TIDE Near-Realtime (NRT) monitoring: Updated: 06/13/06 NSSTC Operations Contacts ---------------------------- Mike Chandler 256-961-7645 Paul Craven 256-961-7639 Peggy Sloan 256-961-7681 GSFC Operations Contacts ---------------------------- Bob Gardiner 301-286-0723 rgardine@pop400.gsfc.nasa.gov Mike Machado 301-286-0666 mmachado@pop400.gsfc.nasa.gov Polar POCC: 301-286-9325 or 9317 or 9328 Aurora Labador Andre Jennings pwgdata/NRT: Bobby Candey 301-286-6707 robert.m.candey@nasa.gov David Berger 301-286-8849 carl.d.berger@nasa.gov Source code summary ------------------- The source and executables are on griffin in /export/data/tide/nrt. griffin account: sloan The processing programs are: The graphics programs (IDL) are: tide_nrt hk_sprdsht.pro polar_nrt mass_line single_dsn_nrt tide_nrt_file mass_lz tide_lz hk_sprdsht Command files used to run multiple processing programs multiple times: run_lz - runs tide_lz several times run_po_file - runs tide_nrt_file several times Daily NRT instrument monitoring: ------------------------------- TIDE level-zero data is collected during all DSN realtime passes. Due to connection problems associated with the firewall, the monitoring software is submitted for each realtime pass, rather than letting the job run continuously. In order to run the software, you must login into the sloan account on griffin. cd /export/data/tide/nrt/backup or cd $tide/nrt/backup To view data from any existing files, first move the files up to the nrt directory (mv nrt*lz ..), then move back to that directory (cd ..). From there type: tide_lz 1 nrtyymmddhhmm.lz n n 011 01 01 This sequence of commands will create files containing the engineering data (nrtyymmddhhmm.eng) and the instrument parameters (nrtyymmddhhmm.ip). When looking at the .eng file (via 'more' or 'vi'), ignore the first few and the last few major frames because there can be data dropouts at the beginning and the end of the data transmission that make it look like there are problems with the instrument. See the end of this document for examples of what the engineering major frame and the instrument parameter superspin data should look like. Note: tide_lz can be used to view other aspects of the data. The nrtyymmddhhmm.lz file can be used in the TIDE level-zero processing software to do any standard processing. To submit more NRT monitoring passes, cd $tide/nrt/backup in one window and $tide/dsn in another. The latest DSN schedules are in $tide/dsn as either the dsn.mondd or *txt files. The *txt files are downloaded from the pwgdata data server every night. The dsn schedules can also be viewed on the web at ftp://pwgdata.gsfc.nasa.gov/pub/dsn/po/. Edit at_nrt_dsn (in backup) and change the time and date to include the new DSN data. Start the job 5 minutes before the DSN BOT time. Note: the DSN times are UT, the at_nrt_dsn times are local. CDT is 5 hours earlier, CST is 6 hours earlier. To submit the new jobs, type 'at_nrt_dsn'. Use 'at -l' to get a list of currently schedule jobs. Instrument monitoring during realtime commanding: ------------------------------------------------ In order to run the software, you must login into the sloan account on griffin and the campbrd account on amos. On griffin, in each of the three windows: cd /export/data/tide/nrt or cd $tide/nrt Move one window to the center right, lengthen it, and start tide_nrt using 'run_tide_nrt'. The first thing the program does is establish an electronic link to the NRT server at GSFC. If GSFC is not transmitting data 'Waiting for data . . . ' will appear on the screen. The program will start running when GSFC starts sending data. The programs can be stopped at anytime with a cntl-c. Once NRT data is received, you can either run the housekeeping scrolling spreadsheet or the strip chart plots, but not both. If you need both then set up one on griffin and one on amos (see instructions below). To start the scrolling spreadsheet, move to one of the remaining windows, start idl, and type '.run hk_sprdsht' at the IDL prompt. Once the spreadsheet is displayed, you will have to move some of the windows around in order to see all of the engineering display and as much of the spreadsheet as possible. Each column of the spreadsheet is described at the end of the this document. To start the strip chart, move one of the remaining windows and run 'mass_lz'. To plot just stops use: mass_lz 3 0 4 2 or to plot stops and singles: mass_lz 3 1 5 2 Move the remaining window to the lower right and start idl. Use @mass_line to plot the data. Note: If you had the spreadsheet running and decide to start the strip chart, get out of IDL and back in. If you don't the font used on the plots will be screwed up. On amos, login into the campbrd account. From the small cmdtool window 'cd tide/nrt'. Then open three new windows using 'xterm &' to open each one. In one of the new windows, use 'run_tide_nrt' to start collecting data and to see the engineering data. Use one of the other windows to start either the scrolling spreadsheet or the strip charts using the same procedures used on griffin (see above). The third window can be used create and view the .eng and .ip files discussed at the beginning of the document. You can create postscript and gif files of either the strip chart or the spreadsheet by moving the cursor to the window running IDL and hitting the 'p' (for print). From a separate window, do an 'ls *ps' to find out what the filename is and then print it using 'lp -d lj2a_1 '. To end the IDL jobs type 'q' (quit) in the window running IDL. Then at the IDL prompt (IDL>) type 'exit' to end the IDL session. To end run_tide_nrt and mass_lz, hit a cntl-c in the windows running them. Note: The software can also run from the psloan account on the TIDE mirror machine at GSFC (goewin.gsfc.nasa.gov). goewin can be accessed from a pc via putty. The software is in /projects/tide/nrt and it runs the same way as it does on griffin. Post-processing NRT, LZ, and Q0 data ------------------------------------ tide_lz and mass_lz can be used to read and process existing nrt, level-zero (LZ), and quick-look (Q0) data in the same way they are used to process nrt data. The only catch is that the data file must be in /export/data/tide/nrt on griffin. You will need to copy the level-zero file from the TIDE data archive using 'cp /archive/po_tid_lz_yymm/data/po/tid/lz/yymmddvv.dat .' where yymm is the year and month, dd is the day of month, and vv is the file version number. The quick-look files are available from the anonymous pwgdata.gsfc.nasa.gov ftp site in the