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#!/usr/bin/env python3
"""
analyze-archive -- generate PTA energy model from annotated legacy MIMOSA traces.
Usage:
PYTHONPATH=lib bin/analyze-archive.py [options] <tracefiles ...>
analyze-archive generates a PTA energy model from one or more annotated
traces generated by MIMOSA/dfatool-legacy. By default, it does nothing else --
use one of the --plot-* or --show-* options to examine the generated model.
Options:
--plot-unparam=<name>:<attribute>:<Y axis label>[;<name>:<attribute>:<label>;...]
Plot all mesurements for <name> <attribute> without regard for parameter values.
X axis is measurement number/id.
--plot-param=<name> <attribute> <parameter> [gplearn function][;<name> <attribute> <parameter> [function];...]
Plot measurements for <name> <attribute> by <parameter>.
X axis is parameter value.
Plots the model function as one solid line for each combination of non-<parameter>
parameters. Also plots the corresponding measurements.
If gplearn function is set, it is plotted using dashed lines.
--param-info
Show parameter names and values
--show-models=<static|paramdetection|param|all|tex|html>
static: show static model values as well as parameter detection heuristic
paramdetection: show stddev of static/lut/fitted model
param: show parameterized model functions and regression variable values
all: all of the above
tex: print tex/pgfplots-compatible model data on stdout
html: print model and quality data as HTML table on stdout
--show-quality=<table|summary|all|tex|html>
table: show static/fitted/lut SMAPE and MAE for each name and attribute
summary: show static/fitted/lut SMAPE and MAE for each attribute, averaged over all states/transitions
all: all of the above
tex: print tex/pgfplots-compatible model quality data on stdout
--ignored-trace-indexes=<i1,i2,...>
Specify traces which should be ignored due to bogus data. 1 is the first
trace, 2 the second, and so on.
--discard-outliers=
not supported at the moment
--cross-validate=<method>:<count>
Perform cross validation when computing model quality.
Only works with --show-quality=table at the moment.
If <method> is "montecarlo": Randomly divide data into 2/3 training and 1/3
validation, <count> times. Reported model quality is the average of all
validation runs. Data is partitioned without regard for parameter values,
so a specific parameter combination may be present in both training and
validation sets or just one of them.
--function-override=<name attribute function>[;<name> <attribute> <function>;...]
Manually specify the function to fit for <name> <attribute>. A function
specified this way bypasses parameter detection: It is always assigned,
even if the model seems to be independent of the parameters it references.
--with-safe-functions
If set, include "safe" functions (safe_log, safe_inv, safe_sqrt) which are
also defined for cases such as safe_inv(0) or safe_sqrt(-1). This allows
a greater range of functions to be tried during fitting.
--filter-param=<parameter name>=<parameter value>[,<parameter name>=<parameter value>...]
Only consider measurements where <parameter name> is <parameter value>
All other measurements (including those where it is None, that is, has
not been set yet) are discarded. Note that this may remove entire
function calls from the model.
--hwmodel=<hwmodel.json>
Load DFA hardware model from JSON
--export-energymodel=<model.json>
Export energy model. Requires --hwmodel.
