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|
#!/usr/bin/env python3
"""
analyze-archive - generate PTA energy model from dfatool benchmark traces
analyze-archive generates a PTA energy model from one or more annotated
traces generated by dfatool. By default, it does nothing else.
Cross-Validation help:
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.
If <method> is "kfold": Perform k-fold cross validation with k=<count>.
Divide data into 1-1/k training and 1/k validation, <count> times.
In the first set, items 0, k, 2k, ... ard used for validation, in the
second set, items 1, k+1, 2k+1, ... and so on.
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.
Trace Export:
Each JSON file lists all occurences of the corresponding state/transition in the
benchmark's PTA trace. Each occurence contains the corresponding PTA
parameters (if any) in 'parameter' and measurement results in 'offline'.
As measurements are typically run repeatedly, 'offline' is in turn a list
of measurements: offline[0]['uW'] is the power trace of the first
measurement of this state/transition, offline[1]['uW'] corresponds t the
second measurement, etc. Values are provided in microwatts.
For example, TX.json[0].offline[0].uW corresponds to the first measurement
of the first TX state in the benchmark, and TX.json[5].offline[2].uW
corresponds to the third measurement of the sixth TX state in the benchmark.
WARNING: Several GB of RAM and disk space are required for complex measurements.
(JSON files may grow very large -- we trade efficiency for easy handling)
"""
import argparse
import json
import logging
import random
import re
import sys
import time
import dfatool.cli
from dfatool import plotter
from dfatool.loader import RawData, pta_trace_to_aggregate
from dfatool.functions import (
gplearn_to_function,
SplitFunction,
AnalyticFunction,
SubstateFunction,
StaticFunction,
)
from dfatool.model import PTAModel
from dfatool.validation import CrossValidator
from dfatool.utils import (
filter_aggregate_by_param,
detect_outliers_in_aggregate,
NpEncoder,
is_numeric,
)
from dfatool.automata import PTA
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 model_summary_table(result_list):
buf = "transition duration"
for results in result_list:
if len(buf):
buf += " ||| "
buf += dfatool.cli.format_quality_measures(results["duration_by_trace"])
print(buf)
buf = "total energy "
for results in result_list:
if len(buf):
buf += " ||| "
buf += dfatool.cli.format_quality_measures(results["energy_by_trace"])
print(buf)
buf = "rel total energy "
for results in result_list:
if len(buf):
buf += " ||| "
buf += dfatool.cli.format_quality_measures(results["rel_energy_by_trace"])
print(buf)
buf = "state-only energy "
for results in result_list:
if len(buf):
buf += " ||| "
buf += dfatool.cli.format_quality_measures(results["state_energy_by_trace"])
print(buf)
buf = "transition timeout "
for results in result_list:
if len(buf):
buf += " ||| "
buf += dfatool.cli.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.attr_by_name[state_or_tran][
attr_by_name
].stats.generic_param_dependence_ratio(),
)
)
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.attr_by_name[state_or_tran][
attribute
].stats.param_dependence_ratio(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.attr_by_name[state_or_tran][
attribute
].stats.arg_dependence_ratio(arg_index),
)
)
def print_html_model_data(raw_data, model, pm, pq, lm, lq, am, ai, aq):
state_attributes = model.attributes(model.states[0])
trans_attributes = model.attributes(model.transitions[0])
print("# Setup")
print("* Input files: `", " ".join(raw_data.filenames), "`")
print(
