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daq.py
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daq.py
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from classes import *
from xml.dom import minidom
#import elementtree.ElementTree
#from elementtree.ElementTree import Element, SubElement, Comment
import xml.etree.ElementTree
from xml.etree.ElementTree import Element, SubElement, Comment
import ROOT
from ROOT import TH2F, TCanvas, TTree, TBranch, TFile
#from ROOT import TGraph
import sys, select, os, array,subprocess
from array import array
#import ROOT
#from ROOT import TGraph
import datetime
saveout = sys.stdout
from optparse import OptionParser
parser = OptionParser()
parser.add_option('-s', '--setting', metavar='F', type='string', action='store',
default = 'default',
dest = 'setting',
help = 'settings ie default, testbeam etc')
parser.add_option('-C', '--calib', metavar='F', type='string', action='store',
default = 'False',
dest = 'calib',
help = 'calibration')
parser.add_option('-r', '--readout', metavar='F', type='string', action='store',
default = 'both',
dest = 'readout',
help = 'readout which data ie counters, memory, both')
parser.add_option('-f', '--format', metavar='F', type='string', action='store',
default = 'noprocessing',
dest = 'format',
help = 'memout format noprocessing, stubfinding, centroid, stripemulator ')
parser.add_option('-m', '--mpa', metavar='F', type='int', action='store',
default = 1,
dest = 'mpa',
help = 'mpa to configure (0 for all)')
parser.add_option('-c', '--charge', metavar='F', type='int', action='store',
default = 80,
dest = 'charge',
help = 'Charge for caldac')
parser.add_option('-t', '--thresh', metavar='F', type='int', action='store',
default = 90,
dest = 'thresh',
help = 'threshold')
parser.add_option('-T', '--testclock', metavar='F', type='string', action='store',
default = 'glib',
dest = 'testclock',
help = 'test beam clock')
parser.add_option('-n', '--number', metavar='F', type='int', action='store',
default = 0xF,
dest = 'number',
help = 'number of calcstrobe pulses to send')
parser.add_option('-x', '--record', metavar='F', type='string', action='store',
default = 'True',
dest = 'record',
help = 'record this daq cycle')
parser.add_option('-y', '--daqstring', metavar='F', type='string', action='store',
default = 'none',
dest = 'daqstring',
help = 'string to append on daq folder name')
parser.add_option('-z', '--monitor', metavar='F', type='string', action='store',
default = 'False',
dest = 'monitor',
help = 'start event monitor in background')
parser.add_option('-w', '--shutterdur', metavar='F', type='int', action='store',
default = 0xFFFFF,
dest = 'shutterdur',
help = 'shutter duration')
parser.add_option('-v', '--skip', metavar='F', type='string', action='store',
default = 'True',
dest = 'skip',
help = 'skip zero counts')
parser.add_option('-u', '--autospill', metavar='F', type='string', action='store',
default = 'True',
dest = 'autospill',
help = 'write every spill')
parser.add_option('-N', '--norm', metavar='F', type='string', action='store',
default = 'False',
dest = 'norm',
help = 'use normalization mpa scheme')
parser.add_option('-D', '--direction', metavar='F', type='string', action='store',
default = 'glib',
dest = 'direction',
help = 'strip direction (glib or mpa)')
parser.add_option('-L', '--loops', metavar='F', type='int', action='store',
default = -1,
dest = 'loops',
help = 'number of daq loops')
(options, args) = parser.parse_args()
sys.stdout = saveout
daqver=1
a = uasic(connection="file://connections_test.xml",device="board0")
mapsa = MAPSA(a)
firmver = a._hw.getNode("Control").getNode('firm_ver').read()
a._hw.dispatch()
print "Running firmware version " + str(firmver)
sdur = options.shutterdur
snum = options.number
sdel = 0xFFF
slen = 0xFFF
sdist = 0xFF
formarr = ['stubfinding','stripemulator' ,'centroid','noprocessing']
memmode = formarr.index(options.format)
#a._hw.getNode("Control").getNode("logic_reset").write(0x1)
#a._hw.dispatch()
a._hw.getNode("Control").getNode("MPA_clock_enable").write(0x1)
a._hw.dispatch()
mpa_number = options.mpa
mpa_index = mpa_number-1
nmpas=1
mpa = []
for i in range(1,7):
mpa.append(mapsa.getMPA(i))
rbuffer=1
timestr = datetime.datetime.now().time().isoformat().replace(":","").replace(".","")
if options.daqstring!='':
dstr= '_'+options.daqstring
foldername = 'daqout_'+options.setting+'_'+options.format+'_'+timestr+dstr
CE=0
if options.calib == 'True':
CE=1
if options.readout=='both':
AR=1
SR=1
readmode = 0x1
if options.readout=='counters':
AR=1
SR=0
readmode = 0x0
if options.readout=='memory':
AR=0
SR=1
readmode = 0x1
shutters=0
cntsperspill = 0.
