 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4174e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 2.02625e-05 Peak = 990624088064.000000 at bin #26997 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4143e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.97831e-05 Peak = 1276635381760.000000 at bin #26995 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4526e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.93417e-05 Peak = 1373548576768.000000 at bin #26996 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4521e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.89689e-05 Peak = 2209051836416.000000 at bin #26995 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4467e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.86442e-05 Peak = 979334856704.000000 at bin #27000 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4993e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.79547e-05 Peak = 2202981367808.000000 at bin #26998 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4888e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.77959e-05 Peak = 1709575503872.000000 at bin #26999 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4926e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.76604e-05 Peak = 2391887052800.000000 at bin #26997 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4751e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.75745e-05 Peak = 1297801674752.000000 at bin #26996 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4728e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.75203e-05 Peak = 1933035700224.000000 at bin #26997 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4672e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.74820e-05 Peak = 2284076400640.000000 at bin #27000 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4542e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.74844e-05 Peak = 2797224591360.000000 at bin #26997 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4609e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.75109e-05 Peak = 2411489132544.000000 at bin #26997 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.4542e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan09.cw_50000.p2 sdev = 1.75451e-05 Peak = 2282271539200.000000 at bin #26998 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) Added 15 OC/SC pairs to the stack, which now contains 15 spectra Loaded pair #1 (stack #1) Vignetting pair #1 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #2 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #3 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #4 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #5 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #6 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #7 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #8 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #9 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #10 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #11 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #12 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #13 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #14 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #15 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Channel 1 fit coefficients (7847 points) = 8.209688e+09 114271.7 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.311348e+10 189232.4 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.998 Channel 2: measured/calculated noise = 0.995 Added pair #16 to the pair stack Channel 1 fit coefficients (7847 points) = 8.207305e+09 293396.1 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.443321e+10 -6824.561 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.015 Channel 2: measured/calculated noise = 1.003 Added pair #17 to the pair stack Channel 1 fit coefficients (7847 points) = 8.122726e+09 -126297.6 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.437813e+10 -244783.0 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.986 Channel 2: measured/calculated noise = 1.015 Added pair #18 to the pair stack Channel 1 fit coefficients (7847 points) = 8.119934e+09 -194379.1 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.478506e+10 159613.7 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.002 Channel 2: measured/calculated noise = 1.000 Added pair #19 to the pair stack Channel 1 fit coefficients (7847 points) = 8.011411e+09 -42158.26 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.465524e+10 -191308.0 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.988 Channel 2: measured/calculated noise = 1.007 Added pair #20 to the pair stack Channel 1 fit coefficients (7847 points) = 7.953465e+09 -182195.2 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.467018e+10 -831333.1 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.995 Channel 2: measured/calculated noise = 0.986 Added pair #21 to the pair stack Channel 1 fit coefficients (7847 points) = 7.901053e+09 1646.270 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.535166e+10 64422.75 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.011 Channel 2: measured/calculated noise = 1.001 Added pair #22 to the pair stack Channel 1 fit coefficients (7847 points) = 