f"""* Number of usable / performed measurements: {raw_data.preprocessing_stats["num_valid"]}/{raw_data.preprocessing_stats["num_runs"]}"""
)
print(f"""* State duration: {raw_data.setup_by_fileno[0]["state_duration"]} ms""")
print()
print("# States")
for state in model.states:
print()
print(f"## {state}")
print()
for param in model.parameters:
print(
"* {} ∈ {}".format(
param,
model.attr_by_name[state][
"power"
].stats.distinct_values_by_param_name[param],
)
)
for attribute in state_attributes:
unit = ""
if attribute == "power":
unit = "µW"
static_quality = pq[state][attribute]["smape"]
print(
f"* {attribute} mean: {pm(state, attribute):.0f} {unit} (± {static_quality:.1f}%)"
)
if ai(state, attribute):
analytic_quality = aq[state][attribute]["smape"]
fstr = ai(state, attribute)["function"].model_function
fstr = fstr.replace("0 + ", "", 1)
for i, marg in enumerate(ai(state, attribute)["function"].model_args):
fstr = fstr.replace(f"regression_arg({i})", str(marg))
fstr = fstr.replace("+ -", "-")
print(f"* {attribute} function: {fstr} (± {analytic_quality:.1f}%)")
print()
print("# Transitions")
for trans in model.transitions:
print()
print(f"## {trans}")
print()
for param in model.parameters:
print(
"* {} ∈ {}".format(
param,
model.attr_by_name[trans][
"duration"
].stats.distinct_values_by_param_name[param],
)
)
for attribute in trans_attributes:
unit = ""
if attribute == "duration":
unit = "µs"
elif attribute in ["energy", "rel_energy_prev"]:
unit = "pJ"
static_quality = pq[trans][attribute]["smape"]
print(
f"* {attribute} mean: {pm(trans, attribute):.0f} {unit} (± {static_quality:.1f}%)"
)
if ai(trans, attribute):
analytic_quality = aq[trans][attribute]["smape"]
fstr = ai(trans, attribute)["function"].model_function
fstr = fstr.replace("0 + ", "", 1)
for i, marg in enumerate(ai(trans, attribute)["function"].model_args):
fstr = fstr.replace(f"regression_arg({i})", str(marg))
fstr = fstr.replace("+ -", "-")
print(f"* {attribute} function: {fstr} (± {analytic_quality:.1f}%)")
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[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[trans][attribute]["smape"]
),
end="",
)
print("</tr>")
print("</table>")
def get_kconfig(model):
buf = str()
for param_name in model.parameters:
unique_values = set()
is_relevant = False
for name in model.names:
unique_values.update(
model.attr_by_name[name]["power"].stats.distinct_values_by_param_name[
param_name
]
)
for attr in model.attr_by_name[name].values():
# FIXME this indicates whether it might depend on the parameter, not whether it actually uses it (there's no API for that yet)
if attr.stats.depends_on_param(param_name):
is_relevant = True
unique_values.discard(None)
if not unique_values or not is_relevant:
# unused by the model
continue
buf += f"config {param_name}\n"
buf += f' prompt "{param_name}"\n'
if unique_values == {0, 1}:
buf += " bool\n"
elif all(map(is_numeric, unique_values)):
buf += " int\n"
buf += f" range {min(unique_values)} {max(unique_values)}\n"
else:
buf += " string\n"
buf += f" #!accept [{unique_values}]\n"
return buf
def plot_traces(preprocessed_data, sot_name):
traces = list()
timestamps = list()
for trace in preprocessed_data:
for state_or_transition in trace["trace"]:
if state_or_transition["name"] == sot_name:
timestamps.extend(
map(lambda x: x["plot"][0], state_or_transition["offline"])
)
traces.extend(
map(lambda x: x["plot"][1], state_or_transition["offline"])
)
if len(traces) == 0:
print(
f"""Did not find traces for state or transition {sot_name}. Abort.""",
file=sys.stderr,
)
sys.exit(2)
if len(traces) > 40:
print(f"""Truncating plot to 40 of {len(traces)} traces (random sample)""")
indexes = random.sample(range(len(traces)), 40)