Startspill=True
if options.norm == 'False':
thdac = [options.thresh,options.thresh,options.thresh,options.thresh,options.thresh,options.thresh]
else:
thdac = [options.thresh,90,options.thresh,90,options.thresh,90]
Endloop = False
spillnumber = 0
confdict = {'OM':[memmode]*6,'RT':[0]*6,'SCW':[0]*6,'SH2':[0]*6,'SH1':[0]*6,'THDAC':thdac,'CALDAC':[options.charge]*6,'PML':[1]*6,'ARL':[AR]*6,'CEL':[CE]*6,'CW':[0]*6,'PMR':[1]*6,'ARR':[AR]*6,'CER':[CE]*6,'SP':[0]*6,'SR':[SR]*6,'TRIMDACL':[None]*6,'TRIMDACR':[None]*6}
if options.record=='True':
timestr = datetime.datetime.now().time().isoformat().replace(":","").replace(".","")
foldername = 'daqout_'+options.setting+'_'+options.format+'_'+timestr+dstr
commands = []
commands.append('mkdir daqlogs')
commands.append('mkdir daqlogs/'+foldername)
commands.append('cp -r data daqlogs/'+foldername)
logfname = 'daqlogs/'+foldername+'/log_'+timestr+'.log'
if options.monitor=='True':
commands.append('python show.py '+logfname+' &')
for s in commands :
print 'executing ' + s
subprocess.call( [s], shell=True )
tree_vars = {}
tree_vars["SPILL"] = array('L',[0])
#tree_vars["TIMESTAMP"] = array('L',[0])
if options.setting == 'testbeam':
tree_vars["TRIG_COUNTS_SHUTTER"] = array('L',[0])
tree_vars["TRIG_COUNTS_TOTAL_SHUTTER"] = array('L',[0])
tree_vars["TRIG_COUNTS_TOTAL"] = array('L',[0])
tree_vars["TRIG_OFFSET_BEAM"] = array('L',[0]*2048)
tree_vars["TRIG_OFFSET_MPA"] = array('L',[0]*2048)
for i in range(0,6):
tree_vars["AR_MPA_"+str(i)] = array('L',[0]*48)
if options.readout=='both':
tree_vars["SR_BX_MPA_"+str(i)] = array('L',[0]*96)
tree_vars["SR_MPA_"+str(i)] = array('L',[0]*96)
F = TFile('daqlogs/'+foldername+'/output.root','recreate')
tree=TTree("Tree","Tree")
for key in tree_vars.keys():
if "SR" in key:
tree.Branch(key,tree_vars[key],key+"[96]/l")
if "AR" in key:
tree.Branch(key,tree_vars[key],key+"[48]/l")
if "TRIG_OFFSET" in key:
tree.Branch(key,tree_vars[key],key+"[2048]/l")
if "TRIG_COUNTS" in key:
tree.Branch(key,tree_vars[key],key+"[1]/l")
Outf1 = open(logfname, 'w')
sys.stdout = Outf1
print "Firmware Version " + str(firmver)
print "DAQ Version " + str(daqver)
print
print "Options summary"
print "=================="
for opt,value in options.__dict__.items():
print str(opt) +': '+ str(value)
print "=================="
print
print "---------------------------------------------------------------------------"
print "----------------------------Starting Datataking----------------------------"
print "---------------------------------------------------------------------------"
print
else:
Outf1 = saveout
Kill=False
mapsa.daq().Strobe_settings(snum,sdel,slen,sdist,CE)
if options.setting == 'manual':
bufferdata=[]
if options.autospill == 'True':
sys.stdout = saveout
print "Starting DAQ loop. Press Enter to quit"
#raw_input("...")