7.847699e+09 172308.1 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.516382e+10 319426.7 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.973 Channel 2: measured/calculated noise = 1.000 Added pair #23 to the pair stack Channel 1 fit coefficients (7847 points) = 7.905621e+09 40268.87 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.518629e+10 -41335.78 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.011 Channel 2: measured/calculated noise = 0.995 Added pair #24 to the pair stack Channel 1 fit coefficients (7847 points) = 7.845124e+09 -388519.2 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.512031e+10 -262905.8 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.008 Channel 2: measured/calculated noise = 0.992 Added pair #25 to the pair stack Channel 1 fit coefficients (7847 points) = 7.685051e+09 119596.5 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.494964e+10 -72579.02 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.011 Channel 2: measured/calculated noise = 1.016 Added pair #26 to the pair stack Channel 1 fit coefficients (7847 points) = 7.676610e+09 41739.43 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.482251e+10 198796.2 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.988 Channel 2: measured/calculated noise = 1.011 Added pair #27 to the pair stack Channel 1 fit coefficients (7847 points) = 7.691057e+09 -294376.0 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.469615e+10 -355654.8 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.015 Channel 2: measured/calculated noise = 0.997 Added pair #28 to the pair stack Channel 1 fit coefficients (7847 points) = 7.703544e+09 -104812.5 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.474926e+10 -105690.6 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.004 Channel 2: measured/calculated noise = 0.988 Added pair #29 to the pair stack Channel 1 fit coefficients (7847 points) = 7.605585e+09 -237891.3 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.463225e+10 224171.5 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.992 Channel 2: measured/calculated noise = 0.987 Added pair #30 to the pair stack Deleted 15 pairs from the stack: 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 Stack now contains 15 pairs Wrote 1 rdf frame, containing 15 OC spectra, to file nereus.jan09.runs.p1Hz.rdf Wrote 1 rdf frame, containing 15 SC spectra, to file nereus.jan09.runs.p1Hz.rdf Sum #1 (15 pairs) is stack pair #16 (group #101) Channel 1 fit coefficients (9848 points) = -0.0004096269 6.465589e-06 Channel 1 baseline subtracted Channel 2 fit coefficients (9848 points) = 0.002436408 -3.454257e-06 Channel 2 baseline subtracted Wrote 1 rdf frame, containing 1 OC spectrum, to file nereus.jan09.sum.p1Hz.rdf Wrote 1 rdf frame, containing 1 SC spectrum, to file nereus.jan09.sum.p1Hz.rdf IDL> exit January 10 ---------- remote:/share/radar1/lbenner/nereus < 12 > source nereus.scr Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 430000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 5 Target name (spaces OK): target diameter (km): target rotation period (hr): Define rotation phase by giving a phase and the corresponding Julian date: sample rate (Hz): wavelength (m): nhops, first hop: hop dwell (sec): TX offset (Hz): freq step, first freq offset (Hz): First, last scan to process (numbered from 1): Scan 1 TX power (kW): Scan 2 TX power (kW): Scan 3 TX power (kW): Scan 4 TX power (kW): Scan 5 TX power (kW): Specify Tsys function here (0) or use Aug. 2000 fit, scaled for other dates (1)? number of intervals to avoid: Reading scan 201000067 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201000067 Reading scan 201000068 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201000068 Reading scan 201000069 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201000069 Reading scan 201000070 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201000070 Reading scan 201000071 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201000071 IDL> @red50000.jan10.pro Successfully opened file nereus.jan10.cw_50000.azel Switching from lambda = 0.1259632 m to 0.1260000 m Successfully opened file nereus.jan10.cw_50000.p1 block# nseq aveback sdev rmsc tau 0 1 7.7709e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan10.cw_50000.p1 sdev = 1.76422e-05 Peak = 706822078464.000000 at bin #26997 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.8374e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan10.cw_50000.p1 sdev = 1.73321e-05 Peak = 1445890883584.000000 at bin #26997 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.7487e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan10.cw_50000.p1 sdev = 1.70733e-05 Peak = 798984830976.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.7045e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan10.cw_50000.p1 sdev = 1.68478e-05 Peak = 743582924800.000000 at bin #26998 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 7.7398e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan10.cw_50000.p1 sdev = 1.66549e-05 Peak = 1541223219200.