for pid, vals in unit_info.iteritems():
if "Terminated" in vals.keys():
line = "{0}, {1}, {2:0.5f}, {3:0.5f}, None\n".format(pid, vals["Interrupt"], vals["Started"],vals["Terminated"])
f1.write(line)
elif "Done" in vals.keys():
line = "{0}, None, {1:0.5f}, None, {2:0.5f}\n".format(pid, vals["Started"],vals["Done"])
f1.write(line)
f1.close()
import radical.pilot.utils as rpu
# we have a session
sid = session.uid
profiles = rpu.fetch_profiles(sid=sid, tgt='/tmp/')
profile = rpu.combine_profiles (profiles)
frame = rpu.prof2frame(profile)
sf, pf, uf = rpu.split_frame(frame)
rpu.add_info(uf)
rpu.add_states(uf)
adv = uf[uf['event'].isin(['advance'])]
rpu.add_frequency(adv, 'f_exe', 0.5, {'state' : 'Executing', 'event' : 'advance'})
s_frame, p_frame, u_frame = rpu.get_session_frames(sid)
print str(u_frame)
def preprocess(sid):
session_dir = os.path.join(PICKLE_DIR, sid)
if os.path.isdir(session_dir):
report.warn("Session dir '%s' already exists, skipping session." %
session_dir)
return
try:
sid_profiles = find_profiles(sid)
print sid_profiles
report.info("Combining profiles for session: %s.\n" % sid)
combined_profiles = rpu.combine_profiles(sid_profiles)
uids = set()
for p in combined_profiles:
uids.add(p['uid'])
report.info("Converting profiles to frames for session: %s.\n" % sid)
frames = rpu.prof2frame(combined_profiles)
print frames
report.info("Head of Combined DF for session %s:\n" % sid)
print frames.entity.unique()
ses_prof_fr, pilot_prof_fr, cu_prof_fr = rpu.split_frame(frames)
report.info("Head of CU Profiling DF for session %s:\n" % sid)
print cu_prof_fr.head()
report.info("Head of Session DF for session %s:\n" % sid)
ses_prof_fr.insert(0, 'sid', sid)
print ses_prof_fr.head()
report.info("Head of Pilot DF for session %s:\n" % sid)
pilot_prof_fr.insert(0, 'sid', sid)
print pilot_prof_fr.head()
report.info("Head of CU DF for session %s:\n" % sid)
rpu.add_states(cu_prof_fr)
report.info("Head of CU DF for session %s (after states added):\n" %
sid)
print cu_prof_fr.head()
report.info("Head of CU DF for session %s (after info added):\n" % sid)
rpu.add_info(cu_prof_fr)
print cu_prof_fr.head()
report.info(
"Head of CU DF for session %s (after concurrency added):\n" % sid)
# Add a column with the number of concurrent populating the database
spec = {
'in': [{
'state': rps.STAGING_INPUT,
'event': 'advance'
}],
'out': [{
'state': rps.AGENT_STAGING_INPUT_PENDING,
'event': 'advance'
}, {
'state': rps.FAILED,
'event': 'advance'
}, {
'state': rps.CANCELED,
'event': 'advance'
}]
}
rpu.add_concurrency(cu_prof_fr, 'cc_populating', spec)
# Add a column with the number of concurrent staging in units
spec = {
'in': [{
'state': rps.AGENT_STAGING_INPUT,
'event': 'advance'
}],
'out': [{
'state': rps.ALLOCATING_PENDING,
'event': 'advance'
}, {
'state': rps.FAILED,
'event': 'advance'
}, {
'state': rps.CANCELED,
'event': 'advance'
}]
}
rpu.add_concurrency(cu_prof_fr, 'cc_stage_in', spec)
# Add a column with the number of concurrent scheduling units
spec = {
'in': [{
'state': rps.ALLOCATING,
'event': 'advance'
}],
'out': [{
'state': rps.EXECUTING_PENDING,
'event': 'advance'
}, {
'state': rps.FAILED,
'event': 'advance'
}, {
'state': rps.CANCELED,
'event': 'advance'
}]
}
rpu.add_concurrency(cu_prof_fr, 'cc_sched', spec)
# Add a column with the number of concurrent Executing units
spec = {
'in': [{
'state': rps.EXECUTING,
'event': 'advance'
}],
'out': [{
'state': rps.AGENT_STAGING_OUTPUT_PENDING,
'event': 'advance'
}, {
'state': rps.FAILED,
'event': 'advance'