sys.stdout = Outf1
while Endloop == False:
Endspill = False
Startspill=True
while Endspill == False:
zeroshutters=0
cntsperspill = 0
Startspill=True
spillnumber+=1
sys.stdout = saveout
print "Starting spill " + str(spillnumber)
sys.stdout = Outf1
print
print
print "---------------------------------------------------------------------------"
print "-----------------------------Starting spill " + str(spillnumber)+"------------------------------"
print "---------------------------------------------------------------------------"
print
sys.stdout = saveout
config = mapsa.config(Config=1,string='calibrated')
config.upload()
config.modifyfull(confdict)
while True:
if sys.stdin in select.select([sys.stdin], [], [], 0)[0] :
line = raw_input()
print "Ending loop"
Endspill = True
Endloop = True
break
if zeroshutters>=20:
print "Spill "+str(spillnumber)
Endspill = True
if options.autospill == 'False':
Endloop = True
break
shutters+=1
print
print "---------------------------------------------------------------------------"
print "Total shutters "+str(shutters)
sys.stdout = saveout
print "Total shutters "+str(shutters)
sys.stdout = Outf1
print "Timestamp: " + str(datetime.datetime.now().time().isoformat().replace(":","").replace(".",""))
mapsa.daq().Sequencer_init(0x0,sdur,mem=1)
#print mem
sys.stdout = saveout
pix,mem = mapsa.daq().read_data(1)
sys.stdout = Outf1
parray = []
marray = []
cntspershutter = 0
for i in range(0,6):
pix[i].pop(0)
pix[i].pop(0)
parray.append(pix[i])
sys.stdout = saveout
marray.append(mpa[i].daq().read_memory(mem[i],memmode))
sys.stdout = Outf1
cntsperspill += sum(pix[i])
cntspershutter += sum(pix[i])
sys.stdout = saveout
print "Total counts: " + str(cntsperspill)
print "Counts this shutter: " + str(cntspershutter)
sys.stdout = Outf1
if cntsperspill>100.:
Startspill=False
if cntspershutter == 0 and options.skip=='True':
sys.stdout = saveout
sys.stdout = Outf1
if Startspill==False:
zeroshutters+=1
continue
if AR:
print "Counter output"
i=0
temp_vars = {}
for p in parray:
sys.stdout = Outf1
print p
print ""
sys.stdout = saveout
temp_vars["AR_MPA_"+str(i)]=p
i+=1
ipix=0
sys.stdout = Outf1
if SR:
print "Memory output"
i=0
for memo in marray:
memfilt0 = []
memfilt1 = []
for imemo in range(0,len(memo[0])):
if memo[0][imemo]==bufferdata[imemo]:
break
memfilt0.append(memo[0][imemo])
memfilt1.append(memo[1][imemo])
print "BX:"+str(memfilt0)
print "Data:"+str(memfilt1)
print ""
sys.stdout = saveout
BXmemo = np.array(memfilt0)
DATAmemo = np.array(memfilt1)
DATAmemoint = []
for DATAmem in DATAmemo:
DATAmemoint.append(long(DATAmem,2))
temp_vars["SR_BX_MPA_"+str(i)]=BXmemo
temp_vars["SR_MPA_"+str(i)]=DATAmemoint
sys.stdout = Outf1
i+=1
bufferdata=memo[0]
temp_vars["SPILL"] = [spillnumber]
for tv in tree_vars.keys():
sys.stdout = saveout
for i in range(0,len(temp_vars[tv])):
tree_vars[tv][i] = temp_vars[tv][i]
sys.stdout = Outf1
tree.Fill()
print "---------------------------------------------------------------------------"
F.Write()
F.Close()
if options.setting == 'strip':
sys.stdout = saveout
print "Starting DAQ loop. Press Enter to quit"
#raw_input("...")