pub/uncompressed/po/tid/lz/yyyy subdirectory, where yyyy is the current year. Set 'binary' mode and get the latest files. Select option 1 for the first prompt for each program. When processing LZ data, you will need to specify the start and stop times in order to keep the output files from getting too long. To create the strip charts, first run mass_lz and then run '@mass_line' from IDL to create the strip charts. To save a hardcopy of the strip chart, press 'p' in the window running IDL. To create the housekeeping byte spreadsheet, run tide_lz using the following answers to the prompts: tide_lz 1 y mm-dd-yy hh:mm:ss y mm-dd-yy hh:mm:ss 01 1 This option will create a file with the input filename followed by an .hk extension. Run 'hk_sprdsht' with this file as the input file. hk_sprdsht creates the input needed to run hk_sprdsht.pro. From IDL, '.run hk_sprdsht'. To save a hardcopy of the spreadsheet, press 'p' in the window running IDL. The standard TIDE processing software can be used to process the NRT and Q0 data by simply putting the fully qualified filename in the input file. Miscellaneous software: ---------------------- polar_nrt receives NRT POLAR spacecraft housekeeping. It creates the same spreadsheet data as tide_nrt and it creates POLAR housekeeping level-zero files. It only needs to be run when TIDE is off. tide_nrt receives NRT TIDE level-zero data transmitted from GSFC. It saves the transmitted data in a level-zero file that can be read by the standard level-zero processing software. tide_nrt_file reads and processes an nrt file copied from the pwgdata data server at GSFC. These files need to be copied down only if there is an instrument problem and local nrt files are not available. ftp to the anonymous pwgdata.gsfc.nasa.gov site and cd pub/nrt/po/tid/lz/yyyy, where yyyy is the current year, set 'binary' mode and get the latest files. tide_nrt and polar_nrt extract TIDE housekeeping (HK) data, convert the HK bytes to engineering data, and based on the user's response to the following menu: 0 neither display (only lz and hk files) 1 engineering text display 2 engineering spreadsheet display 3 both display type => displays the data at the terminal using the standard format and/or creates spreadsheet input for hk_sprdsht. Scrolling Spreadsheet column descriptions ----------------------------------------- The following is a description of the columns in the TIDE Engineering (housekeeping) scrolling spreadsheet: First Spreadsheet col 1 (TIME ): hh:mm:ss UT col 2 (MF CNT ): tmafrcnt major frame counter col 3 (CMD CNT): tcmd_cnt command counter col 4 (TID ): TIDE stat (1 if input current byte > 5) col 5 (COV ): t_cvr_st tide cover status closed/open col 6 (HVS ): tarmstat tide status safe/arm col 7 (PLG ): t_hvstat hardware arm safe/tenth/na/arm col 8 (TMD ): ttlmmode telemetry mode sci/eng/mane/cont col 9 (LST ): ttlmstat telemetry status invalid/valid col 10 (MQU ): ttlm_que telemetry queue ok/error col 11 (MIN ): tinsmode instrument mode dump/debug/sci/undef col 12 (MDP ): tdpmode dp mode dump/eng/sci/cal col 13 (MBT ): tbootmod boot mode normal/alternate ROM col 14 (CPD ): tchg_pen inst mode change pending no/yes col 15 (MRD ): tcmd_rec command received ok/error col 16 (DEX ): tcmd_exe command executed ok/error col 17 (DTC ): tdp_dtc