CMS 3D CMS Logo

/data/doxygen/doxygen-1.7.3/gen/CMSSW_4_2_8/src/Validation/Performance/scripts/cmsBenchmark.py

Go to the documentation of this file.
00001 #!/usr/bin/python
00002 """
00003 Usage: ./cmsBenchmark.py [options]
00004        
00005 Options:
00006   --cpu=...            specify the core on which to run the performance suite
00007   --cores=...          specify the number of cores of the machine (can be used with 0 to stop cmsScimark from running on the other cores)
00008   -n ..., --numevts    specify the number of events for each tests/each candle/each step
00009   --candle=...         specify the candle to run instead of all the 7 candles of the suite
00010   --step=...           specify the step to run instead of all steps of the suite
00011   --repeat=...         specify the number of times to re-run the whole suite
00012   -h, --help           show this help
00013   -d                   show debugging information
00014 
00015 Legal entries for individual candles (--candle option):
00016 HiggsZZ4LM190
00017 MinBias
00018 SingleElectronE1000
00019 SingleMuMinusPt10
00020 SinglePiMinusE1000
00021 TTbar
00022 QCD_80_120
00023 
00024 Legal entries for specific tests (--step option):
00025 GEN
00026 SIM
00027 DIGI
00028 L1
00029 DIGI2RAW
00030 HLT
00031 RAW2DIGI
00032 RECO
00033 and combinations of steps like:
00034 GEN-SIM
00035 L1-DIGI2RAW-HLT
00036 DIGI2RAW-RAW2DIGI
00037 and sequences of steps or combinations of steps like:
00038 GEN-SIM,DIGI,L1-DIGI2RAW-RAW2DIGI,RECO
00039 Note: when the necessary pre-steps are omitted, cmsPerfSuite.py will take care of it.
00040 
00041 Examples:
00042 ./cmsBenchmark.py
00043      This will run with the default options --cpu=1, --cores=4, --numevts=100, --step=GEN-SIM,DIGI,RECO --repeat=1 (Note: all results will be reported in a directory called Run1).
00044 OR
00045 ./cmsBenchmark.py --cpu=2
00046      This will run the test on core cpu2.
00047 OR
00048 ./cmsBenchmark.py --cpu=0,1 --cores=8 -n 200
00049      This will run the suite with 200 events for all tests/candles/step, on cores cpu0 and cpu1 simulataneously, while running the cmsScimark benchmarks on the other 6 cores.
00050 OR
00051 ./cmsBenchmark.py --cores=8 --repeat=10 --candle QCD_80_120 
00052      This will run the performance tests only on candle QCD_80_120, running 100 evts for all steps, and it will repeat these tests 10 times, saving the results in 10 separate directories (each called RunN, with N=1,..,10) to check for systematic/statistical uncertainties. Note that by default --repeat=1, so all results will be in a directory called Run1.
00053 OR 
00054 ./cmsBenchmark.py --step=GEN-SIM,DIGI,RECO
00055      This will run the performance tests only for the steps "GEN,SIM" (at once), "DIGI" and "RECO" taking care of running the necessary intermediate steps to make sure all steps can be run.
00056 
00057 """
00058 import os
00059 #Get some environment variables to use
00060 cmssw_base=os.environ["CMSSW_BASE"]
00061 cmssw_release_base=os.environ["CMSSW_RELEASE_BASE"]
00062 cmssw_version=os.environ["CMSSW_VERSION"]
00063 host=os.environ["HOST"]
00064 user=os.environ["USER"]
00065 
00066 #Performance suites script used:
00067 Script="cmsPerfSuite.py"
00068 
00069 #Options handling
00070 import getopt
00071 import sys
00072 
00073 def usage():
00074     print __doc__
00075 
00076 def main(argv):
00077     #Some default values:
00078     #Number of cpu cores on the machine
00079     coresOption="4"
00080     cores=" --cores=4"
00081     #Cpu core(s) on which the suite is run:
00082     cpuOption=(1) #not necessary to use tuple for single cpu, but for type consistency use ().
00083     cpu=" --cpu=1"
00084     #Number of events per test (per candle/per step):
00085     numevtsOption="100"
00086     numevts=" --timesize=100"
00087     #default benchmark does not run igprof nor valgrind
00088     igprofevts=" --igprof=0"
00089     valgrindevts=" --valgrind=0"
00090     #Default option for candle is "" since, usually all 7 candles of the suite will be run!
