Performance test generator, part of Quality Gate
Project description
QGate-Perf
The QGate Performance is enabler for performance test execution. Key benefits:
- easy performance testing your python code (key parts - init, start, stop, return)
- measure only specific part of your code
- scalability without limits (e.g. from 1 to 1k executors)
- scalability in level of processes and threads (easy way, how to avoid GIL in python)
- sequences for execution and data bulk
- relation to graph generator
Usage
from qgate_perf.parallel_executor import ParallelExecutor
from qgate_perf.parallel_probe import ParallelProbe
from qgate_perf.run_setup import RunSetup
import time
def prf_GIL_impact(run_setup: RunSetup):
""" Your own function for performance testing, you have to add
only part INIT, START, STOP and RETURN"""
# INIT - contain executor synchonization, if needed
probe=ParallelProbe(run_setup)
while (True):
# START - probe, only for this specific code part
probe.start()
for r in range(run_setup.bulk_row * run_setup.bulk_col):
time.sleep(0)
# STOP - probe
if probe.stop():
break
# RETURN - data from probe
return probe
# Execution setting
generator = ParallelExecutor(prf_GIL_impact,
label="GIL_impact",
detail_output=True,
output_file="prf_gil_impact_01.txt")
# Run setup, with test execution 20 seconds and zero delay before start
# (without waiting to other executors)
setup=RunSetup(duration_second=20,start_delay=0)
# Run performance test with:
# data bulk_list with two data sets
# - first has 10 rows and 5 columns as [10, 5]
# - second has 1000 rows and 50 columns as [1000, 50]
# executor_list with six executor sets
# - first line has three executors with 2, 4 and 8 processes each with 2 threads
# - second line has three executors with 2, 4 and 8 processes each with 4 threads
generator.run_bulk_executor(bulk_list=[[10, 5], [1000, 50]],
executor_list=[[2, 2, '2x thread'], [4, 2, '2x thread'],[8, 2,'2x thread'],
[2, 4, '4x thread'], [4, 4, '4x thread'],[8, 4,'4x thread']],
run_setup=setup)
# Note: We made 12 performance tests (two bulk_list x six executor_list) and write
# outputs to the file 'prf_gil_impact_01.txt'
# We generate performance graph based on performance tests to the
# directory './output/graph-perf/*' (two files each for different bundle)
generator.create_graph_perf()
Outputs in text file
############### 2023-05-05 06:30:36.194849 ###############
{"type": "headr", "label": "GIL_impact", "bulk": [1, 1], "available_cpu": 12, "now": "2023-05-05 06:30:36.194849"}
{"type": "core", "plan_executors": 4, "plan_executors_detail": [4, 1], "real_executors": 4, "group": "1x thread", "total_calls": 7590439, "avrg_time": 1.4127372338382197e-06, "std_deviation": 3.699171006877347e-05, "total_call_per_sec": 2831382.8673804617, "endexec": "2023-05-05 06:30:44.544829"}
{"type": "core", "plan_executors": 8, "plan_executors_detail": [8, 1], "real_executors": 8, "group": "1x thread", "total_calls": 11081697, "avrg_time": 1.789265660825848e-06, "std_deviation": 4.164309967620533e-05, "total_call_per_sec": 4471107.994274894, "endexec": "2023-05-05 06:30:52.623666"}
{"type": "core", "plan_executors": 16, "plan_executors_detail": [16, 1], "real_executors": 16, "group": "1x thread", "total_calls": 8677305, "avrg_time": 6.2560950624827455e-06, "std_deviation": 8.629422798757681e-05, "total_call_per_sec": 2557505.8946835063, "endexec": "2023-05-05 06:31:02.875799"}
{"type": "core", "plan_executors": 8, "plan_executors_detail": [4, 2], "real_executors": 8, "group": "2x threads", "total_calls": 2761851, "avrg_time": 1.1906723084757647e-05, "std_deviation": 0.00010741937495211329, "total_call_per_sec": 671889.3135459893, "endexec": "2023-05-05 06:31:10.283786"}