"""
import getopt
import json
import plotter
import re
import sys
from dfatool import PTAModel, RawData, pta_trace_to_aggregate
from dfatool import soft_cast_int, is_numeric, gplearn_to_function
from dfatool import CrossValidator
from utils import filter_aggregate_by_param
opts = {}
def print_model_quality(results):
for state_or_tran in results.keys():
print()
for key, result in results[state_or_tran].items():
if 'smape' in result:
print('{:20s} {:15s} {:.2f}% / {:.0f}'.format(
state_or_tran, key, result['smape'], result['mae']))
else:
print('{:20s} {:15s} {:.0f}'.format(
state_or_tran, key, result['mae']))
def format_quality_measures(result):
if 'smape' in result:
return '{:6.2f}% / {:9.0f}'.format(result['smape'], result['mae'])
else:
return '{:6} {:9.0f}'.format('', result['mae'])
def model_quality_table(result_lists, info_list):
for state_or_tran in result_lists[0]['by_name'].keys():
for key in result_lists[0]['by_name'][state_or_tran].keys():
buf = '{:20s} {:15s}'.format(state_or_tran, key)
for i, results in enumerate(result_lists):
info = info_list[i]
buf += ' ||| '
if info == None or info(state_or_tran, key):
result = results['by_name'][state_or_tran][key]
buf += format_quality_measures(result)
else:
buf += '{:6}----{:9}'.format('', '')
print(buf)
def model_summary_table(result_list):
buf = 'transition duration'
for results in result_list:
if len(buf):
buf += ' ||| '
buf += format_quality_measures(results['duration_by_trace'])
print(buf)
buf = 'total energy '
for results in result_list:
if len(buf):
buf += ' ||| '
buf += format_quality_measures(results['energy_by_trace'])
print(buf)
buf = 'rel total energy '
for results in result_list:
if len(buf):
buf += ' ||| '
buf += format_quality_measures(results['rel_energy_by_trace'])
print(buf)
buf = 'state-only energy '
for results in result_list:
if len(buf):
buf += ' ||| '
buf += format_quality_measures(results['state_energy_by_trace'])
print(buf)
buf = 'transition timeout '
for results in result_list:
if len(buf):
buf += ' ||| '
buf += format_quality_measures(results['timeout_by_trace'])
print(buf)
def print_text_model_data(model, pm, pq, lm, lq, am, ai, aq):
print('')
print(r'key attribute $1 - \frac{\sigma_X}{...}$')
for state_or_tran in model.by_name.keys():
for attribute in model.attributes(state_or_tran):
print('{} {} {:.8f}'.format(state_or_tran, attribute, model.stats.generic_param_dependence_ratio(state_or_tran, attribute)))
print('')
print(r'key attribute parameter $1 - \frac{...}{...}$')
for state_or_tran in model.by_name.keys():
for attribute in model.attributes(state_or_tran):
for param in model.parameters():
print('{} {} {} {:.8f}'.format(state_or_tran, attribute, param, model.stats.param_dependence_ratio(state_or_tran, attribute, param)))
if state_or_tran in model._num_args:
for arg_index in range(model._num_args[state_or_tran]):
print('{} {} {:d} {:.8f}'.format(state_or_tran, attribute, arg_index, model.stats.arg_dependence_ratio(state_or_tran, attribute, arg_index)))
def print_html_model_data(model, pm, pq, lm, lq, am, ai, aq):
state_attributes = model.attributes(model.states()[0])
print('<table><tr><th>state</th><th>' + '</th><th>'.join(state_attributes) + '</th></tr>')
for state in model.states():
print('<tr>', end='')
print('<td>{}</td>'.format(state), end='')
for attribute in state_attributes:
unit = ''
if attribute == 'power':
unit = 'µW'
print('<td>{:.0f} {} ({:.1f}%)</td>'.format(pm(state, attribute), unit, pq['by_name'][state][attribute]['smape']), end='')
print('</tr>')
print('</table>')
trans_attributes = model.attributes(model.transitions()[0])
if 'rel_energy_prev' in trans_attributes:
trans_attributes.remove('rel_energy_next')
print('<table><tr><th>transition</th><th>' + '</th><th>'.join(trans_attributes) + '</th></tr>')
for trans in model.transitions():
print('<tr>', end='')
print('<td>{}</td>'.format(trans), end='')
for attribute in trans_attributes:
unit = ''
if attribute == 'duration':
unit = 'µs'
elif attribute in ['energy', 'rel_energy_prev']:
unit = 'pJ'
print('<td>{:.0f} {} ({:.1f}%)</td>'.format(pm(trans, attribute), unit, pq['by_name'][trans][attribute]['smape']), end='')