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) Successfully opened file nereus.jan10.cw_50000.p2 block# nseq aveback sdev rmsc tau 0 1 1.3778e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan10.cw_50000.p2 sdev = 1.62597e-05 Peak = 1671735541760.000000 at bin #26996 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.3088e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan10.cw_50000.p2 sdev = 1.59663e-05 Peak = 1241008308224.000000 at bin #26995 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.3803e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan10.cw_50000.p2 sdev = 1.57212e-05 Peak = 2685779050496.000000 at bin #26995 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.3682e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan10.cw_50000.p2 sdev = 1.55097e-05 Peak = 1775274164224.000000 at bin #26994 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.3665e+10 0.000 0.5000 40.0 Input 1 spectra from nereus.jan10.cw_50000.p2 sdev = 1.53283e-05 Peak = 3155147882496.000000 at bin #26997 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) Added 5 OC/SC pairs to the stack, which now contains 5 spectra Loaded pair #1 (stack #1) Vignetting pair #1 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #2 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #3 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #4 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #5 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Channel 1 fit coefficients (7847 points) = 7.877265e+09 -52536.27 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.407871e+10 514558.2 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.017 Channel 2: measured/calculated noise = 0.994 Added pair #6 to the pair stack Channel 1 fit coefficients (7847 points) = 7.899039e+09 -198353.3 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.322610e+10 14470.30 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.020 Channel 2: measured/calculated noise = 0.998 Added pair #7 to the pair stack Channel 1 fit coefficients (7847 points) = 7.920925e+09 139754.5 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.388995e+10 242743.6 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.988 Channel 2: measured/calculated noise = 1.001 Added pair #8 to the pair stack Channel 1 fit coefficients (7847 points) = 7.833481e+09 -117270.9 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.378776e+10 336137.8 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.002 Channel 2: measured/calculated noise = 1.007 Added pair #9 to the pair stack Channel 1 fit coefficients (7847 points) = 7.831810e+09 83412.03 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.372098e+10 51089.68 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.002 Channel 2: measured/calculated noise = 1.017 Added pair #10 to the pair stack Deleted 5 pairs from the stack: 1 2 3 4 5 Stack now contains 5 pairs Wrote 1 rdf frame, containing 5 OC spectra, to file nereus.jan10.runs.p1Hz.rdf Wrote 1 rdf frame, containing 5 SC spectra, to file nereus.jan10.runs.p1Hz.rdf Sum #1 (5 pairs) is stack pair #6 (group #101) Channel 1 fit coefficients (9848 points) = -0.004316251 1.313804e-05 Channel 1 baseline subtracted Channel 2 fit coefficients (9848 points) = 0.001094453 -5.053876e-06 Channel 2 baseline subtracted Wrote 1 rdf frame, containing 1 OC spectrum, to file nereus.jan10.sum.p1Hz.rdf Wrote 1 rdf frame, containing 1 SC spectrum, to file nereus.jan10.sum.p1Hz.rdf IDL> exit January 11 ---------- remote:/share/radar1/lbenner/nereus < 14 > source nereus.scr Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 400000 numbers converted integer*4 to real*4 4 xforms done 1 ipps each of length 50000 words output Done with scan 5 Target name (spaces OK): target diameter (km): target rotation period (hr): Define rotation phase by giving a phase and the corresponding Julian date: sample rate (Hz): wavelength (m): nhops, first hop: hop dwell (sec): TX offset (Hz): freq step, first freq offset (Hz): First, last scan to process (numbered from 1): Scan 1 TX power (kW): Scan 2 TX power (kW): Scan 3 TX power (kW): Scan 4 TX power (kW): Scan 5 TX power (kW): Specify Tsys function here (0) or use Aug. 2000 fit, scaled for other dates (1)? number of intervals to avoid: Reading scan 201100050 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201100050 Reading scan 201100051 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201100051 Reading scan 201100052 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201100052 Reading scan 201100053 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201100053 Reading scan 201100054 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201100054 IDL> @red50000.jan11.pro Successfully opened file nereus.jan11.cw_50000.azel Switching from lambda = 0.1259632 m to 0.1260000 m Successfully opened file nereus.jan11.cw_50000.p1 block# nseq aveback sdev rmsc tau 0 1 9.4887e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan11.cw_50000.p1 sdev = 1.86041e-05 Peak = 1677255245824.000000 at bin #26997 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 9.4229e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan11.cw_50000.p1 sdev = 1.81727e-05 Peak = 1632727859200.