timestamps = [timestamps[i] for i in indexes]
traces = [traces[i] for i in indexes]
plotter.plot_xy(
timestamps, traces, xlabel="t [s]", ylabel="P [W]", title=sot_name, family=True
)
if __name__ == "__main__":
ignored_trace_indexes = []
safe_functions_enabled = False
function_override = {}
show_models = []
show_quality = []
pta = None
energymodel_export_file = None
trace_export_dir = None
xv_method = None
xv_count = 10
parser = argparse.ArgumentParser(
formatter_class=argparse.RawDescriptionHelpFormatter, description=__doc__
)
dfatool.cli.add_standard_arguments(parser)
parser.add_argument(
"--info",
action="store_true",
help="Show state duration and (for each state and transition) number of measurements and parameter values)",
)
parser.add_argument(
"--no-cache", action="store_true", help="Do not load cached measurement results"
)
parser.add_argument(
"--plot-unparam",
metavar="<name>:<attribute>:<Y axis label>[;<name>:<attribute>:<label>;...]",
type=str,
help="Plot all mesurements for <name> <attribute> without regard for parameter values. "
"X axis is measurement number/id.",
)
parser.add_argument(
"--plot-param",
metavar="<name> <attribute> <parameter> [gplearn function][;<name> <attribute> <parameter> [function];...])",
type=str,
help="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.",
)
parser.add_argument(
"--plot-traces",
metavar="NAME",
type=str,
help="Plot power trace for state or transition NAME. X axis is wrong for non-MIMOSA measurements",
)
parser.add_argument(
"--remove-outliers",
action="store_true",
help="Remove outliers exceeding the configured z score (default: 10)",
)
parser.add_argument(
"--z-score",
type=int,
default=10,
help="Configure z score for outlier detection (and optional removel)",
)
parser.add_argument(
"--show-models",
choices=["static", "paramdetection", "param", "all", "tex", "html"],
action="append",
default=list(),
help="static: show static model values as well as parameter detection heuristic.\n"
"paramdetection: show stddev of static/lut/fitted model\n"
"param: show parameterized model functions and regression variable values\n"
"all: all of the above\n"
"tex: print tex/pgfplots-compatible model data on stdout\n"
"html: print model and quality data as HTML table on stdout",
)
parser.add_argument(
"--show-quality",
choices=["table", "summary", "all", "tex", "html"],
action="append",
default=list(),
help="table: show static/fitted/lut SMAPE and MAE for each name and attribute.\n"
"summary: show static/fitted/lut SMAPE and MAE for each attribute, averaged over all states/transitions.\n"
"all: all of the above.\n"
"tex: print tex/pgfplots-compatible model quality data on stdout.",
)
parser.add_argument(
"--ignored-trace-indexes",
metavar="<i1,i2,...>",
type=str,
help="Specify traces which should be ignored due to bogus data. "
"1 is the first trace, 2 the second, and so on.",
)
parser.add_argument(
"--function-override",
metavar="<name> <attribute> <function>[;<name> <attribute> <function>;...]",
type=str,
help="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.",
)
parser.add_argument(
"--export-traces",
metavar="DIRECTORY",
type=str,
help="Export power traces of all states and transitions to DIRECTORY. "
"Creates a JSON file for each state and transition.",
)
parser.add_argument(
"--filter-param",
metavar="<parameter name>=<parameter value>[,<parameter name>=<parameter value>...]",
type=str,
help="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.",
)
parser.add_argument(
"--log-level",
metavar="LEVEL",
choices=["debug", "info", "warning", "error"],
default="warning",
help="Set log level",
)
parser.add_argument(
"--with-safe-functions",