confdict = {'OM':[memmode]*6,'RT':[0]*6,'SCW':[0]*6,'SH2':[0]*6,'SH1':[0]*6,'THDAC':thdac,'CALDAC':[options.charge]*6,'PML':[0,0,0,0,0,0],'ARL':[AR]*6,'CEL':[CE]*6,'CW':[0]*6,'PMR':[0,0,0,0,0,0],'ARR':[AR]*6,'CER':[CE]*6,'SP':[0]*6,'SR':[SR]*6,'TRIMDACL':[None]*6,'TRIMDACR':[None]*6}
config = mapsa.config(Config=1,string='calibrated')
config.upload()
config.modifyfull(confdict)
config.upload()
a._hw.dispatch()
confdict = {'OM':[memmode]*6,'RT':[0]*6,'SCW':[0]*6,'SH2':[0]*6,'SH1':[0]*6,'THDAC':thdac,'CALDAC':[options.charge]*6,'PML':[1,0,0,0,0,0],'ARL':[AR]*6,'CEL':[CE]*6,'CW':[0]*6,'PMR':[0,0,0,0,0,0],'ARR':[AR]*6,'CER':[CE]*6,'SP':[0]*6,'SR':[SR]*6,'TRIMDACL':[None]*6,'TRIMDACR':[None]*6}
config.modifyfull(confdict,pixels=[5,6])
config.upload()
a._hw.dispatch()
#config.modifypixel( 5,['PML'],[1]*6)
#config._confs[0].upload()
#config.upload()
a._hw.dispatch()
mapsa.daq().header_init()
iread=0
cntsperspill = 0
mpasettings = a._hw.getNode("Utility").getNode("MPA_settings").read()
mpasettingsread = a._hw.getNode("Utility").getNode("MPA_settings_read").read()
#a._hw.getNode("Control").getNode("strip_phase").write(0)
#a._hw.getNode("Utility").getNode("MPA_settings").getNode('strip_direction').write(0)
a._hw.dispatch()
#if options.direction=='glib':
# print "writing glib"
# a._hw.getNode("Strip").getNode("enable_TEMP").write(0x00)
# a._hw.dispatch()
#if options.direction=='mpa':
# print "writing mpa"
a._hw.getNode("Strip").getNode("enable").write(0x3F)
a._hw.dispatch()
read1 = a._hw.getNode("Strip").getNode("enable").read()
a._hw.dispatch()
numloops=0
while True:
if options.loops!=-1:
if numloops>=options.loops:
Kill=True
if sys.stdin in select.select([sys.stdin], [], [], 0)[0] or Kill:
line = raw_input()
print "Ending loop"
Endspill = True
Endloop = True
break
confdict = {'OM':[memmode]*6,'RT':[0]*6,'SCW':[0]*6,'SH2':[0]*6,'SH1':[0]*6,'THDAC':thdac,'CALDAC':[options.charge]*6,'PML':[0,0,0,0,0,0],'ARL':[AR]*6,'CEL':[CE]*6,'CW':[0]*6,'PMR':[0,0,0,0,0,0],'ARR':[AR]*6,'CER':[CE]*6,'SP':[0]*6,'SR':[SR]*6,'TRIMDACL':[None]*6,'TRIMDACR':[None]*6}
config.modifyfull(confdict)
config.upload()
a._hw.dispatch()
confdict = {'OM':[memmode]*6,'RT':[0]*6,'SCW':[0]*6,'SH2':[0]*6,'SH1':[0]*6,'THDAC':thdac,'CALDAC':[options.charge]*6,'PML':[1,0,0,0,0,0],'ARL':[AR]*6,'CEL':[CE]*6,'CW':[0]*6,'PMR':[0,0,0,0,0,0],'ARR':[AR]*6,'CER':[CE]*6,'SP':[0]*6,'SR':[SR]*6,'TRIMDACL':[None]*6,'TRIMDACR':[None]*6}
config.modifyfull(confdict,pixels=[numloops,numloops+1])
config.upload()
a._hw.dispatch()
stripread = a._hw.getNode("Strip").getNode("enable").read()
print "new event"
a._hw.getNode("Control").getNode("full_flag").write(0x1)
a._hw.dispatch()
mpasettings = a._hw.getNode("Utility").getNode("MPA_settings").read()
mpasettingsread = a._hw.getNode("Utility").getNode("MPA_settings_read").read()
a._hw.dispatch()
#print "MPA settings"
#print binary(mpasettings)
