######################################## ##### FGT configuration parameters ##### ######################################## # This file contains "commonly adjusted" parameters, any FGT expert may edit as required. But do edit with care! # See also fgt_rdo_conf.txt # # Blank/whitespace lines are ignored. # Anything after '#' on a line is ignored. # Extra whitespace is ignored (use for human readability but not checked/used). # # 'Addressing' assignments (RDO=n, ARM=n, GROUP=n, APV=n, TEMP=n) are sticky, apply to # all following assignments!!!!! (UNTIL they are changed again below). # RDO is 1 to 2, ARM is 0 to 5, GROUP is 0 to 1, APV is 0 to 11 # (note RDO is numbered from 1 owing to DAQ system tradition). # # Wildcard * in addressing assignment is allowed for ARM, GROUP, APV, meaning "whole valid range of values". [New feature 12/2011] # # Suggest tab in parameter assignments according to the number of adddressing assignments applied/relevant to that parameter. # # A parameter MUST be written exactly once (for each instance as appropriate), unless it is not # actually used on account of some mask e.g. arm_mask. But, there is no error checking for this yet! <<<********!!! # # Some of the configuration parameters will probably be taken from STAR RC gui eventually (and removed from here). # Similarly, ZS thresholds will be computed automatically and don't appear here. # ################################################################ # last edited by: GV ################################################################ # APV and ADC clock timing controls RDO=1 ARM=0 GROUP=0 VPHASE_APV=1.000 VPHASE_ADC=1.200 # timed in 20111005 GV GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.200 # extra test cable "D" timed in 20111006 GV ARM=1 GROUP=0 VPHASE_APV=1.000 VPHASE_ADC=1.600 # this is confirmed still about right 20111005 GV GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.250 # timed in 20111005 GV ARM=2 GROUP=0 VPHASE_APV=1.000 # ARM 2 is not really used, except was for some development work, ignore this for now VPHASE_ADC=1.600 GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.150 ARM=3 GROUP=0 VPHASE_APV=1.000 VPHASE_ADC=1.600 GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.150 ARM=4 GROUP=0 VPHASE_APV=1.000 VPHASE_ADC=1.600 GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.150 ARM=5 GROUP=0 VPHASE_APV=1.000 VPHASE_ADC=1.600 GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.150 RDO=2 ARM=0 GROUP=0 VPHASE_APV=1.000 VPHASE_ADC=1.200 # timed in 20111005 GV GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.200 # extra test cable "D" timed in 20111006 GV ARM=1 GROUP=0 VPHASE_APV=1.000 VPHASE_ADC=1.600 # this is confirmed still about right 20111005 GV GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.250 # timed in 20111005 GV ARM=2 GROUP=0 VPHASE_APV=1.000 # ARM 2 is not really used, except was for some development work, ignore this for now VPHASE_ADC=1.600 GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.150 ARM=3 GROUP=0 VPHASE_APV=1.000 VPHASE_ADC=1.600 GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.150 ARM=4 GROUP=0 VPHASE_APV=1.000 VPHASE_ADC=1.600 GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.150 ARM=5 GROUP=0 VPHASE_APV=1.000 VPHASE_ADC=1.600 GROUP=1 VPHASE_APV=1.000 VPHASE_ADC=1.150 ################################################################# # APV pedestal and latency controls # Note: VPSP / --> peds \ # Note: latency of 26 is (was originally at least) about right for test stand # add about 1.6 us for STAR, we think... # Note: later probably we will move latency register to a wildcard assignment. # Broken out now so we can hunt for collisions with different latency on different chips. RDO=1 ARM=0 GROUP=0 APV=0 VPSP=46 LAT=87 # run 12: 1DA APV=1 VPSP=46 LAT=87 APV=2 VPSP=46 LAT=87 APV=3 VPSP=46 LAT=87 APV=4 VPSP=46 LAT=87 APV=5 VPSP=46 LAT=87 MGAINSEL=2 APV=6 VPSP=42 LAT=87 MGAINSEL=0 APV=7 VPSP=45 LAT=87 MGAINSEL=1 APV=8 VPSP=42 LAT=87 MGAINSEL=3 APV=9 VPSP=46 LAT=87 MGAINSEL=4 GROUP=1 APV=0 VPSP=43 LAT=87 # run 12: 1AB APV=1 VPSP=44 LAT=87 APV=2 VPSP=45 LAT=86 APV=3 VPSP=45 LAT=87 APV=4 VPSP=46 LAT=87 APV=5 VPSP=45 LAT=87 VFS=0 APV=6 VPSP=45 LAT=87 VFS=20 APV=7 VPSP=46 LAT=86 VFS=40 APV=8 VPSP=46 LAT=87 VFS=60 APV=9 VPSP=46 LAT=87 VFS=80 ARM=1 GROUP=0 APV=0 VPSP=44 LAT=87 # run 12: 2DA APV=1 VPSP=45 LAT=87 APV=2 VPSP=44 LAT=86 APV=3 VPSP=45 LAT=87 APV=4 VPSP=46 LAT=87 APV=5 VPSP=42 LAT=87 VFS=0 APV=6 VPSP=42 LAT=87 VFS=30 APV=7 VPSP=42 LAT=87 VFS=60 APV=8 VPSP=42 LAT=87 VFS=90 APV=9 VPSP=42 LAT=87 VFS=120 GROUP=1 APV=0 VPSP=43 LAT=87 # run 12: 2AB APV=1 VPSP=47 LAT=87 APV=2 VPSP=45 LAT=87 APV=3 VPSP=45 LAT=87 APV=4 VPSP=45 LAT=87 APV=5 VPSP=46 LAT=87 APV=6 VPSP=47 LAT=87 APV=7 VPSP=44 LAT=86 APV=8 VPSP=44 LAT=87 APV=9 VPSP=46 LAT=87 ARM=2 GROUP=0 APV=0 VPSP=46 LAT=87 # run 12: 3AB APV=1 VPSP=44 LAT=86 APV=2 VPSP=45 LAT=86 APV=3 VPSP=45 LAT=87 APV=4 VPSP=44 LAT=87 APV=5 VPSP=45 LAT=87 VFS=0 APV=6 VPSP=45 LAT=87 VFS=30 APV=7 VPSP=44 LAT=87 VFS=60 APV=8 VPSP=44 LAT=87 VFS=90 APV=9 VPSP=44 LAT=98 VFS=120 GROUP=1 APV=0 VPSP=42 LAT=87 # run 12: 3BC APV=1 VPSP=42 LAT=87 APV=2 VPSP=42 LAT=87 APV=3 VPSP=42 LAT=87 APV=4 VPSP=42 LAT=87 APV=5 VPSP=43 LAT=87 VFS=0 APV=6 VPSP=46 LAT=87 VFS=30 APV=7 VPSP=44 LAT=87 VFS=60 APV=8 VPSP=42 LAT=87 VFS=90 APV=9 VPSP=42 LAT=87 VFS=120 ARM=3 GROUP=0 APV=0 VPSP=42 LAT=87 # run 12: 4BC APV=1 VPSP=42 LAT=87 APV=2 VPSP=42 LAT=87 APV=3 VPSP=42 LAT=87 APV=4 VPSP=42 LAT=87 APV=5 VPSP=44 LAT=88 VFS=0 APV=6 VPSP=44 LAT=88 