action="store_true",
help="Include 'safe' functions (safe_log, safe_inv, safe_sqrt) which are also defined for 0 and -1. "
"This allows a greater range of functions to be tried during fitting.",
)
parser.add_argument(
"--hwmodel",
metavar="FILE",
type=str,
help="Load DFA hardware model from JSON or YAML FILE",
)
parser.add_argument(
"--export-dot",
metavar="FILE",
type=str,
help="Export PTA representation suitable for Graphviz dot to FILE",
)
parser.add_argument(
"--export-energymodel",
metavar="FILE",
type=str,
help="Export JSON energy model to FILE. Works out of the box for v1+, requires --hwmodel for v0",
)
parser.add_argument(
"--export-webconf",
metavar="FILE",
type=str,
help="Export KConfig model to FILE.Kconfig and energy model to FILE.js. Works out of the box for v1+, requires --hwmodel for v0",
)
parser.add_argument(
"--with-substates",
metavar="PELT_CONFIG",
type=str,
help="Perform substate analysis",
)
parser.add_argument("measurement", nargs="+")
args = parser.parse_args()
if args.log_level:
numeric_level = getattr(logging, args.log_level.upper(), None)
if not isinstance(numeric_level, int):
print(f"Invalid log level: {args.log_level}", file=sys.stderr)
sys.exit(1)
logging.basicConfig(level=numeric_level)
if args.ignored_trace_indexes:
ignored_trace_indexes = list(map(int, args.ignored_trace_indexes.split(",")))
if 0 in ignored_trace_indexes:
logging.error("arguments to --ignored-trace-indexes start from 1")
if args.function_override:
for function_desc in args.function_override.split(";"):
state_or_tran, attribute, *function_str = function_desc.split(" ")
function_override[(state_or_tran, attribute)] = " ".join(function_str)
show_models = args.show_models
show_quality = args.show_quality
if args.cross_validate:
xv_method, xv_count = args.cross_validate.split(":")
xv_count = int(xv_count)
if args.filter_param:
args.filter_param = list(
map(lambda x: x.split("="), args.filter_param.split(","))
)
else:
args.filter_param = list()
if args.with_safe_functions is not None:
safe_functions_enabled = True
if args.hwmodel:
pta = PTA.from_file(args.hwmodel)
raw_data = RawData(
args.measurement,
with_traces=(
args.export_traces is not None
or args.plot_traces is not None
or args.with_substates is not None
),
skip_cache=args.no_cache,
)
if args.info:
print(" ".join(raw_data.filenames) + ":")
data_source = "???"
if raw_data.ptalog:
options = " --".join(
map(lambda kv: f"{kv[0]}={str(kv[1])}", raw_data.ptalog["opt"].items())
)
print(f" Options: --{options}")
if raw_data.version <= 1:
data_source = "MIMOSA"
elif raw_data.version == 2:
if raw_data.ptalog and "sync" in raw_data.ptalog["opt"]["energytrace"]:
data_source = "MSP430 EnergyTrace, sync={}".format(
raw_data.ptalog["opt"]["energytrace"]["sync"]
)
else:
data_source = "MSP430 EnergyTrace"
elif raw_data.version == 3:
data_source = "Keysight"
print(f" Data source ID: {raw_data.version} ({data_source})")
preprocessed_data = raw_data.get_preprocessed_data()
if args.info:
print(
f""" Valid Runs: {raw_data.preprocessing_stats["num_valid"]}/{raw_data.preprocessing_stats["num_runs"]}"""
)
state_durations = map(
lambda x: str(x["state_duration"]), raw_data.setup_by_fileno
)
print(f""" State Duration: {" / ".join(state_durations)} ms""")
if args.export_traces:
uw_per_sot = dict()
for trace in preprocessed_data:
for state_or_transition in trace["trace"]:
name = state_or_transition["name"]
if name not in uw_per_sot:
uw_per_sot[name] = list()
for elem in state_or_transition["offline"]:
elem["plot"] = list(elem["plot"])
uw_per_sot[name].append(state_or_transition)
for name, data in uw_per_sot.items():
target = f"{args.export_traces}/{name}.json"
print(f"exporting {target} ...")