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 9.3474e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan11.cw_50000.p1 sdev = 1.77675e-05 Peak = 1365499052032.000000 at bin #26995 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 9.2438e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan11.cw_50000.p1 sdev = 1.73744e-05 Peak = 1826591342592.000000 at bin #26994 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 9.1225e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan11.cw_50000.p1 sdev = 1.70245e-05 Peak = 2068997472256.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) Successfully opened file nereus.jan11.cw_50000.p2 block# nseq aveback sdev rmsc tau 0 1 8.8632e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan11.cw_50000.p2 sdev = 1.73148e-05 Peak = 862944952320.000000 at bin #26995 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 8.7850e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan11.cw_50000.p2 sdev = 1.68825e-05 Peak = 724833796096.000000 at bin #26994 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 8.7101e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan11.cw_50000.p2 sdev = 1.64803e-05 Peak = 1097148203008.000000 at bin #26997 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 8.6747e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan11.cw_50000.p2 sdev = 1.60934e-05 Peak = 1224468332544.000000 at bin #26995 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 8.5708e+09 0.000 0.5000 40.0 Input 1 spectra from nereus.jan11.cw_50000.p2 sdev = 1.57503e-05 Peak = 1071694610432.000000 at bin #26996 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) Added 5 OC/SC pairs to the stack, which now contains 5 spectra Loaded pair #1 (stack #1) Vignetting pair #1 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #2 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #3 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #4 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #5 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Channel 1 fit coefficients (7847 points) = 9.633989e+09 260680.3 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 9.106562e+09 157251.9 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.998 Channel 2: measured/calculated noise = 0.999 Added pair #6 to the pair stack Channel 1 fit coefficients (7847 points) = 9.590026e+09 -161703.6 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 8.925901e+09 -67602.79 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.002 Channel 2: measured/calculated noise = 0.993 Added pair #7 to the pair stack Channel 1 fit coefficients (7847 points) = 9.451397e+09 -202960.0 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 8.894964e+09 -197304.3 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.008 Channel 2: measured/calculated noise = 0.993 Added pair #8 to the pair stack Channel 1 fit coefficients (7847 points) = 9.431129e+09 98928.05 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 8.757403e+09 -97500.42 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.013 Channel 2: measured/calculated noise = 1.004 Added pair #9 to the pair stack Channel 1 fit coefficients (7847 points) = 9.259074e+09 -187713.1 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 8.606058e+09 -124556.0 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.003 Channel 2: measured/calculated noise = 1.015 Added pair #10 to the pair stack Deleted 5 pairs from the stack: 1 2 3 4 5 Stack now contains 5 pairs Wrote 1 rdf frame, containing 5 OC spectra, to file nereus.jan11.runs.p1Hz.rdf Wrote 1 rdf frame, containing 5 SC spectra, to file nereus.jan11.runs.p1Hz.rdf Sum #1 (5 pairs) is stack pair #6 (group #101) Channel 1 fit coefficients (9848 points) = -0.001559370 5.900813e-06 Channel 1 baseline subtracted Channel 2 fit coefficients (9848 points) = -0.0009427492 9.400152e-06 Channel 2 baseline subtracted Wrote 1 rdf frame, containing 1 OC spectrum, to file nereus.jan11.sum.p1Hz.rdf Wrote 1 rdf frame, containing 1 SC spectrum, to file nereus.jan11.sum.p1Hz.rdf IDL> January 12 ---------- remote:/share/radar1/lbenner/nereus < 16 > source nereus.scr Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 380000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 5 Target name (spaces OK): target diameter (km): target rotation period (hr): Define rotation phase by giving a phase and the corresponding Julian date: sample rate (Hz): wavelength (m): nhops, first hop: hop dwell (sec): TX offset (Hz): freq step, first freq offset (Hz): First, last scan to process (numbered from 1): Scan 1 TX power (kW): Scan 2 TX power (kW): Scan 3 TX power (kW): Scan 4 TX power (kW): Scan 5 TX power (kW): Specify Tsys function here (0) or use Aug. 2000 fit, scaled for other dates (1)? number of intervals to avoid: Reading scan 201226352 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201226352 Reading scan 201226353 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201226353 Reading scan 201226354 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201226354 Reading scan 201226355 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201226355 Reading scan 201226356 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201226356 IDL> @red50000.jan12.pro Successfully opened file nereus.jan12.cw_50000.azel Switching from lambda = 0.1259632 m to 0.1260000 m Successfully opened file nereus.jan12.cw_50000.p1 block# nseq aveback sdev rmsc tau 0 1 3.3190e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan12.cw_50000.p1 sdev = 1.63482e-05 Peak = 9678604992512.