#print "MPA settings read"
#print binary(mpasettingsread)
#print "strip enable register"
#print binary(stripread)
#print "Current Configuration:"
#print confdict
#print
mapsa.daq().Sequencer_init(0x0,sdur,mem=1)
pix,mem = mapsa.daq().read_data(1)
print 'reading counts'
parray = []
marray = []
"""for i in range(0,6):
pix[i].pop(0)
pix[i].pop(0)
parray.append(pix[i])
#marray.append(mpa[i].daq().read_memory(mem[i],memmode))
print pix[i]"""
for i in range(0,1):
pix[i].pop(0)
pix[i].pop(0)
#marray.append(mpa[i].daq().read_memory(mem[i],memmode))
rows = [0]*16,[0]*16,[0]*16
for ipixel in range(0,len(pix[i])):
if 0<ipixel<16:
rows[0][ipixel]= pix[i][ipixel]
if 16<ipixel<31:
rows[1][31-ipixel]= pix[i][ipixel]
if 31<ipixel<46:
rows[2][-31+ipixel]= pix[i][ipixel]
for r in rows:
print str(r).replace('[','').replace(']','').replace(',','')
#print mem[1]
write1 = a._hw.getNode("Strip").getNode("write_address").getNode("MPA1").read()
write2 = a._hw.getNode("Strip").getNode("write_address").getNode("MPA2").read()
write3 = a._hw.getNode("Strip").getNode("write_address").getNode("MPA3").read()
write4 = a._hw.getNode("Strip").getNode("write_address").getNode("MPA4").read()
write5 = a._hw.getNode("Strip").getNode("write_address").getNode("MPA5").read()
write6 = a._hw.getNode("Strip").getNode("write_address").getNode("MPA6").read()
strip1 = a._hw.getNode("Strip").getNode("buffer_in").getNode("MPA1").readBlock(0x400)
strip2 = a._hw.getNode("Strip").getNode("buffer_in").getNode("MPA2").readBlock(0x400)
strip3 = a._hw.getNode("Strip").getNode("buffer_in").getNode("MPA3").readBlock(0x400)
strip4 = a._hw.getNode("Strip").getNode("buffer_in").getNode("MPA4").readBlock(0x400)
strip5 = a._hw.getNode("Strip").getNode("buffer_in").getNode("MPA5").readBlock(0x400)
strip6 = a._hw.getNode("Strip").getNode("buffer_in").getNode("MPA6").readBlock(0x400)
out1 = a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA1").read()
out2 = a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA2").read()
out3 = a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA3").read()
out4 = a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA4").read()
out5 = a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA5").read()
out6 = a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA6").read()
a._hw.dispatch()
stripf = []
print "counts"
for strip in [strip1,strip2,strip3,strip4,strip5,strip6]:
temparr = []
for iel in range(0,len(strip)):
temparr.append(binary(strip[iel])[-16:])
stripf.append(temparr)
print
#print "MPA1"
#print "strip write address"
#print hex(write1)
#print "number of strip words"
#print write1>>2
print "strips"
#print stripf[0][1]
#print
for strip in stripf[0]:
if strip!='0000000000000000':
print strip
break
#print stripf[0][0]
#print stripf[0][1]
# print "out buffer"
# print out1
print
"""print "MPA2"
print "strip write address"
