diff --git a/configs/splash2/run.mpy b/configs/splash2/run.mpy new file mode 100644 index 000000000..a19dcdc93 --- /dev/null +++ b/configs/splash2/run.mpy @@ -0,0 +1,50 @@ +import Splash2 + +if 'SYSTEM' not in env: + panic("The SYSTEM environment variable must be set!\ne.g -ESYSTEM=Detailed\n") + +if env['SYSTEM'] == 'Simple': + from SimpleConfig import * + BaseCPU.workload = Super.workload + SimpleStandAlone.cpu = [ CPU() for i in xrange(int(env['NP'])) ] + root = SimpleStandAlone +elif env['SYSTEM'] == 'Detailed': + from DetailedConfig import * + BaseCPU.workload = Super.workload + DetailedStandAlone.cpu = [ DetailedCPU() for i in xrange(int(env['NP'])) ] + root = DetailedStandAlone +else: + panic("The SYSTEM environment variable was set to something improper.\n Use Simple or Detailed\n") + +if 'BENCHMARK' not in env: + panic("The BENCHMARK environment variable must be set!\ne.g. -EBENCHMARK=Cholesky\n") + +if env['BENCHMARK'] == 'Cholesky': + root.workload = Splash2.Cholesky() +elif env['BENCHMARK'] == 'FFT': + root.workload = Splash2.FFT() +elif env['BENCHMARK'] == 'LUContig': + root.workload = Splash2.LU_contig() +elif env['BENCHMARK'] == 'LUNoncontig': + root.workload = Splash2.LU_noncontig() +elif env['BENCHMARK'] == 'Radix': + root.workload = Splash2.Radix() +elif env['BENCHMARK'] == 'Barnes': + root.workload = Splash2.Barnes() +elif env['BENCHMARK'] == 'FMM': + root.workload = Splash2.FMM() +elif env['BENCHMARK'] == 'OceanContig': + root.workload = Splash2.Ocean_contig() +elif env['BENCHMARK'] == 'OceanNoncontig': + root.workload = Splash2.Ocean_noncontig() +elif env['BENCHMARK'] == 'Raytrace': + root.workload = Splash2.Raytrace() +elif env['BENCHMARK'] == 'WaterNSquared': + root.workload = Splash2.Water_nsquared() +elif env['BENCHMARK'] == 'WaterSpatial': + root.workload = Splash2.Water_spatial() +else: + panic("The BENCHMARK environment variable was set to something" \ + +" improper.\nUse Cholesky, FFT, LUContig, LUNoncontig, Radix" \ + +", Barnes, FMM, OceanContig,\nOceanNoncontig, Raytrace," \ + +" WaterNSquared, or WaterSpatial\n")