with open(target, "w") as f:
json.dump(data, f)
if args.with_substates is not None:
arg_dict = dict()
if args.with_substates != "":
for kv in args.with_substates.split(","):
k, v = kv.split("=")
try:
arg_dict[k] = float(v)
except ValueError:
arg_dict[k] = v
args.with_substates = arg_dict
if args.plot_traces:
plot_traces(preprocessed_data, args.plot_traces)
if raw_data.preprocessing_stats["num_valid"] == 0:
print("No valid data available. Abort.", file=sys.stderr)
sys.exit(2)
if pta is None and raw_data.pta is not None:
pta = PTA.from_json(raw_data.pta)
by_name, parameters, arg_count = pta_trace_to_aggregate(
preprocessed_data, ignored_trace_indexes
)
filter_aggregate_by_param(by_name, parameters, args.filter_param)
detect_outliers_in_aggregate(
by_name, z_limit=args.z_score, remove_outliers=args.remove_outliers
)
constructor_start = time.time()
model = PTAModel(
by_name,
parameters,
arg_count,
traces=preprocessed_data,
function_override=function_override,
pta=pta,
pelt=args.with_substates,
)
constructor_duration = time.time() - constructor_start
if xv_method:
xv = CrossValidator(PTAModel, by_name, parameters, arg_count)
xv.parameter_aware = args.parameter_aware_cross_validation
if args.info:
for state in model.states:
print("{}:".format(state))
print(f""" Number of Measurements: {len(by_name[state]["power"])}""")
for param in model.parameters:
print(
" Parameter {} ∈ {}".format(
param,
model.attr_by_name[state][
"power"
].stats.distinct_values_by_param_name[param],
)
)
for transition in model.transitions:
print("{}:".format(transition))
print(
f""" Number of Measurements: {len(by_name[transition]["duration"])}"""
)
for param in model.parameters:
print(
" Parameter {} ∈ {}".format(
param,
model.attr_by_name[transition][
"duration"
].stats.distinct_values_by_param_name[param],
)
)
for i in range(model._num_args[transition]):
print(
" Argument {} ∈ {}".format(
i,
model.attr_by_name[transition][
"duration"
].stats.distinct_values_by_param_index[
len(model.parameters) + i
],
)
)
if args.plot_unparam:
for kv in args.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:
for attribute in model.attributes(state):
dfatool.cli.print_static(model, static_model, state, attribute)
if args.with_substates:
for submodel in model.submodel_by_name.values():
for substate in submodel.states:
for subattribute in submodel.attributes(substate):
dfatool.cli.print_static(
submodel, submodel.get_static(), substate, subattribute
)
for trans in model.transitions:
if "energy" in model.attributes(trans):
try:
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.attr_by_name[trans][
"energy"
].stats.generic_param_dependence_ratio(),
model.attr_by_name[trans][
"rel_energy_prev"
].stats.generic_param_dependence_ratio(),
model.attr_by_name[trans][
"rel_energy_next"
].stats.generic_param_dependence_ratio(),
)
)
except KeyError:
print(
"{:10s}: {:.0f} pJ ({:.2f})".format(
trans,
static_model(trans, "energy"),
model.attr_by_name[trans][
"energy"
].stats.generic_param_dependence_ratio(),
)
)
else:
try:
print(
"{:10s}: {:.0f} / {:.0f} / {:.0f} pJ (E=P·t)".format(
trans,
static_model(trans, "power")
* static_model(trans, "duration"),
static_model(trans, "rel_power_prev")
* static_model(trans, "duration"),
static_model(trans, "rel_power_next")
* static_model(trans, "duration"),
)
)
except KeyError:
print(
"{:10s}: {:.0f} pJ (E=P·t)".format(
trans,
static_model(trans, "power")
* static_model(trans, "duration"),
)
)
print(
"{:10s}: {:.0f} µs ({:.2f})".format(
trans,
static_model(trans, "duration"),
model.attr_by_name[trans][
"duration"
].stats.generic_param_dependence_ratio(),
)
)
try:
print(
"{:10s}: {:.0f} / {:.0f} / {:.0f} µW ({:.2f} / {:.2f} / {:.2f})".format(
trans,
static_model(trans, "power"),