print hex(write2)
#print "strip words"
#print write2>>2
print "strip words"
for strip in stripf[1]:
if strip!='0000000000000000':
print strip
print "out buffer"
print out2
print
print "MPA3"
print "strip write address"
print hex(write3)
print "strip words"
for strip in stripf[2]:
if strip!='0000000000000000':
print strip
print "out buffer"
print out3
print
print "MPA4"
print "strip write address"
print hex(write4)
print "strip words"
for strip in stripf[3]:
if strip!='0000000000000000':
print strip
print "out buffer"
print out4
print
print "MPA5"
print "strip write address"
print hex(write5)
print "strip words"
for strip in stripf[4]:
if strip!='0000000000000000':
print strip
print "out buffer"
print out5
print
print "MPA6"
print "strip write address"
print hex(write6)
print "strip words"
for strip in stripf[5]:
if strip!='0000000000000000':
print strip
print "out buffer"
print out6
print
print "-------------------------------"
print """
numloops+=1
if options.setting == 'stripinput':
sys.stdout = saveout
print "Starting DAQ loop. Press Enter to quit"
#raw_input("...")
confdict = {'OM':[memmode]*6,'RT':[0]*6,'SCW':[0]*6,'SH2':[0]*6,'SH1':[0]*6,'THDAC':thdac,'CALDAC':[options.charge]*6,'PML':[1,1,1,1,1,1],'ARL':[AR]*6,'CEL':[CE]*6,'CW':[0]*6,'PMR':[1,1,1,1,1,1],'ARR':[AR]*6,'CER':[CE]*6,'SP':[0]*6,'SR':[SR]*6,'TRIMDACL':[None]*6,'TRIMDACR':[None]*6}
breakout=False
config = mapsa.config(Config=1,string='calibrated')
config.upload()
config.modifyfull(confdict)
config.upload()
a._hw.dispatch()
#config.modifypixel( 5,['PML'],[1]*6)
#config._confs[0].upload()
#config.upload()
#a._hw.dispatch()
mapsa.daq().header_init()
iread=0
cntsperspill = 0
#mpasettingsread = a._hw.getNode("Utility").getNode("MPA_settings_read").read()
#a._hw.getNode("Control").getNode("strip_phase").write(0)
a._hw.getNode("Utility").getNode("MPA_settings").getNode('strip_direction').write(0x3F)
a._hw.dispatch()
a._hw.getNode("Strip").getNode("enable").write(0x0)
a._hw.dispatch()
sphase = 0
numloops=0
while True:
#print sphase
sphase+=1
if sphase>375:
sphase=0
a._hw.getNode("Control").getNode("strip_phase").write(sphase)
a._hw.dispatch()
print sphase
if options.loops!=-1:
if numloops>=options.loops:
Kill=True
if sys.stdin in select.select([sys.stdin], [], [], 0)[0] or Kill:
line = raw_input()
print "Ending loop"
Endspill = True
Endloop = True
break
#confdict = {'OM':[memmode]*6,'RT':[1]*6,'SCW':[1]*6,'SH2':[2]*6,'SH1':[2]*6,'THDAC':thdac,'CALDAC':[options.charge]*6,'PML':[0,0,0,0,0,0],'ARL':[AR]*6,'CEL':[CE]*6,'CW':[2]*6,'PMR':[0,0,0,0,0,0],'ARR':[AR]*6,'CER':[CE]*6,'SP':[0]*6,'SR':[SR]*6,'TRIMDACL':[None]*6,'TRIMDACR':[None]*6}
#config.modifyfull(confdict)
#config.upload()
#a._hw.dispatch()
#confdict = {'OM':[memmode]*6,'RT':[1]*6,'SCW':[1]*6,'SH2':[2]*6,'SH1':[2]*6,'THDAC':thdac,'CALDAC':[options.charge]*6,'PML':[1,1,1,1,1,1],'ARL':[AR]*6,'CEL':[CE]*6,'CW':[2]*6,'PMR':[1,1,1,1,1,1],'ARR':[AR]*6,'CER':[CE]*6,'SP':[0]*6,'SR':[SR]*6,'TRIMDACL':[None]*6,'TRIMDACR':[None]*6}