{"type": "core", "plan_executors": 16, "plan_executors_detail": [8, 2], "real_executors": 16, "group": "2x threads", "total_calls": 3605920, "avrg_time": 1.858694254439209e-05, "std_deviation": 0.00013301637613377212, "total_call_per_sec": 860819.3607844017, "endexec": "2023-05-05 06:31:18.740831"}
{"type": "core", "plan_executors": 16, "plan_executors_detail": [4, 4], "real_executors": 16, "group": "4x threads", "total_calls": 1647508, "avrg_time": 4.475957498576462e-05, "std_deviation": 0.00020608402170105327, "total_call_per_sec": 357465.41393855185, "endexec": "2023-05-05 06:31:26.008649"}
############### Duration: 49.9 seconds ###############
Outputs in text file with detail
############### 2023-05-05 07:01:18.571700 ###############
{"type": "headr", "label": "GIL_impact", "bulk": [1, 1], "available_cpu": 12, "now": "2023-05-05 07:01:18.571700"}
{"type": "detail", "processid": 12252, "calls": 1896412, "total": 2.6009109020233154, "avrg": 1.371490426143325e-06, "min": 0.0, "max": 0.0012514591217041016, "st-dev": 3.6488665183545995e-05, "initexec": "2023-05-05 07:01:21.370528", "startexec": "2023-05-05 07:01:21.370528", "endexec": "2023-05-05 07:01:26.371062"}
{"type": "detail", "processid": 8944, "calls": 1855611, "total": 2.5979537963867188, "avrg": 1.4000530264084008e-06, "min": 0.0, "max": 0.001207590103149414, "st-dev": 3.6889275786419565e-05, "initexec": "2023-05-05 07:01:21.466496", "startexec": "2023-05-05 07:01:21.466496", "endexec": "2023-05-05 07:01:26.466551"}
{"type": "detail", "processid": 2108, "calls": 1943549, "total": 2.6283881664276123, "avrg": 1.3523652691172758e-06, "min": 0.0, "max": 0.0012514591217041016, "st-dev": 3.624462003401045e-05, "initexec": "2023-05-05 07:01:21.709203", "startexec": "2023-05-05 07:01:21.709203", "endexec": "2023-05-05 07:01:26.709298"}
{"type": "detail", "processid": 19292, "calls": 1973664, "total": 2.6392557621002197, "avrg": 1.3372366127670262e-06, "min": 0.0, "max": 0.0041027069091796875, "st-dev": 3.620965943471147e-05, "initexec": "2023-05-05 07:01:21.840541", "startexec": "2023-05-05 07:01:21.840541", "endexec": "2023-05-05 07:01:26.841266"}
{"type": "core", "plan_executors": 4, "plan_executors_detail": [4, 1], "real_executors": 4, "group": "1x thread", "total_calls": 7669236, "avrg_time": 1.3652863336090071e-06, "std_deviation": 3.645805510967187e-05, "total_call_per_sec": 2929788.3539391863, "endexec": "2023-05-05 07:01:26.891144"}
...
Graphs generated from qgate-graph based on outputs from qgate-perf
The performance graph with 512 executors (128 processes x 4 threads). You can see performance visualisation:
- calls per second for different amount of executors
- response time in seconds with standard deviation for different amount of executors
The executor graph, you can see amount of executors in time.
32 executors (8 processes x 4 threads)
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distributions
No source distribution files available for this release.See tutorial on generating distribution archives.
Built Distribution
File details
Details for the file qgate_perf-0.4.36-py3-none-any.whl.
File metadata
- Download URL: qgate_perf-0.4.36-py3-none-any.whl
- Upload date:
- Size: 24.7 kB
- Tags: Python 3
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/5.1.1 CPython/3.11.9
File hashes
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 | 0ea6227b66598d4eb268677024fb6570b65f1f5d8842456a472c13c6a7269787 |
|
| MD5 | c48762cd1418583ccff501f19bc712d4 |
|
| BLAKE2b-256 | 95b6dcecf18961e102aef2f17ec979b8b7196024cc87bec4c8888d18fef08acc |