VFS=30 APV=7 VPSP=44 LAT=88 VFS=60 APV=8 VPSP=47 LAT=88 VFS=90 APV=9 VPSP=44 LAT=87 VFS=120 GROUP=1 APV=0 VPSP=44 LAT=87 # run 12: 5DA APV=1 VPSP=44 LAT=87 APV=2 VPSP=45 LAT=87 APV=3 VPSP=45 LAT=87 APV=4 VPSP=45 LAT=87 APV=5 VPSP=42 LAT=87 APV=6 VPSP=42 LAT=87 APV=7 VPSP=42 LAT=87 APV=8 VPSP=42 LAT=87 APV=9 VPSP=42 LAT=87 ARM=4 GROUP=0 APV=0 VPSP=46 LAT=87 # run 12: 6DA APV=1 VPSP=46 LAT=87 APV=2 VPSP=45 LAT=87 APV=3 VPSP=44 LAT=87 APV=4 VPSP=48 LAT=87 APV=5 VPSP=42 LAT=87 APV=6 VPSP=42 LAT=87 APV=7 VPSP=42 LAT=87 APV=8 VPSP=42 LAT=87 APV=9 VPSP=42 LAT=87 GROUP=1 APV=0 VPSP=44 LAT=87 # run 12: 6AB APV=1 VPSP=45 LAT=87 APV=2 VPSP=45 LAT=87 APV=3 VPSP=47 LAT=87 APV=4 VPSP=45 LAT=87 APV=5 VPSP=46 LAT=87 VFS=0 APV=6 VPSP=44 LAT=87 VFS=30 APV=7 VPSP=42 LAT=87 VFS=60 APV=8 VPSP=45 LAT=87 VFS=90 APV=9 VPSP=44 LAT=87 VFS=120 ARM=5 GROUP=0 APV=0 VPSP=42 LAT=87 # run 12: NOT USED APV=1 VPSP=42 LAT=87 APV=2 VPSP=42 LAT=87 APV=3 VPSP=42 LAT=87 APV=4 VPSP=42 LAT=87 APV=5 VPSP=42 LAT=87 APV=6 VPSP=42 LAT=87 APV=7 VPSP=42 LAT=87 APV=8 VPSP=42 LAT=87 APV=9 VPSP=42 LAT=87 GROUP=1 APV=0 VPSP=45 LAT=87 # run 12: NOT USED APV=1 VPSP=44 LAT=87 APV=2 VPSP=45 LAT=87 APV=3 VPSP=45 LAT=87 APV=4 VPSP=44 LAT=87 APV=5 VPSP=44 LAT=87 APV=6 VPSP=47 LAT=87 APV=7 VPSP=47 LAT=87 APV=8 VPSP=45 LAT=87 APV=9 VPSP=45 LAT=87 # global set # 60 is "best guess" value used in 13036072 # ARM=* GROUP=* APV=* LAT=60 # I put it at the bottom for "ease of use -- GV RDO=2 ARM=0 GROUP=0 APV=0 VPSP=45 LAT=87 # run 12: 1BC APV=1 VPSP=45 LAT=87 APV=2 VPSP=46 LAT=87 APV=3 VPSP=46 LAT=87 APV=4 VPSP=46 LAT=87 APV=5 VPSP=44 LAT=87 ISHA=46 APV=6 VPSP=43 LAT=87 ISHA=45 APV=7 VPSP=45 LAT=87 ISHA=44 APV=8 VPSP=45 LAT=87 ISHA=47 APV=9 VPSP=45 LAT=87 ISHA=48 #< hit with ZDC-W only, beam but no collisions GROUP=1 APV=0 VPSP=45 LAT=87 # run 12: 1CD APV=1 VPSP=43 LAT=87 APV=2 VPSP=45 LAT=87 APV=3 VPSP=45 LAT=87 APV=4 VPSP=45 LAT=87 APV=5 VPSP=44 LAT=87 VFP=30 APV=6 VPSP=46 LAT=87 VFP=40 APV=7 VPSP=46 LAT=87 VFP=50 APV=8 VPSP=44 LAT=87 VFP=60 APV=9 VPSP=44 LAT=87 VFP=70 ARM=1 GROUP=0 APV=0 VPSP=42 LAT=87 # run 12: 2BC APV=1 VPSP=42 LAT=87 APV=2 VPSP=42 LAT=87 APV=3 VPSP=42 LAT=87 APV=4 VPSP=42 LAT=87 APV=5 VPSP=45 LAT=87 VFS=0 APV=6 VPSP=43 LAT=87 VFS=30 APV=7 VPSP=45 LAT=87 VFS=60 APV=8 VPSP=43 LAT=87 VFS=90 APV=9 VPSP=44 LAT=87 VFS=120 GROUP=1 APV=0 VPSP=42 LAT=87 # run 12: 3DA APV=1 VPSP=42 LAT=87 APV=2 VPSP=42 LAT=87 APV=3 VPSP=42 LAT=87 APV=4 VPSP=42 LAT=87 APV=5 VPSP=42 LAT=87 APV=6 VPSP=42 LAT=87 APV=7 VPSP=42 LAT=87 APV=8 VPSP=42 LAT=87 APV=9 VPSP=42 LAT=87 ARM=2 GROUP=0 APV=0 VPSP=44 LAT=87 # run 12: 4DA APV=1 VPSP=46 LAT=87 APV=2 VPSP=45 LAT=87 APV=3 VPSP=44 LAT=87 APV=4 VPSP=46 LAT=87 APV=5 VPSP=42 LAT=87 APV=6 VPSP=42 LAT=87 APV=7 VPSP=42 LAT=87 APV=8 VPSP=42 