dp dead time correction ok/error col 18 (PDS ): tdp_cmd dp command ok/error col 19 (DLD ): tdata_ld data load ok/error col 20 (AST ): tautoena autosensitivity disable/enable col 21 (AUT ): tautosen autosensitivity default/optional col 22 (WDG ): twatchdg watchdog disable/enable col 23 (PUL ): tpulssta pulser off/on col 24 (SUN ): tsunmode acquisition mode sun/free col 25 (DBG ): tdbginit debug initiated no/yes col 26 (HEL ): tdphealt data processor health ok/error col 27 (PSI ): PSI stat (1 if +28v monitor byte > 5) col 28 (ERR ): tpsistat PSI status ok/error col 29 (ARM ): tpsi_arm PSI arm safe/arm col 30 (SQU ): tpsquirt PSI squirt off/on col 31 (VL1 ): tpvlvst1 PSI valve 1 status off/on col 32 (VL2 ): tpvlvst2 PSI valve 2 status off/on col 33 (BIA CUR): tpbscurr PSI bias current (byte value) col 34 (28V CUR): tpp28v_i PSI +28 v monitor (byte value) col 35 (5V MON): tpp5vmon PSI +5 v monitor (byte value) col 36 (15V MON): tpp15vmn PSI +15 v monitor (byte value) col 37 (LOW GAS): tplogasp PSI low gas pressure (byte value) col 38 (HI GAS): tphigasp PSI high gas pressure (byte value) col 39 (TMP 1 ): tp_temp1 PSI temperature 1 (byte value) col 40 (TMP 2 ): tp_temp2 PSI temperature 2 (byte value) col 41 (HST ): tpheatst PSI heater off/on col 42 (DST ): tpdiscst PSI discharge off/on col 43 (KST ): tpkeepst PSI keeper off/on col 44 (HLV ): tpheatlv PSI heater control level col 45 (DLV ): tpdisclv PSI discharge control level col 46 (KLV ): tpkeeplv PSI keeper control level col 47 (HET V ): tpfilmtv PSI filament voltage (byte value) col 48 (HET CUR): tpfilmti PSI filament current (byte value) col 49 (DIS V ): tpdischv PSI discharge voltage (byte value) col 50 (DIS CUR): tpdischi PSI discharge current (byte value) col 51 (KEP V ): tpkeeprv PSI keeper voltage (byte value) col 52 (KEP CUR): tpkeepri PSI keeper current (byte value) Second Spreadsheet col 1 (TIME ): hh:mm:ss UT col 2 (SSP ): tss_cnt superspin counter col 3 (IMP ): sum of timp_ram RAM memory error ok/error timp_rom ROM memory error ok/error timpshar shared memory error ok/error timpmlut mass lookup table ok/error timpeswp energy sweep ok/error t_de_mem DE memory ok/error col 4 ( DP ): sum of tdp_ram dp RAM memory ok/error tdp_rom dp ROM memory ok/error tdp_shrd dp shared memory ok/error tdpdatms dp data acquisition memory ok/error col 5 (TOF ): t15kvarm 15 kv arm safe/arm col 6 (MCP ): t2436arm 2.4/3.6 kv arm safe/arm col 7 (RPM ): trpmiarm rpa/mir arm safe/arm col 8 (15V ): t15kvena 15 kv disable/enable col 9 (36V ): t36kvena 3.6 kv disable/enable col 10 (24V ): t24kvena 2.4 kv disable/enable col 11 (RPA ): trpa_ena rpa disable/enable col 12 (MIR ): tmir_ena mirror disable/enable col 13 (15K DAC): ttofdaca TOF DAC adjust col 14 (36K DAC): t36kdaca 3.6 kv DAC adjust col 15 (24K DAC): t24kdaca 2.4 kv DAC adjust col 16 (15K MON): t15kvmon -15 kv monitor (byte value) col 17 (36K MON): t36kvmon -3.6 kv monitor (byte value) col 18 (24K MON): t24kvmon -2.4 kv monitor (byte value) col 19 (RPA MON): t300vrpa RPA peak voltage monitor (byte value) col 20 (MIR MON): t450vmir mirror peak voltage monitor (byte value) col 21 (3V MON): t_p3vmon +3 v monitor (byte value) col 22 (5V MON): t_p5vmon +5 v monitor (byte value) col 23 (10V MON): t_p10vmn +10 v monitor (byte value) col 24 (15V