print('</tr>')
print('</table>')
if __name__ == '__main__':
ignored_trace_indexes = []
discard_outliers = None
safe_functions_enabled = False
function_override = {}
show_models = []
show_quality = []
hwmodel = None
energymodel_export_file = None
xv_method = None
xv_count = 10
try:
optspec = (
'plot-unparam= plot-param= param-info show-models= show-quality= '
'ignored-trace-indexes= discard-outliers= function-override= '
'filter-param= '
'cross-validate= '
'with-safe-functions hwmodel= export-energymodel='
)
raw_opts, args = getopt.getopt(sys.argv[1:], "", optspec.split(' '))
for option, parameter in raw_opts:
optname = re.sub(r'^--', '', option)
opts[optname] = parameter
if 'ignored-trace-indexes' in opts:
ignored_trace_indexes = list(map(int, opts['ignored-trace-indexes'].split(',')))
if 0 in ignored_trace_indexes:
print('[E] arguments to --ignored-trace-indexes start from 1')
if 'discard-outliers' in opts:
discard_outliers = float(opts['discard-outliers'])
if 'function-override' in opts:
for function_desc in opts['function-override'].split(';'):
state_or_tran, attribute, *function_str = function_desc.split(' ')
function_override[(state_or_tran, attribute)] = ' '.join(function_str)
if 'show-models' in opts:
show_models = opts['show-models'].split(',')
if 'show-quality' in opts:
show_quality = opts['show-quality'].split(',')
if 'cross-validate' in opts:
xv_method, xv_count = opts['cross-validate'].split(':')
xv_count = int(xv_count)
if 'filter-param' in opts:
opts['filter-param'] = list(map(lambda x: x.split('='), opts['filter-param'].split(',')))
else:
opts['filter-param'] = list()
if 'with-safe-functions' in opts:
safe_functions_enabled = True
if 'hwmodel' in opts:
with open(opts['hwmodel'], 'r') as f:
hwmodel = json.load(f)
except getopt.GetoptError as err:
print(err)
sys.exit(2)
raw_data = RawData(args)
preprocessed_data = raw_data.get_preprocessed_data()
by_name, parameters, arg_count = pta_trace_to_aggregate(preprocessed_data, ignored_trace_indexes)
filter_aggregate_by_param(by_name, parameters, opts['filter-param'])
model = PTAModel(by_name, parameters, arg_count,
traces = preprocessed_data,
discard_outliers = discard_outliers,
function_override = function_override,
hwmodel = hwmodel)
if xv_method:
xv = CrossValidator(PTAModel, by_name, parameters, arg_count)
if 'param-info' in opts:
for state in model.states():
print('{}:'.format(state))
for param in model.parameters():
print(' {} = {}'.format(param, model.stats.distinct_values[state][param]))
if 'plot-unparam' in opts:
for kv in opts['plot-unparam'].split(';'):
state_or_trans, attribute, ylabel = kv.split(':')
fname = 'param_y_{}_{}.pdf'.format(state_or_trans,attribute)
plotter.plot_y(model.by_name[state_or_trans][attribute], xlabel = 'measurement #', ylabel = ylabel, output = fname)
if len(show_models):
print('--- simple static model ---')
static_model = model.get_static()
if 'static' in show_models or 'all' in show_models:
for state in model.states():
print('{:10s}: {:.0f} µW ({:.2f})'.format(
state,
static_model(state, 'power'),
model.stats.generic_param_dependence_ratio(state, 'power')))
for param in model.parameters():
print('{:10s} dependence on {:15s}: {:.2f}'.format(
'',
param,
model.stats.param_dependence_ratio(state, 'power', param)))
if model.stats.has_codependent_parameters(state, 'power', param):
print('{:24s} co-dependencies: {:s}'.format('', ', '.join(model.stats.codependent_parameters(state, 'power', param))))
for param_dict in model.stats.codependent_parameter_value_dicts(state, 'power', param):
print('{:24s} parameter-aware for {}'.format('', param_dict))
for trans in model.transitions():
# Mean power is not a typical transition attribute, but may be present for debugging or analysis purposes
try:
print('{:10s}: {:.0f} µW ({:.2f})'.format(
trans,
static_model(trans, 'power'),
model.stats.generic_param_dependence_ratio(trans, 'power')))
except KeyError:
pass
print('{:10s}: {:.0f} / {:.0f} / {:.0f} pJ ({:.2f} / {:.2f} / {:.2f})'.format(
trans, static_model(trans, 'energy'),
static_model(trans, 'rel_energy_prev'),