00091     candleOption=""
00092     candle=""
00093     #Default option for step is ["GEN,SIM","DIGI","RECO"] since we don't need to profile all steps of the suite
00094     stepOption="GEN-SIM,DIGI,RECO"
00095     step=" --step="+stepOption
00096     #Default option for repeat
00097     repeatOption=1 #Use integer here since it will be used directly in the script
00098     #Let's check the command line arguments
00099     try:
00100         opts, args = getopt.getopt(argv, "n:hd", ["cpu=","cores=","numevts=","candle=","step=","repeat=","help"])
00101     except getopt.GetoptError:
00102         print "This argument option is not accepted"
00103         usage()
00104         sys.exit(2)
00105     for opt, arg in opts:
00106         if opt in ("-h", "--help"):
00107             usage()
00108             sys.exit()
00109         elif opt == '-d':
00110             global _debug
00111             _debug = 1
00112         elif opt == "--cpu":
00113             cpuOption=arg
00114             cpus=cpuOption.split(",")
00115             cpu=" --cpu="+cpuOption
00116         elif opt == "--cores":
00117             coresOption = arg
00118         elif opt in ("-n", "--numevts"):
00119             numevtsOption = arg
00120             numevts=" --timesize="+arg
00121         elif opt == "--candle":
00122             candleOption = arg
00123             candle=" --candle="+arg
00124         elif opt == "--step":
00125             stepOption = arg
00126             steps=stepOption.split(",")
00127         elif opt == "--repeat":
00128             repeatOption = int(arg)
00129     #Case with no arguments (using defaults)
00130     if opts == []:
00131         print "No arguments given, so DEFAULT test will be run:"
00132     #Print a time stamp at the beginning:
00133     import time
00134     date=time.ctime()
00135     path=os.path.abspath(".")
00136     print "CMS Benchmarking started running at %s on %s in directory %s, run by user %s" % (date,host,path,user)
00137     #showtags=os.popen4("showtags -r")[1].read()
00138     #print showtags
00139     #For the log:
00140     print "This machine (%s) is assumed to have %s cores, and the suite will be run on cpu(s) %s" %(host,coresOption,cpuOption)
00141     print "%s events per test will be run" % numevtsOption
00142     if candleOption !="":
00143         print "Running only %s candle, instead of all the candles in the performance suite" % candleOption
00144     if stepOption != "":
00145         print "Profiling only the following steps: %s" % stepOption
00146         step=" --step="+stepOption
00147         #This "unpacking" of the steps is better done in cmsPerfSuite.py or the cmsSimPyRelVal.py (.pl for now)
00148         #steps=stepOption.split(",")
00149         #cmsPerfSuiteSteps=[]
00150         #for step in steps:
00151         #    newstep=reduce(lambda a,b:a+","+b,step.split("-"))
00152         #    cmsPerfSuiteSteps.append(newstep)
00153     if repeatOption !=1:
00154         print "The benchmarking will be repeated %s times" % repeatOption
00155     #Now let's play!
00156     for repetition in range(repeatOption):
00157         mkdircdcmd="mkdir Run"+str(repetition+1)+";cd Run"+str(repetition+1)
00158         #mkdircdstdout=os.popen4(mkdircmd)[1].read()
00159         #if mkdirstdout:
00160         #    print mkdirstdout,
00161         #print "Here we'd launch cmsPerfSuite.py!"
00162         PerfSuitecmd="cmsPerfSuite.py" + cpu + cores + numevts + igprofevts + valgrindevts + candle + step + ">& cmsPerfSuiteRun" + str(repetition + 1) + ".log"
00163         launchcmd=mkdircdcmd+";"+PerfSuitecmd
00164         print launchcmd
00165         sys.stdout.flush()
00166         #Obsolete popen4-> subprocess.Popen
00167         #launchcmdstdout=os.popen4(launchcmd)[1].read()
00168         launchcmdstdout=Popen(launchcmd,shell=True,stdout=subprocess.PIPE,stderr=subprocess.STDOUT).stdout.read()
00169         print launchcmdstdout
00170         
00171 if __name__ == "__main__":
00172     main(sys.argv[1:])