}, {
'state': rps.CANCELED,
'event': 'advance'
}]
}
rpu.add_concurrency(cu_prof_fr, 'cc_exec', spec)
# Add a column with the number of concurrent Executing units
spec = {
'in': [{
'state': rps.AGENT_STAGING_OUTPUT,
'event': 'advance'
}],
'out': [{
'state': rps.PENDING_OUTPUT_STAGING,
'event': 'advance'
}, {
'state': rps.FAILED,
'event': 'advance'
}, {
'state': rps.CANCELED,
'event': 'advance'
}]
}
rpu.add_concurrency(cu_prof_fr, 'cc_stage_out', spec)
print cu_prof_fr.head()
report.info("Head of CU DF for session %s (after sid added):\n" % sid)
cu_prof_fr.insert(0, 'sid', sid)
print cu_prof_fr.head()
report.info("CU DF columns for session %s:\n" % sid)
print cu_prof_fr['info'].unique()
# transpose
report.info("Head of Transposed CU DF for session %s:\n" % sid)
tr_cu_prof_fr = rpu.get_info_df(cu_prof_fr)
tr_cu_prof_fr.insert(0, 'sid', sid)
print tr_cu_prof_fr.head()
report.info("Head of json Docs for session %s:\n" % sid)
ses_info_fr, pilot_info_fr, unit_info_fr = json2frame(db=None, sid=sid)
print ses_info_fr.head()
except Exception as e:
report.error("Failed to pre-process data for session %s (%s)" %
(sid, e))
return
report.header("Writing dataframes to disk.\n")
try:
os.mkdir(session_dir)
tr_cu_prof_fr.to_pickle(os.path.join(session_dir, 'tr_unit_prof.pkl'))
ses_info_fr.to_pickle(os.path.join(session_dir, 'session_info.pkl'))
pilot_info_fr.to_pickle(os.path.join(session_dir, 'pilot_info.pkl'))
unit_info_fr.to_pickle(os.path.join(session_dir, 'unit_info.pkl'))
ses_prof_fr.to_pickle(os.path.join(session_dir, 'session_prof.pkl'))
pilot_prof_fr.to_pickle(os.path.join(session_dir, 'pilot_prof.pkl'))
cu_prof_fr.to_pickle(os.path.join(session_dir, 'unit_prof.pkl'))
except Exception as e:
report.error("Failed to write data: %s" % e)
return
units.remove(unit)
# Wait for processes to finish
uids = [cu.uid for cu in units]
umgr.wait_units(uids)
session.close(cleanup=False)
import radical.pilot.utils as rpu
# we have a session
sid = session.uid
profiles = rpu.fetch_profiles(sid=sid, tgt='/tmp/')
profile = rpu.combine_profiles(profiles)
frame = rpu.prof2frame(profile)
sf, pf, uf = rpu.split_frame(frame)
rpu.add_info(uf)
rpu.add_states(uf)
adv = uf[uf['event'].isin(['advance'])]
rpu.add_frequency(adv, 'f_exe', 0.5, {
'state': 'Executing',
'event': 'advance'
})
s_frame, p_frame, u_frame = rpu.get_session_frames(sid)
#print str(u_frame)
info = [
"uid", "Unscheduled", "StagingInput", "AgentStagingInputPending",
def preprocess(sid):
session_dir = os.path.join(PICKLE_DIR, sid)
if os.path.isdir(session_dir):
report.warn("Session dir '%s' already exists, skipping session." % session_dir)
return
try:
sid_profiles = find_profiles(sid)
print sid_profiles
report.info("Combining profiles for session: %s.\n" % sid)
combined_profiles = rpu.combine_profiles(sid_profiles)
uids = set()
for p in combined_profiles:
uids.add(p['uid'])
report.info("Converting profiles to frames for session: %s.\n" % sid)
frames = rpu.prof2frame(combined_profiles)
report.info("Head of Combined DF for session %s:\n" % sid)
print frames.entity.unique()
ses_prof_fr, pilot_prof_fr, cu_prof_fr = rpu.split_frame(frames)
report.info("Head of Session DF for session %s:\n" % sid)
ses_prof_fr.insert(0, 'sid', sid)
print ses_prof_fr.head()
report.info("Head of Pilot DF for session %s:\n" % sid)
pilot_prof_fr.insert(0, 'sid', sid)
print pilot_prof_fr.head()
report.info("Head of CU DF for session %s:\n" % sid)
rpu.add_states(cu_prof_fr)
print cu_prof_fr.head()