static_model(trans, "rel_power_prev"),
static_model(trans, "rel_power_next"),
model.attr_by_name[trans][
"power"
].stats.generic_param_dependence_ratio(),
model.attr_by_name[trans][
"rel_power_prev"
].stats.generic_param_dependence_ratio(),
model.attr_by_name[trans][
"rel_power_next"
].stats.generic_param_dependence_ratio(),
)
)
except KeyError:
print(
"{:10s}: {:.0f} pJ ({:.2f})".format(
trans,
static_model(trans, "power"),
model.attr_by_name[trans][
"power"
].stats.generic_param_dependence_ratio(),
)
)
if xv_method == "montecarlo":
static_quality, _ = xv.montecarlo(lambda m: m.get_static(), xv_count)
elif xv_method == "kfold":
static_quality, _ = xv.kfold(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
)
elif xv_method == "kfold":
lut_quality, _ = xv.kfold(lambda m: m.get_param_lut(fallback=True), xv_count)
else:
lut_quality = model.assess(lut_model)
if len(show_models):
print("--- param model ---")
# get_fitted_sub -> with sub-state detection and modeling
fit_start_time = time.time()
param_model, param_info = model.get_fitted(
safe_functions_enabled=safe_functions_enabled
)
fit_duration = time.time() - fit_start_time
if "paramdetection" in show_models or "all" in show_models:
for name in model.names:
for attribute in model.attributes(name):
info = param_info(name, attribute)
print(
"{:10s} {:10s} non-param stddev {:f}".format(
name,
attribute,
model.attr_by_name[name][attribute].stats.std_static,
)
)
print(
"{:10s} {:10s} param-lut stddev {:f}".format(
name,
attribute,
model.attr_by_name[name][attribute].stats.std_param_lut,
)
)
for param in sorted(
model.attr_by_name[name][attribute].stats.std_by_param.keys()
):
print(
"{:10s} {:10s} {:10s} stddev {:f}".format(
name,
attribute,
param,
model.attr_by_name[name][attribute].stats.std_by_param[
param
],
)
)
for arg_index in range(model.attr_by_name[name][attribute].arg_count):
print(
"{:10s} {:10s} {:10s} stddev {:f}".format(
name,
attribute,
f"arg{arg_index}",
model.attr_by_name[name][attribute].stats.std_by_arg[
arg_index
],
)
)
if type(info) is AnalyticFunction:
for param_name in sorted(info.fit_by_param.keys(), key=str):
param_fit = info.fit_by_param[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(
name,
attribute,
str(param_name),
function_type,
function_rmsd,
)
)
if "param" in show_models or "all" in show_models:
for state in model.states:
for attribute in model.attributes(state):
info = param_info(state, attribute)
if type(info) is AnalyticFunction:
dfatool.cli.print_analyticinfo(f"{state:10s} {attribute:15s}", info)
elif type(info) is SplitFunction:
dfatool.cli.print_splitinfo(
model.parameters, info, f"{state:10s} {attribute:15s}"
)
elif type(info) is SubstateFunction:
print(f"{state:10s} {attribute:15s}: Substate (TODO)")
for trans in model.transitions:
for attribute in model.attributes(trans):
info = param_info(trans, attribute)
if type(info) is AnalyticFunction:
dfatool.cli.print_analyticinfo(f"{trans:10s} {attribute:15s}", info)
elif type(info) is SplitFunction:
dfatool.cli.print_splitinfo(
model.parameters, info, f"{trans:10s} {attribute:15s}"
)
elif type(info) is SubstateFunction:
print(f"{state:10s} {attribute:15s}: Substate (TODO)")
if args.with_substates:
for submodel in model.submodel_by_name.values():
sub_param_model, sub_param_info = submodel.get_fitted()
for substate in submodel.states:
for subattribute in submodel.attributes(substate):
info = sub_param_info(substate, subattribute)
if type(info) is AnalyticFunction:
print(
"{:10s} {:15s}: {}".format(
substate, subattribute, info.model_function
)
)
print("{:10s} {:15s} {}".format("", "", info.model_args))
if args.with_substates:
for state in model.states:
if (
type(model.attr_by_name[state]["power"].model_function)
is SubstateFunction
):