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 3.2955e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan12.cw_50000.p1 sdev = 1.60504e-05 Peak = 5457749999616.000000 at bin #26997 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 3.3049e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan12.cw_50000.p1 sdev = 1.57880e-05 Peak = 12710823591936.000000 at bin #26997 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 3.2935e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan12.cw_50000.p1 sdev = 1.55462e-05 Peak = 7668146110464.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 3.2525e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan12.cw_50000.p1 sdev = 1.53240e-05 Peak = 10209206468608.000000 at bin #26997 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) Successfully opened file nereus.jan12.cw_50000.p2 block# nseq aveback sdev rmsc tau 0 1 1.0423e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan12.cw_50000.p2 sdev = 1.51745e-05 Peak = 1537114636288.000000 at bin #26996 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.0418e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan12.cw_50000.p2 sdev = 1.48794e-05 Peak = 1456650190848.000000 at bin #26996 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.0298e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan12.cw_50000.p2 sdev = 1.46198e-05 Peak = 1064231501824.000000 at bin #26997 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.0281e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan12.cw_50000.p2 sdev = 1.43815e-05 Peak = 3937123172352.000000 at bin #26998 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.0233e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan12.cw_50000.p2 sdev = 1.41631e-05 Peak = 1200534847488.000000 at bin #26997 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) Added 5 OC/SC pairs to the stack, which now contains 5 spectra Loaded pair #1 (stack #1) Vignetting pair #1 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #2 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #3 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #4 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #5 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Channel 1 fit coefficients (7847 points) = 3.332413e+10 1632647. Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.060962e+10 -517921.7 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.987 Channel 2: measured/calculated noise = 0.980 Added pair #6 to the pair stack Channel 1 fit coefficients (7847 points) = 3.330353e+10 313855.8 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.049170e+10 -100826.8 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.004 Channel 2: measured/calculated noise = 1.009 Added pair #7 to the pair stack Channel 1 fit coefficients (7847 points) = 3.306317e+10 -107362.1 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.039852e+10 -208834.8 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.004 Channel 2: measured/calculated noise = 0.982 Added pair #8 to the pair stack Channel 1 fit coefficients (7847 points) = 3.328080e+10 1116110. Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.025690e+10 -8596.456 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.003 Channel 2: measured/calculated noise = 1.009 Added pair #9 to the pair stack Channel 1 fit coefficients (7847 points) = 3.272082e+10 -699595.9 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 1.039786e+10 38070.18 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.999 Channel 2: measured/calculated noise = 1.012 Added pair #10 to the pair stack Deleted 5 pairs from the stack: 1 2 3 4 5 Stack now contains 5 pairs Wrote 1 rdf frame, containing 5 OC spectra, to file nereus.jan12.runs.p1Hz.rdf Wrote 1 rdf frame, containing 5 SC spectra, to file nereus.jan12.runs.p1Hz.rdf Sum #1 (5 pairs) is stack pair #6 (group #101) Channel 1 fit coefficients (9848 points) = 0.009490107 -2.068835e-05 Channel 1 baseline subtracted Channel 2 fit coefficients (9848 points) = 0.002398258 -1.013879e-05 Channel 2 baseline subtracted Wrote 1 rdf frame, containing 1 OC spectrum, to file nereus.jan12.sum.p1Hz.rdf Wrote 1 rdf frame, containing 1 SC spectrum, to file nereus.jan12.sum.p1Hz.rdf IDL> January 13 ---------- remote:/share/radar1/lbenner/nereus < 18 > source nereus.scr Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 5 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 1 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 2 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 3 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 4 Starting up stripVme.. 