bayesiancnn/run_service.py

137 lines
3.7 KiB
Python
Executable File

import psutil
import pickle
import arguments
from time import sleep
#from pathlib import Path
import subprocess as sub
from arguments import makeArguments
def kill(proc_pid):
process = psutil.Process(proc_pid)
for proc in process.children(recursive=True):
proc.kill()
process.kill()
cfg = {
"model": {"net_type": None, "type": None, "size": None, "layer_type":
"lrt", "activation_type": "softplus", "priors": {
'prior_mu': 0,
'prior_sigma': 0.1,
'posterior_mu_initial': (0, 0.1), # (mean,std) normal_
'posterior_rho_initial': (-5, 0.1), # (mean,std) normal_
},
"n_epochs": 100,
"sens": 1e-9,
"energy_thrs": 10000,
"acc_thrs": 0.99,
"lr": 0.001,
"num_workers": 4,
"valid_size": 0.2,
"batch_size": 256,
"train_ens": 1,
"valid_ens": 1,
"beta_type": 0.1, # 'Blundell','Standard',etc.
# Use float for const value
},
"data": None,
"stopping_crit": None,
"save": None,
"pickle_path": None,
}
args = makeArguments(arguments.all_args)
check = list(args.values())
if all(v is None for v in check):
raise Exception("One argument required")
elif None in check:
if args['f'] is not None:
cmd = ["python", "main_frequentist.py"]
cfg["model"]["type"] = "freq"
elif args['b'] is not None:
cmd = ["python", "main_bayesian.py"]
cfg["model"]["type"] = "bayes"
else:
raise Exception("Only one argument allowed")
wide = args["f"] or args["b"]
cfg["model"]["size"] = wide
cfg["data"] = args["dataset"]
cfg["model"]["net_type"] = args["net_type"]
if args['EarlyStopping']:
cfg["stopping_crit"] = 2
elif args['EnergyBound']:
cfg["stopping_crit"] = 3
elif args['AccuracyBound']:
cfg["stopping_crit"] = 4
else:
cfg["stopping_crit"] = 1
if args['Save']:
cfg["save"] = 1
else:
cfg["save"] = 0
cfg["pickle_path"] = "{}_wattdata_{}.pkl".format(cfg["model"]["type"],
cfg["model"]["size"])
with open("configuration.pkl", "wb") as f:
pickle.dump(cfg, f)
# print(args)
# print(cfg)
sleep(3)
cpu_watt = "cpu_watt.sh"
ram = "mem_free.sh"
gpu = "radeontop.sh"
#path_cpu_watt = Path(cpu_watt)
#path_ram = Path(ram)
#path_gpu = Path(gpu)
#path_cpu_watt = str(Path(cpu_watt).absolute()) + '/' + cpu_watt
#path_ram = str(Path(ram).absolute()) + '/' + ram
#path_gpu = str(Path(gpu).absolute()) + '/' + gpu
if cmd[1] == "main_frequentist.py":
cmd2 = ['./'+cpu_watt, "freq_{}_cpu_watts".format(wide)]
cmd3 = ['./'+ram, "freq_{}_ram_use".format(wide)]
cmd4 = ['./'+gpu, "freq_{}_flop_app".format(wide)]
elif cmd[1] == "main_bayesian.py":
cmd2 = ['./'+cpu_watt, "bayes_{}_cpu_watts".format(wide)]
cmd3 = ['./'+ram, "bayes_{}_ram_use".format(wide)]
cmd4 = ['./'+gpu, "bayes_{}_flop_app".format(wide)]
path = sub.check_output(['pwd'])
path = path.decode()
path = path.replace('\n', '')
startWattCounter = 'python ' + path + '/amd_sample_draw.py'
p1 = sub.Popen(cmd)
p2 = sub.Popen(startWattCounter.split(), stdin=sub.PIPE, stdout=sub.PIPE,
stderr=sub.PIPE)
p3 = sub.Popen(cmd2, stdin=sub.PIPE, stdout=sub.PIPE, stderr=sub.PIPE)
p4 = sub.Popen(cmd3, stdin=sub.PIPE, stdout=sub.PIPE, stderr=sub.PIPE)
p5 = sub.Popen(cmd4, stdin=sub.PIPE, stdout=sub.PIPE, stderr=sub.PIPE)
retcode = p1.wait()
print("Return code: {}".format(retcode))
p1.kill()
kill(p2.pid)
kill(p3.pid)
kill(p4.pid)
kill(p5.pid)