#config.modifyfull(confdict,pixels=[numloops,numloops+1])
#config.upload()
#a._hw.dispatch()
print "new event"
#a._hw.getNode("Control").getNode("full_flag").write(0x1)
#a._hw.dispatch()
#mpasettings = a._hw.getNode("Utility").getNode("MPA_settings").read()
#mpasettingsread = a._hw.getNode("Utility").getNode("MPA_settings_read").read()
#a._hw.dispatch()
#print "MPA settings"
#print binary(mpasettings)
#print "MPA settings read"
#print binary(mpasettingsread)
#print "strip enable register"
#print binary(stripread)
#print "Current Configuration:"
#print confdict
#print
a._hw.getNode("Utility").getNode("MPA_settings").getNode('strip_direction').write(0x3F)
a._hw.dispatch()
a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA1").write(0x810)
a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA2").write(0x810)
a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA3").write(0x810)
a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA4").write(0x810)
a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA5").write(0x810)
a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA6").write(0x810)
a._hw.dispatch()
a._hw.getNode("Strip").getNode("write").write(0x3F)
a._hw.dispatch()
mapsa.daq().Sequencer_init(0x0,sdur,mem=1)
pix,mem = mapsa.daq().read_data(1)
print 'reading counts'
parray = []
marray = []
#print mem
for i in range(0,6):
pix[i].pop(0)
pix[i].pop(0)
parray.append(pix[i])
marray.append(mpa[i].daq().read_memory(mem[i],memmode))
print marray
for i in range(0,6):
#pix[i].pop(0)
#pix[i].pop(0)
#marray.append(mpa[i].daq().read_memory(mem[i],memmode))
rows = [0]*16,[0]*16,[0]*16
for ipixel in range(0,len(pix[i])):
if 0<=ipixel<16:
rows[0][ipixel]= pix[i][ipixel]
if 16<=ipixel<32:
rows[1][31-ipixel]= pix[i][ipixel]
if 32<=ipixel<48:
rows[2][-32+ipixel]= pix[i][ipixel]
for r in rows:
print str(r).replace('[','').replace(']','').replace(',','')
for me in mem:
print me[0]
for m in me:
if m!='000000000000000000000000000000000000000000000000000000000000000000000000' and m!='00000000000000000000000000000000000000000000000000000000000000000000000':
print m
breakout=True
if breakout:
break
#a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA1").write(0xFFFF)
#a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA2").write(0xFFFF)
#a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA3").write(0xFFFF)
#a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA4").write(0xFFFF)
#a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA5").write(0xFFFF)
#a._hw.getNode("Strip").getNode("buffer_out").getNode("MPA6").write(0xFFFF)
stripf = []
print
numloops+=1
if options.setting == 'testbeam' or options.setting == 'default':
sys.stdout = saveout
print "Starting DAQ loop. Press Enter to quit"
#raw_input("...")