# sub-state models need to know the duration of the state / transition. only needed for eval.
model.attr_by_name[state]["power"].model_function.static_duration = (
raw_data.setup_by_fileno[0]["state_duration"] * 1e3
)
if xv_method == "montecarlo":
analytic_quality, xv_analytic_models = xv.montecarlo(
lambda m: m.get_fitted()[0], xv_count
)
elif xv_method == "kfold":
analytic_quality, xv_analytic_models = xv.kfold(
lambda m: m.get_fitted()[0], xv_count
)
else:
analytic_quality = model.assess(param_model)
xv_analytic_models = None
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(
raw_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:
dfatool.cli.model_quality_table(
["static", "parameterized", "LUT"],
[static_quality, analytic_quality, lut_quality],
[None, param_info, None],
)
if args.with_substates:
for submodel in model.submodel_by_name.values():
sub_static_model = submodel.get_static()
sub_static_quality = submodel.assess(sub_static_model)
sub_lut_model = submodel.get_param_lut()
sub_lut_quality = submodel.assess(sub_lut_model)
sub_param_model, sub_param_info = submodel.get_fitted()
sub_analytic_quality = submodel.assess(sub_param_model)
dfatool.cli.model_quality_table(
["static", "parameterized", "LUT"],
[sub_static_quality, sub_analytic_quality, sub_lut_quality],
[None, sub_param_info, None],
)
if "overall" in show_quality or "all" in show_quality:
print("overall state static/param/lut MAE assuming equal state distribution:")
print(
" {:6.1f} / {:6.1f} / {:6.1f} µW".format(
model.assess_states(static_model),
model.assess_states(param_model),
model.assess_states(lut_model),
)
)
distrib = dict()
num_states = len(model.states)
p95_state = None
for state in model.states:
distrib[state] = 1.0 / num_states
if "STANDBY1" in model.states:
p95_state = "STANDBY1"
elif "SLEEP" in model.states:
p95_state = "SLEEP"
if p95_state is not None:
for state in distrib.keys():
distrib[state] = 0.05 / (num_states - 1)
distrib[p95_state] = 0.95
print(f"overall state static/param/lut MAE assuming 95% {p95_state}:")
print(
" {:6.1f} / {:6.1f} / {:6.1f} µW".format(
model.assess_states(static_model, distribution=distrib),
model.assess_states(param_model, distribution=distrib),
model.assess_states(lut_model, distribution=distrib),
)
)
if "summary" in show_quality or "all" in show_quality:
model_summary_table(
[
model.assess_on_traces(static_model),
model.assess_on_traces(param_model),
model.assess_on_traces(lut_model),
]
)
if args.plot_param:
for kv in args.plot_param.split(";"):
try:
state_or_trans, attribute, param_name, *function = kv.split(" ")
except ValueError:
print(
"Usage: --plot-param='state_or_trans attribute param_name [additional function spec]'",
file=sys.stderr,
)
sys.exit(1)
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 args.export_dref:
dref = raw_data.to_dref()
dref.update(
model.to_dref(
static_quality,
lut_quality,
analytic_quality,
xv_models=xv_analytic_models,
)
)
dref["constructor duration"] = (constructor_duration, r"\second")
dref["regression duration"] = (fit_duration, r"\second")
with open(args.export_dref, "w") as f:
for k, v in dref.items():
if type(v) is not tuple:
v = (v, None)
if v[1] is None:
prefix = r"\drefset{"
else:
prefix = r"\drefset" + f"[unit={v[1]}]" + "{"
print(f"{prefix}/{k}" + "}{" + str(v[0]) + "}", file=f)
if args.export_webconf:
if not pta:
print(
"Note: v0 measurements do not embed the PTA used for benchmark generation. Estimating PTA from recorded observations."
)
json_model = model.to_json()
json_model_str = json.dumps(json_model, indent=2, sort_keys=True, cls=NpEncoder)
for function_str, function_body in model.webconf_function_map():
json_model_str = json_model_str.replace(function_str, function_body)
buf = "class watModel {\n"
buf += f"model = {json_model_str};\n"
buf += "};"
with open(f"{args.export_webconf}.js", "w") as f:
f.write(buf)
with open(f"{args.export_webconf}.kconfig", "w") as f:
f.write(get_kconfig(model))
if args.export_energymodel:
if not pta:
print(
"Note: v0 measurements do not embed the PTA used for benchmark generation. Estimating PTA from recorded observations."
)
json_model = model.to_json()
with open(args.export_energymodel, "w") as f:
json.dump(json_model, f, indent=2, sort_keys=True, cls=NpEncoder)
if args.export_dot:
if not pta:
print(
"Note: v0 measurements do not embed the PTA used for benchmark generation. Estimating PTA from recorded observations."
)
json_model = model.to_json()
with open(args.export_dot, "w") as f:
f.write(model.to_dot())
sys.exit(0)
|