report.info("Head of CU DF for session %s (after states added):\n" % sid)
rpu.add_info(cu_prof_fr)
print cu_prof_fr.head()
report.info("Head of CU DF for session %s (after info added):\n" % sid)
print cu_prof_fr.head()
report.info("Head of CU DF for session %s (after concurrency added):\n" % sid)
# Add a column with the number of concurrent populating the database
spec = {
'in': [
{'state': rps.STAGING_INPUT, 'event': 'advance'}
],
'out' : [
{'state':rps.AGENT_STAGING_INPUT_PENDING, 'event': 'advance'},
{'state':rps.FAILED, 'event': 'advance'},
{'state':rps.CANCELED, 'event': 'advance'}
]
}
rpu.add_concurrency (cu_prof_fr, 'cc_populating', spec)
# Add a column with the number of concurrent staging in units
spec = {
'in': [
{'state': rps.AGENT_STAGING_INPUT, 'event': 'advance'}
],
'out' : [
{'state':rps.ALLOCATING_PENDING, 'event': 'advance'},
{'state':rps.FAILED, 'event': 'advance'},
{'state':rps.CANCELED, 'event': 'advance'}
]
}
rpu.add_concurrency (cu_prof_fr, 'cc_stage_in', spec)
# Add a column with the number of concurrent scheduling units
spec = {
'in': [
{'state': rps.ALLOCATING, 'event': 'advance'}
],
'out' : [
{'state':rps.EXECUTING_PENDING, 'event': 'advance'},
{'state':rps.FAILED, 'event': 'advance'},
{'state':rps.CANCELED, 'event': 'advance'}
]
}
rpu.add_concurrency (cu_prof_fr, 'cc_sched', spec)
# Add a column with the number of concurrent Executing units
spec = {
'in': [
{'state': rps.EXECUTING, 'event': 'advance'}
],
'out' : [
{'state':rps.AGENT_STAGING_OUTPUT_PENDING, 'event': 'advance'},
{'state':rps.FAILED, 'event': 'advance'},
{'state':rps.CANCELED, 'event': 'advance'}
]
}
rpu.add_concurrency (cu_prof_fr, 'cc_exec', spec)
# Add a column with the number of concurrent Executing units
spec = {
'in': [
{'state': rps.AGENT_STAGING_OUTPUT, 'event': 'advance'}
],
'out' : [
{'state':rps.PENDING_OUTPUT_STAGING, 'event': 'advance'},
{'state':rps.FAILED, 'event': 'advance'},
{'state':rps.CANCELED, 'event': 'advance'}
]
}
rpu.add_concurrency (cu_prof_fr, 'cc_stage_out', spec)
print cu_prof_fr.head()
report.info("Head of CU DF for session %s (after sid added):\n" % sid)
cu_prof_fr.insert(0, 'sid', sid)
print cu_prof_fr.head()
report.info("CU DF columns for session %s:\n" % sid)
print cu_prof_fr['info'].unique()
# transpose
tr_cu_prof_fr = rpu.get_info_df(cu_prof_fr)
tr_cu_prof_fr.insert(0, 'sid', sid)
report.info("Head of Transposed CU DF for session %s:\n" % sid)
print tr_cu_prof_fr.head()
ses_info_fr, pilot_info_fr, unit_info_fr = json2frame(db=None, sid=sid)
report.info("Head of json Docs for session %s:\n" % sid)
print ses_info_fr.head()
except:
report.error("Failed to pre-process data for session %s" % sid)
return
report.header("Writing dataframes to disk.\n")
try:
os.mkdir(session_dir)
ses_info_fr.to_pickle(os.path.join(session_dir, 'session_info.pkl'))
pilot_info_fr.to_pickle(os.path.join(session_dir, 'pilot_info.pkl'))
unit_info_fr.to_pickle(os.path.join(session_dir, 'unit_info.pkl'))
ses_prof_fr.to_pickle(os.path.join(session_dir, 'session_prof.pkl'))
pilot_prof_fr.to_pickle(os.path.join(session_dir, 'pilot_prof.pkl'))
cu_prof_fr.to_pickle(os.path.join(session_dir, 'unit_prof.pkl'))
tr_cu_prof_fr.to_pickle(os.path.join(session_dir, 'tr_unit_prof.pkl'))
except:
report.error("Failed to write data")
return
def profile_analysis(sid):
import radical.pilot.utils as rpu
report.header('profile analysis')
# fetch profiles for all pilots
profiles = rpu.fetch_profiles(sid=sid, tgt='/tmp/')
print(profiles)
# combine into a single profile
profile = rpu.combine_profiles(profiles)