static_model(trans, 'rel_energy_next'),
model.stats.generic_param_dependence_ratio(trans, 'energy'),
model.stats.generic_param_dependence_ratio(trans, 'rel_energy_prev'),
model.stats.generic_param_dependence_ratio(trans, 'rel_energy_next')))
print('{:10s}: {:.0f} µs'.format(trans, static_model(trans, 'duration')))
if xv_method == 'montecarlo':
static_quality = xv.montecarlo(lambda m: m.get_static(), xv_count)
else:
static_quality = model.assess(static_model)
if len(show_models):
print('--- LUT ---')
lut_model = model.get_param_lut()
if xv_method == 'montecarlo':
lut_quality = xv.montecarlo(lambda m: m.get_param_lut(fallback=True), xv_count)
else:
lut_quality = model.assess(lut_model)
if len(show_models):
print('--- param model ---')
param_model, param_info = model.get_fitted(safe_functions_enabled = safe_functions_enabled)
if 'paramdetection' in show_models or 'all' in show_models:
for state in model.states_and_transitions():
for attribute in model.attributes(state):
info = param_info(state, attribute)
print('{:10s} {:10s} non-param stddev {:f}'.format(
state, attribute, model.stats.stats[state][attribute]['std_static']
))
print('{:10s} {:10s} param-lut stddev {:f}'.format(
state, attribute, model.stats.stats[state][attribute]['std_param_lut']
))
for param in sorted(model.stats.stats[state][attribute]['std_by_param'].keys()):
print('{:10s} {:10s} {:10s} stddev {:f}'.format(
state, attribute, param, model.stats.stats[state][attribute]['std_by_param'][param]
))
if info != None:
for param_name in sorted(info['fit_result'].keys(), key=str):
param_fit = info['fit_result'][param_name]['results']
for function_type in sorted(param_fit.keys()):
function_rmsd = param_fit[function_type]['rmsd']
print('{:10s} {:10s} {:10s} mean {:10s} RMSD {:.0f}'.format(
state, attribute, str(param_name), function_type, function_rmsd
))
if 'param' in show_models or 'all' in show_models:
if not model.stats.can_be_fitted():
print('[!] measurements have insufficient distinct numeric parameters for fitting. A parameter-aware model is not available.')
for state in model.states():
for attribute in model.attributes(state):
if param_info(state, attribute):
print('{:10s}: {}'.format(state, param_info(state, attribute)['function']._model_str))
print('{:10s} {}'.format('', param_info(state, attribute)['function']._regression_args))
for trans in model.transitions():
for attribute in model.attributes(trans):
if param_info(trans, attribute):
print('{:10s}: {:10s}: {}'.format(trans, attribute, param_info(trans, attribute)['function']._model_str))
print('{:10s} {:10s} {}'.format('', '', param_info(trans, attribute)['function']._regression_args))
if xv_method == 'montecarlo':
analytic_quality = xv.montecarlo(lambda m: m.get_fitted()[0], xv_count)
else:
analytic_quality = model.assess(param_model)
if 'tex' in show_models or 'tex' in show_quality:
print_text_model_data(model, static_model, static_quality, lut_model, lut_quality, param_model, param_info, analytic_quality)
if 'html' in show_models or 'html' in show_quality:
print_html_model_data(model, static_model, static_quality, lut_model, lut_quality, param_model, param_info, analytic_quality)
if 'table' in show_quality or 'all' in show_quality:
model_quality_table([static_quality, analytic_quality, lut_quality], [None, param_info, None])
if 'summary' in show_quality or 'all' in show_quality:
model_summary_table([static_quality, analytic_quality, lut_quality])
if 'plot-param' in opts:
for kv in opts['plot-param'].split(';'):
state_or_trans, attribute, param_name, *function = kv.split(' ')
if len(function):
function = gplearn_to_function(' '.join(function))
else:
function = None
plotter.plot_param(model, state_or_trans, attribute, model.param_index(param_name), extra_function=function)
if 'export-energymodel' in opts:
if not hwmodel:
print('[E] --export-energymodel requires --hwmodel to be set')
sys.exit(1)
json_model = model.to_json()
with open(opts['export-energymodel'], 'w') as f:
json.dump(json_model, f, indent = 2, sort_keys = True)
sys.exit(0)
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