MON): t_p15vmn +15 v monitor (byte value) col 25 (10V REF): t10vrefv +10 v DAC reference (byte value) col 26 (FLS ADC): tfadcmon flash ADC monitor (byte value) col 27 (INP CUR): tinpcurr input current (byte value) col 28 (PS TMP): ttemp_ps power supply temperature (byte value) col 29 (DP TMP): ttemp_dp data processor temperature (byte value) col 30 (TMP 1 ): t_temp_1 temperature 1 (byte value) col 31 (TMP 2 ): t_temp_2 temperature 2 (byte value) col 32 (TMP 3 ): t_temp_3 temperature 3 (byte value) col 33 (TMP 4 ): t_temp_4 temperature 4 (byte value) col 34 (REF TMP): t10vreft +10 v DAC temperature reference (byte value) Engineering Major Frame comments and examples: ---------------------------------------------- Engineering Major Frame Example 1 shows standard TIDE operations outside the radiation belts with Polar in science mode 2 (Telemetry Mode: cont) and the MCP voltages fully up (DAC 184 for the -3.6kV monitor and DAC 191 for the -2.4kV monitor). In Example 2, the MCPs are shut down for a radiation belt pass (-3.6kV DAC 134, -2.4kV DAC 136) and Polar is in science mode 1 (Telemetry Mode: sci). There should be no 'error' or 'invalid', all the statuses should read 'OK' or 'valid'. All the PSI values should be 0.0. The input current should be near 300. The voltage monitors and temperatures will vary slightly but never very far from what it shown below. The Instrument and DP Modes should always be 'sci'. Maj_Fr and date/time will change with every major frame, Cmd_Cnt may change as a result of stored commands, the superspin counter (SSpin_Cnt) will change every 192 seconds. Auto Sensitivity and Change Pending may change as a result of commanding. Everything else should stay exactly the way it is. Engineering Major Frame Example 1: ------------------------------------------------------------------------------ TIDE Engineering Data Maj_Fr 077 TIDE: on 06/06/06 12:45:46 UT Cmd_Cnt 061 cover: open temperature Deg.C SSpin_Cnt 1 PSI: off PowSup : 22.3 DP Temp : 18.1 PSI: safe Input Current (mA): 304.7 Temp 1 : 18.8 +28V Curr (mA): 0.0 +3v Monitor (V): 2.8 Temp 2 : 16.7 +5v Monitor (V): 4.9 Temp 3 : 21.0 +5v Monitor (V): 0.0 +10v Monitor (V): 10.2 Temp 4 : 16.1 +15v Monitor(V): 0.0 +15v Monitor (V): 14.9 PSI Temp 1: 18.3 +10v Reference (V): 9.8 PSI Temp 2: 16.1 Gas L Pressure: 0 PSI Flash ADC (V): 4.9 REF Temp : 21.0 Gas H Pressure: 0 PSI TIDE Status: arm HV Status: arm S/C Arm Plug: arm Arm State DAC monitor| PSI State Lvl voltage current -15kV Mon (V): arm ena 153 -9245| Heater : off 0 0.0 0.0 A -3.6kV Mon (V): arm ena 184 -2578| Discharge: off 0 0.0 0.0 mA -2.4kV Mon (V): arm ena 191 -1774| Keeper : off 0 0.0 0.0 mA RPA Mon (V): arm ena 237.68| BIAS Current: 0.0 mA Mirror Mon (V): arm ena 238.95| PSI Squirt: off Command/Telemetry Status Telemetry Mode: cont Cmd Received: OK Instrument Mode: sci Cmd Executed: OK DP Mode: sci DP Command : OK Data Load : OK Deadtime Correction: OK TLM Queue : OK Change Pending: no TLM Status : valid Initialization Status: Auto Sensitivity: enable optional IMP DP Watchdog Status : disable RAM : OK OK Pulser Status : off ROM : OK OK Boot Type/Mode : normal warm Shared RAM : OK OK DE Memory : OK OPERATIONS MLUT : OK DP Health : OK Energy Sweep: OK Sun Run Mode : Sun PSI Status : OK Debug Initiated: no Data/MS