# derive a global data frame
frame = rpu.prof2frame(profile)
# split into session / pilot / unit frames
sf, pf, uf = rpu.split_frame(frame)
print(len(sf))
print(len(pf))
print(len(uf))
print(sf[0:10])
print(pf[0:10])
print(uf[0:10])
# derive some additional 'info' columns, which contains some commonly used
# tags
rpu.add_info(uf)
for index, row in uf.iterrows():
if str(row['info']) != 'nan':
print("%-20s : %-10s : %-25s : %-20s" %
(row['time'], row['uid'], row['state'], row['info']))
# add a 'state_from' columns which signals a state transition
rpu.add_states(uf)
adv = uf[uf['event'].isin(['advance'])]
print('---------------')
print(len(adv))
print(uf[uf['uid'] == 'unit.000001'])
print(list(pf['event']))
tmp = uf[uf['uid'] == 'unit.000001'].dropna()
print(tmp[['time', 'uid', 'state', 'state_from']])
# add a columns 'rate_out' which contains the rate (1/s) of the event
# 'advance to state STAGING_OUTPUT'
print('---------------')
rpu.add_frequency(adv, 'rate_out', 0.5, {
'state': 'StagingOutput',
'event': 'advance'
})
print(adv[['time', 'rate_out']].dropna(subset=['rate_out']))
print('---------------')
fig, plot = rpu.create_plot()
plot.set_title('rate of ouput staging transitions', y=1.05, fontsize=18)
plot.set_xlabel('time (s)', fontsize=14)
plot.set_ylabel('rate (1/s)', fontsize=14)
plot.set_frame_on(True)
adv[['time', 'rate_out']].dropna().plot(ax=plot,
logx=False,
logy=False,
x='time',
y='rate_out',
drawstyle='steps',
label='output rate',
legend=False)
plot.legend(labels=['output rate'], loc='best', fontsize=14, frameon=True)
fig.savefig('profile.png', bbox_inches='tight')
def profile_analysis(sid):
import radical.pilot.utils as rpu
report.header('profile analysis')
# fetch profiles for all pilots
profiles = rpu.fetch_profiles(sid=sid, tgt='/tmp/')
print profiles
# combine into a single profile
profile = rpu.combine_profiles(profiles)
# derive a global data frame
frame = rpu.prof2frame(profile)
# split into session / pilot / unit frames
sf, pf, uf = rpu.split_frame(frame)
print len(sf)
print len(pf)
print len(uf)
print sf[0:10]
print pf[0:10]
print uf[0:10]
# derive some additional 'info' columns, which contains some commonly used
# tags
rpu.add_info(uf)
for index, row in uf.iterrows():
if str(row['info']) != 'nan':
print "%-20s : %-10s : %-25s : %-20s" % \
(row['time'], row['uid'], row['state'], row['info'])
# add a 'state_from' columns which signals a state transition
rpu.add_states(uf)
adv = uf[uf['event'].isin(['advance'])]
print '---------------'
print len(adv)
print uf[uf['uid'] == 'unit.000001']
print list(pf['event'])
tmp = uf[uf['uid'] == 'unit.000001'].dropna()
print tmp[['time', 'uid', 'state', 'state_from']]
# add a columns 'rate_out' which contains the rate (1/s) of the event
# 'advance to state STAGING_OUTPUT'
print '---------------'
rpu.add_frequency(adv, 'rate_out', 0.5, {'state' : 'StagingOutput', 'event' : 'advance'})
print adv[['time', 'rate_out']].dropna(subset=['rate_out'])
print '---------------'
fig, plot = rpu.create_plot()
plot.set_title('rate of ouput staging transitions', y=1.05, fontsize=18)
plot.set_xlabel('time (s)', fontsize=14)
plot.set_ylabel('rate (1/s)', fontsize=14)
plot.set_frame_on(True)
adv[['time', 'rate_out']].dropna().plot(ax=plot, logx=False, logy=False,
x='time', y='rate_out',
drawstyle='steps',
label='output rate', legend=False)
plot.legend(labels=['output rate'], loc='best', fontsize=14, frameon=True)
fig.savefig('profile.png', bbox_inches='tight')