1st,lastgrp: 1 2000000000 360000 numbers converted integer*4 to real*4 3 xforms done 1 ipps each of length 50000 words output Done with scan 5 Target name (spaces OK): target diameter (km): target rotation period (hr): Define rotation phase by giving a phase and the corresponding Julian date: sample rate (Hz): wavelength (m): nhops, first hop: hop dwell (sec): TX offset (Hz): freq step, first freq offset (Hz): First, last scan to process (numbered from 1): Scan 1 TX power (kW): Scan 2 TX power (kW): Scan 3 TX power (kW): Scan 4 TX power (kW): Scan 5 TX power (kW): Specify Tsys function here (0) or use Aug. 2000 fit, scaled for other dates (1)? number of intervals to avoid: Reading scan 201300718 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201300718 Reading scan 201300719 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201300719 Reading scan 201300720 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201300720 Reading scan 201300721 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201300721 Reading scan 201300722 (record length = 792 + 40000) Wrote records for 1 dwells in scan 201300722 IDL> @red50000.jan13.pro Successfully opened file nereus.jan13.cw_50000.azel Switching from lambda = 0.1259632 m to 0.1260000 m Successfully opened file nereus.jan13.cw_50000.p1 block# nseq aveback sdev rmsc tau 0 1 1.0372e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan13.cw_50000.p1 sdev = 1.37626e-05 Peak = 3629122584576.000000 at bin #26997 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.0212e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan13.cw_50000.p1 sdev = 1.35795e-05 Peak = 2747815952384.000000 at bin #26996 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.0306e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan13.cw_50000.p1 sdev = 1.34092e-05 Peak = 4609036779520.000000 at bin #26997 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 1.0125e+10 0.000 0.5774 30.0 Input 1 spectra from nereus.jan13.cw_50000.p1 sdev = 1.32382e-05 Peak = 2407168475136.000000 at bin #26997 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 9.9442e+09 0.000 0.5774 30.0 Input 1 spectra from nereus.jan13.cw_50000.p1 sdev = 1.30931e-05 Peak = 1435255963648.000000 at bin #26995 Setting OC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) Successfully opened file nereus.jan13.cw_50000.p2 block# nseq aveback sdev rmsc tau 0 1 9.5783e+09 0.000 0.5774 30.0 Input 1 spectra from nereus.jan13.cw_50000.p2 sdev = 1.27963e-05 Peak = 3681654669312.000000 at bin #26997 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 9.5580e+09 0.000 0.5774 30.0 Input 1 spectra from nereus.jan13.cw_50000.p2 sdev = 1.26110e-05 Peak = 2620442542080.000000 at bin #26996 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 9.4721e+09 0.000 0.5774 30.0 Input 1 spectra from nereus.jan13.cw_50000.p2 sdev = 1.24397e-05 Peak = 2072008458240.000000 at bin #26995 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 9.5239e+09 0.000 0.5774 30.0 Input 1 spectra from nereus.jan13.cw_50000.p2 sdev = 1.22693e-05 Peak = 2803563233280.000000 at bin #26999 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) block# nseq aveback sdev rmsc tau 0 1 9.4084e+09 0.000 0.5774 30.0 Input 1 spectra from nereus.jan13.cw_50000.p2 sdev = 1.21248e-05 Peak = 3306489905152.000000 at bin #26996 Setting SC signal limits to frequency bins 26924-27076 ( -7.65 Hz to 7.65 Hz) (Full range is bins 0-49999, 0 Hz is bin 27000) Added 5 OC/SC pairs to the stack, which now contains 5 spectra Loaded pair #1 (stack #1) Vignetting pair #1 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #2 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #3 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #4 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Vignetting pair #5 to 10001 points, frequency bins 22000-32000 ( -500.05 Hz to 500.05 Hz) Channel 1 fit coefficients (7847 points) = 1.023700e+10 -262164.8 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 9.531998e+09 -106193.9 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.007 Channel 2: measured/calculated noise = 1.005 Added pair #6 to the pair stack Channel 1 fit coefficients (7847 points) = 1.017974e+10 109554.0 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 9.546379e+09 -335038.0 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.005 Channel 2: measured/calculated noise = 0.981 Added pair #7 to the pair stack Channel 1 fit coefficients (7847 points) = 1.016701e+10 240028.0 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 9.497278e+09 190579.3 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 0.998 Channel 2: measured/calculated noise = 0.992 Added pair #8 to the pair stack Channel 1 fit coefficients (7847 points) = 1.019929e+10 -220178.2 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 9.536321e+09 -183433.8 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.000 Channel 2: measured/calculated noise = 0.987 Added pair #9 to the pair stack Channel 1 fit coefficients (7847 points) = 9.998239e+09 -87345.54 Channel 1 -- subtracted baseline, then divided by baseline Channel 2 fit coefficients (7847 points) = 9.415785e+09 64671.34 Channel 2 -- subtracted baseline, then divided by baseline Channel 1: measured/calculated noise = 1.004 Channel 2: measured/calculated noise = 0.978 Added pair #10 to the pair stack Deleted 5 pairs from the stack: 1 2 3 4 5 Stack now contains 5 pairs Wrote 1 rdf frame, containing 5 OC spectra, to file nereus.jan13.runs.p1Hz.rdf Wrote 1 rdf frame, containing 5 SC spectra, to file nereus.jan13.runs.p1Hz.rdf Sum #1 (5 pairs) is stack pair #6 (group #101) Channel 1 fit coefficients (9848 points) = 0.01254490 -2.624916e-05 Channel 1 baseline subtracted Channel 2 fit coefficients (9848 points) = 0.001844255 -4.552247e-06 Channel 2 baseline subtracted Wrote 1 rdf frame, containing 1 OC spectrum, to file nereus.jan13.sum.p1Hz.rdf Wrote 1 rdf frame, containing 1 SC spectrum, to file nereus.jan13.sum.p1Hz.rdf