Acq : OK file: /export/data/tide/nrt/nrt0606061245.lz Engineering Major Frame Example 2: ------------------------------------------------------------------------------ TIDE Engineering Data Maj_Fr 173 TIDE: on 06/06/06 13:39:45 UT Cmd_Cnt 068 cover: open temperature Deg.C SSpin_Cnt 2 PSI: off PowSup : 22.3 DP Temp : 18.1 PSI: safe Input Current (mA): 298.8 Temp 1 : 18.8 +28V Curr (mA): 0.0 +3v Monitor (V): 2.8 Temp 2 : 16.7 +5v Monitor (V): 4.9 Temp 3 : 21.0 +5v Monitor (V): 0.0 +10v Monitor (V): 10.2 Temp 4 : 15.8 +15v Monitor(V): 0.0 +15v Monitor (V): 15.0 PSI Temp 1: 18.3 +10v Reference (V): 9.8 PSI Temp 2: 16.1 Gas L Pressure: 0 PSI Flash ADC (V): 4.9 REF Temp : 21.0 Gas H Pressure: 0 PSI TIDE Status: arm HV Status: arm S/C Arm Plug: arm Arm State DAC monitor| PSI State Lvl voltage current -15kV Mon (V): arm ena 153 -9116| Heater : off 0 0.0 0.0 A -3.6kV Mon (V): arm ena 134 -1886| Discharge: off 0 0.0 0.0 mA -2.4kV Mon (V): arm ena 136 -1271| Keeper : off 0 0.0 0.0 mA RPA Mon (V): arm ena 237.68| BIAS Current: 0.0 mA Mirror Mon (V): arm ena 238.95| PSI Squirt: off Command/Telemetry Status Telemetry Mode: sci Cmd Received: OK Instrument Mode: sci Cmd Executed: OK DP Mode: sci DP Command : OK Data Load : OK Deadtime Correction: OK TLM Queue : OK Change Pending: no TLM Status : valid Initialization Status: Auto Sensitivity: enable optional IMP DP Watchdog Status : disable RAM : OK OK Pulser Status : off ROM : OK OK Boot Type/Mode : normal warm Shared RAM : OK OK DE Memory : OK OPERATIONS MLUT : OK DP Health : OK Energy Sweep: OK Sun Run Mode : Sun PSI Status : OK Debug Initiated: no Data/MS Acq : OK file: /export/data/tide/nrt/nrt0606061245.lz Instrument Parameter comments and examples: ------------------------------------------- Instrument Parameter Example 1 shows standard TIDE parameters outside the radiation belts with the mirror and RPA fully up. Example 2 shows what the voltages and ratios look like with default auto-sensitivity when entering the radiation belts. High-angle and high-time resolution should always be disabled (HI-ANG RES: dis, HI-TIM RES : dis, and CURR PShft: 255, PH.Shft DWLL: 0). Reporting should be complete (REPORTING : complete). Rice compression and moments calculation should be enabled (RICE COMPRESS: ena, MOMENTS CALC: ena). The voltage monitor values will vary slightly. Unless commanded otherwise, all monitors should remain armed and enabled. Auto-sensitivity should be enabled and optional (AUTO SENSITVTY: ena optnl) unless commanded otherwise (i.e. deflt). The RPA/mirror ratios may drop below 1.0 for paired energy steps when the count rates get too high. All triggers should be disabled. The major frame and superspin/spin counters (DP MAJ FM, DP S/SPIN, HP S/SPIN) will vary. Unless otherwise commanded, the collapse option should be 2 (COLLAPSE OPT: 2) and the ion reporting should be: IONS REPORTED : fixed ORDER SCHEME: 0 PRIORITY MASS : 4 0 3 2 5 1 ALWAYS REPORTED: 1 0 0 0 1 0 Instrument Parameter Example 1: ------------------------------------------------------------------------------ TIDE SSPIN/SPIN INSTRUMENT PARAMETERS 06-06-06 12:47:14 UT HI VOLT: arm MIRROR: ena 15 kV: ena -8999 AUTO SENSTVTY: ena optnl MCP : arm RPA : ena 3.6kV: ena -2598 ESWP FORMAT : autos RPA/MIR: arm 2.4kV: ena -1797 MLUT TOF