LAT=87 APV=9 VPSP=42 LAT=87 GROUP=1 APV=0 VPSP=42 LAT=87 # run 12: 4AB APV=1 VPSP=45 LAT=87 APV=2 VPSP=45 LAT=87 APV=3 VPSP=45 LAT=88 APV=4 VPSP=45 LAT=88 APV=5 VPSP=46 LAT=87 VFS=0 APV=6 VPSP=46 LAT=87 VFS=30 APV=7 VPSP=46 LAT=87 VFS=60 APV=8 VPSP=45 LAT=87 VFS=90 APV=9 VPSP=45 LAT=87 VFS=120 ARM=3 GROUP=0 APV=0 VPSP=45 LAT=87 # run 12: 5AB APV=1 VPSP=46 LAT=87 APV=2 VPSP=45 LAT=87 APV=3 VPSP=46 LAT=87 APV=4 VPSP=46 LAT=87 APV=5 VPSP=45 LAT=87 VFS=0 APV=6 VPSP=44 LAT=87 VFS=30 APV=7 VPSP=45 LAT=87 VFS=60 APV=8 VPSP=46 LAT=87 VFS=90 APV=9 VPSP=46 LAT=87 VFS=120 GROUP=1 APV=0 VPSP=42 LAT=87 # run 12: 5BC APV=1 VPSP=42 LAT=87 APV=2 VPSP=42 LAT=87 APV=3 VPSP=42 LAT=87 APV=4 VPSP=42 LAT=87 APV=5 VPSP=44 LAT=88 VFS=0 APV=6 VPSP=45 LAT=87 VFS=30 APV=7 VPSP=45 LAT=87 VFS=60 APV=8 VPSP=45 LAT=87 VFS=90 APV=9 VPSP=45 LAT=88 VFS=120 ARM=4 GROUP=0 APV=0 VPSP=42 LAT=87 # run 12: 6BC APV=1 VPSP=42 LAT=87 APV=2 VPSP=42 LAT=87 APV=3 VPSP=42 LAT=87 APV=4 VPSP=42 LAT=87 APV=5 VPSP=45 LAT=87 VFS=0 APV=6 VPSP=45 LAT=87 VFS=30 APV=7 VPSP=45 LAT=87 VFS=60 APV=8 VPSP=45 LAT=87 VFS=90 APV=9 VPSP=43 LAT=87 VFS=120 GROUP=1 APV=0 VPSP=42 LAT=87 # run 12: NOT USED APV=1 VPSP=42 LAT=87 APV=2 VPSP=42 LAT=87 APV=3 VPSP=42 LAT=87 APV=4 VPSP=42 LAT=87 APV=5 VPSP=42 LAT=87 APV=6 VPSP=42 LAT=87 APV=7 VPSP=42 LAT=87 APV=8 VPSP=42 LAT=87 APV=9 VPSP=42 LAT=87 ARM=5 GROUP=0 APV=0 VPSP=42 LAT=87 # run 12: NOT USED APV=1 VPSP=42 LAT=87 APV=2 VPSP=42 LAT=87 APV=3 VPSP=42 LAT=87 APV=4 VPSP=42 LAT=87 APV=5 VPSP=42 LAT=87 APV=6 VPSP=42 LAT=87 APV=7 VPSP=42 LAT=87 APV=8 VPSP=42 LAT=87 APV=9 VPSP=42 LAT=87 GROUP=1 APV=0 VPSP=42 LAT=87 # run 12: NOT USED APV=1 VPSP=42 LAT=87 APV=2 VPSP=42 LAT=87 APV=3 VPSP=42 LAT=87 APV=4 VPSP=42 LAT=87 APV=5 VPSP=42 LAT=87 APV=6 VPSP=42 LAT=87 APV=7 VPSP=42 LAT=87 APV=8 VPSP=42 LAT=87 APV=9 VPSP=42 LAT=87 # global set for timing scan # GV's suggested program for 2/8/2012 scan: 90 to 36 by -2 # (Jan suggests 35 to 55, but I think it is "virtually impossible" that latency can be less than 26(cosmictest)+1us=63 or more than 26+2us=102 # original plan 2/7 was 37 to 60 by 1, but: # A. I'm not sure that is wide enough, based on most recent Len plots, and my independent worries we're missing it entirely # B. It runs pretty fast and we have an hour, I estimate we can do a point in 2 minutes if we arrange it carefully. 30k/400 Hz = 75 seconds, # add 10 sec to configure + 10 seconds human lag, get 36 runs done in an hour. # # trigger: BBC? or VPD? # # SCAN 90 to 36 by -2 (that's 33 runs) # begin with a test run or two (optimally, let me get us started... but, if I'm not available, start w/o me) #RDO=1 ARM=* GROUP=* APV=* LAT=87 #RDO=2 ARM=* GROUP=* APV=* LAT=87 # changed individual timings by Jan & Gerrit on Feb 10, 2011 #EOF