sys.stdout = Outf1
config = mapsa.config(Config=1,string='calibrated')
config.upload()
config.modifyfull(confdict)
if options.setting == 'testbeam':
polltime = 5000
a._hw.getNode("Shutter").getNode("time").write(options.shutterdur)
a._hw.dispatch()
mapsa.daq().Testbeam_init(clock=options.testclock ,calib=0x0)
mapsa.daq().header_init()
if options.setting == 'default':
polltime = 200
mapsa.daq().Sequencer_init(0x1,sdur,mem=1)
mapsa.daq().header_init()
time.sleep(0.1)
for cbuff in range(1,5):
cpix,cmem = mapsa.daq().read_data(cbuff,wait=False)
if options.setting == 'testbeam':
ctotal_triggers,ctrigger_counter,ctrigger_total_counter,cOffset_BEAM,cOffset_MPA = mapsa.daq().read_trig(cbuff)
time.sleep(0.1)
ibuffer=1
iread=0
Endrun = False
zeroshutters = 0
poll = 0
while Endrun == False:
Endspill = False
Startspill=True
cntsperspill = 0
spillnumber+=1
sys.stdout = saveout
print "Starting spill " + str(spillnumber)
start = time.time()
sys.stdout = Outf1
print
print
print "---------------------------------------------------------------------------"
print "-----------------------------Starting spill " + str(spillnumber)+"------------------------------"
print "---------------------------------------------------------------------------"
print
sys.stdout = saveout
while Endspill == False:
buffers_num = a._hw.getNode("Control").getNode('Sequencer').getNode('buffers_num').read()
spill = a._hw.getNode("Control").getNode('Sequencer').getNode('spill').read()
buffers_index = a._hw.getNode("Control").getNode('Sequencer').getNode("buffers_index").read()
a._hw.dispatch()
sys.stdout = saveout
#print buffers_num
if sys.stdin in select.select([sys.stdin], [], [], 0)[0]:
for ibuffer in range(1,5):
pix,mem = mapsa.daq().read_data(ibuffer,wait=False)
a._hw.getNode("Control").getNode('testbeam_mode').write(0x0)
line = raw_input()
print "Ending loop"
Endrun = True
Endspill = True
break
poll += 1
if poll % polltime == 0:
sys.stdout = saveout
cur = time.time()
if Startspill==True:
print "Waiting for spill for " +str(cur-start)+ " seconds"
if Startspill==False:
if cur-start>3.:
print "Spill ended"
Endspill == True
if options.setting == 'testbeam':
Endrun = True
break
else:
print "Idle for " +str(cur-start)+ " seconds"
if buffers_num<4:
shutters+=1
iread+=1
sys.stdout = saveout
#print "Buffer index pre trig " + str(buffers_index)
#time.sleep(0.001)
if options.setting == 'testbeam':
total_triggers,trigger_counter,trigger_total_counter,Offset_BEAM,Offset_MPA = mapsa.daq().read_trig(ibuffer)
pix,mem = mapsa.daq().read_data(ibuffer,wait=False)
#print buffers_num
sys.stdout = Outf1
parray = []
marray = []
cntspershutter = 0
for i in range(0,6):
pix[i].pop(0)
pix[i].pop(0)
parray.append(pix[i])
cntspershutter+=sum(pix[i])
sys.stdout = saveout
marray.append(mpa[i].daq().read_memory(mem[i],memmode))
sys.stdout = Outf1
if cntspershutter != 0 or options.setting == 'testbeam':
print "Reading buffer: " + str(ibuffer)
sys.stdout = saveout
print "Reading buffer: " + str(ibuffer)
sys.stdout = Outf1
ibuffer+=1
if ibuffer >4:
ibuffer=1
if cntsperspill>60.:
Startspill=False
if cntspershutter == 0 and options.skip=='True' and options.setting != 'testbeam':
continue
if options.setting == 'testbeam':
offdat = []
#To fix
offsetbeam = [0]*2048
offsetmpa = [0]*2048
sys.stdout = saveout
for i in range(0,trigger_counter):
offsetbeam[i] = Offset_BEAM[i]
offdat.append(1000*(Offset_BEAM[i]-Offset_BEAM[0])/26.5)
offsetmpa[i] = Offset_MPA[i]