CHANNEL #'s: 000-031 035-049 050-076 140-190 198-244 THRESHOLDS: 59 1054 1318 1661 2109 COUNT THRESH: 5 RPA VALUES: 300.00 238.32 189.30 150.33 119.41 94.87 75.38 59.85 47.55 37.80 30.04 23.81 18.90 15.02 11.94 9.45 7.55 6.01 4.76 3.81 3.00 2.42 1.90 1.54 1.17 0.95 0.73 0.59 0.44 0.37 0.29 RPA words: 4095 3253 2584 2052 1630 1295 1029 817 649 516 410 325 258 205 163 129 103 82 65 52 41 33 26 21 16 13 10 8 6 5 4 RPA/MIR RATIO: 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 1.0000 RPA/MIR bytes: 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 255 RPA/MIRROR 0.0000 0.2980 0.3373 0.3412 0.3490 0.3569 0.3725 0.3882 LEVELS: 0.4118 0.4431 0.4824 0.5373 0.6078 0.7020 0.8314 1.0000 0 76 86 87 89 91 95 99 105 113 123 137 155 179 212 255 HI-ANG RES: dis HI-TIM RES : dis REPORTING : complete CURR PShft: 255 PH.Shft DWLL: 0 RICE COMPRESS: ena DP MAJ FM: 086 CAL PULSER: dis MOMENTS CALC: ena COLLAPSE OPT : 2 DP S/SPIN: 2/00 DELAY : 0 WATCHDOG : dis MODE : 5 REP RATE : 0 S/C RUN MODE: sun ENERGY REMAP : 0 HD S/SPIN: 2/00 SECTOR ID:0000000 DEADTIM CORR: dis ANGLE REMAP : 0 SC MAJ FM: 086 HI TIME RES TRIGGERS: dis METHOD: and DWELL SSPINs: 0 MOMENT TRIG MASK: dis TRIGGERED: no NO.STD.DEVs: 0 HYDRA TRIG MASK: dis TRIGGERED: no HYDRA LO-HI: dis HYDRA HI-LO: dis EFI TRIG MASK: dis TRIGGERED: no EFI LO-HI: dis EFI HI-LO: dis IONS REPORTED : fixed ORDER SCHEME: 0 PRIORITY MASS : 4 0 3 2 5 1 ALWAYS REPORTED: 1 0 0 0 1 0 file: /export/data/tide/nrt/nrt0606061245.lz Instrument Parameter Example 2: ------------------------------------------------------------------------------ TIDE SSPIN/SPIN INSTRUMENT PARAMETERS 06-06-06 13:19:45 UT HI VOLT: arm MIRROR: ena 15 kV: ena -8999 AUTO SENSTVTY: ena deflt MCP : arm RPA : ena 3.6kV: ena -2598 ESWP FORMAT : autos RPA/MIR: arm 2.4kV: ena -1797 MLUT TOF CHANNEL #'s: 000-031 035-049 050-076 140-190 198-244 THRESHOLDS: 3899 1054 1318 1661 2109 COUNT THRESH: 5 RPA VALUES: 300.00 238.32 189.30 150.33 119.41 94.87 75.38 59.85 47.55 37.80 30.04 23.81 18.90 15.02 11.94 9.45 7.55 6.01 4.76 3.81 3.00 2.42 1.90 1.54 1.17 0.95 0.73 0.59 0.44 0.37 0.29 RPA words: 4095 3253 2584 2052 1630 1295 1029 817 649 516 410 325 258 205 163 129 103 82 65 52 41 33 26 21 16 13 10 8 6 5 4 RPA/MIR RATIO: 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 0.5373 RPA/MIR bytes: 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 137 RPA/MIRROR 0.0000 0.2980 0.3373 0.3412 0.3490 0.3569 0.3725 0.3882 LEVELS: 0.4118 0.4431 0.4824 0.5373 0.6078 0.7020 0.8314 1.0000 0 76 86 87 89 91 95 99 105 113 123 137 155 179 212 255 HI-ANG RES: dis HI-TIM RES : dis REPORTING : complete CURR PShft: 255 PH.Shft DWLL: 0 RICE COMPRESS: ena DP MAJ FM: 042 CAL PULSER: dis MOMENTS CALC: ena COLLAPSE OPT : 2 DP S/SPIN: 4/05 DELAY : 0 WATCHDOG : dis MODE : 5 REP RATE : 0 S/C RUN MODE: sun ENERGY REMAP : 0 HD S/SPIN: 4/05 SECTOR ID:0000000 DEADTIM CORR: dis ANGLE REMAP : 0 SC MAJ FM: 042 HI TIME RES TRIGGERS: dis METHOD: and DWELL SSPINs: 0 MOMENT TRIG MASK: dis TRIGGERED: no NO.STD.DEVs: 0 HYDRA TRIG MASK: dis TRIGGERED: no HYDRA LO-HI: dis HYDRA HI-LO: dis EFI TRIG MASK: dis TRIGGERED: no EFI LO-HI: dis EFI HI-LO: dis IONS REPORTED : fixed ORDER SCHEME: 0 PRIORITY MASS : 4 0 3 2 5 1 ALWAYS REPORTED: 1 0 0 0 1 0 file: /export/data/tide/nrt/nrt0606061245.lz