llama.cpp/examples/server/bench/bench.py

312 lines
13 KiB
Python

from __future__ import annotations
import argparse
import json
import os
import re
import signal
import socket
import subprocess
import sys
import threading
import time
import traceback
from contextlib import closing
from datetime import datetime
import matplotlib
import matplotlib.dates
import matplotlib.pyplot as plt
import requests
from statistics import mean
def main(args_in: list[str] | None = None) -> None:
parser = argparse.ArgumentParser(description="Start server benchmark scenario")
parser.add_argument("--name", type=str, help="Bench name", required=True)
parser.add_argument("--runner-label", type=str, help="Runner label", required=True)
parser.add_argument("--branch", type=str, help="Branch name", default="detached")
parser.add_argument("--commit", type=str, help="Commit name", default="dirty")
parser.add_argument("--host", type=str, help="Server listen host", default="0.0.0.0")
parser.add_argument("--port", type=int, help="Server listen host", default="8080")
parser.add_argument("--model-path-prefix", type=str, help="Prefix where to store the model files", default="models")
parser.add_argument("--n-prompts", type=int,
help="SERVER_BENCH_N_PROMPTS: total prompts to randomly select in the benchmark", required=True)
parser.add_argument("--max-prompt-tokens", type=int,
help="SERVER_BENCH_MAX_PROMPT_TOKENS: maximum prompt tokens to filter out in the dataset",
required=True)
parser.add_argument("--max-tokens", type=int,
help="SERVER_BENCH_MAX_CONTEXT: maximum context size of the completions request to filter out in the dataset: prompt + predicted tokens",
required=True)
parser.add_argument("--hf-repo", type=str, help="Hugging Face model repository", required=True)
parser.add_argument("--hf-file", type=str, help="Hugging Face model file", required=True)
parser.add_argument("-ngl", "--n-gpu-layers", type=int, help="layers to the GPU for computation", required=True)
parser.add_argument("--ctx-size", type=int, help="Set the size of the prompt context", required=True)
parser.add_argument("--parallel", type=int, help="Set the number of slots for process requests", required=True)
parser.add_argument("--batch-size", type=int, help="Set the batch size for prompt processing", required=True)
parser.add_argument("--ubatch-size", type=int, help="physical maximum batch size", required=True)
parser.add_argument("--scenario", type=str, help="Scenario to run", required=True)
parser.add_argument("--duration", type=str, help="Bench scenario", required=True)
args = parser.parse_args(args_in)
start_time = time.time()
# Start the server and performance scenario
try:
server_process = start_server(args)
except Exception:
print("bench: server start error :")
traceback.print_exc(file=sys.stdout)
sys.exit(1)
# start the benchmark
iterations = 0
data = {}
try:
start_benchmark(args)
with open("results.github.env", 'w') as github_env:
# parse output
with open('k6-results.json', 'r') as bench_results:
# Load JSON data from file
data = json.load(bench_results)
for metric_name in data['metrics']:
for metric_metric in data['metrics'][metric_name]:
value = data['metrics'][metric_name][metric_metric]
if isinstance(value, float) or isinstance(value, int):
value = round(value, 2)
data['metrics'][metric_name][metric_metric]=value
github_env.write(
f"{escape_metric_name(metric_name)}_{escape_metric_name(metric_metric)}={value}\n")
iterations = data['root_group']['checks']['success completion']['passes']
except Exception:
print("bench: error :")
traceback.print_exc(file=sys.stdout)
# Stop the server
if server_process:
try:
print(f"bench: shutting down server pid={server_process.pid} ...")
if os.name == 'nt':
interrupt = signal.CTRL_C_EVENT
else:
interrupt = signal.SIGINT
server_process.send_signal(interrupt)
server_process.wait(0.5)
except subprocess.TimeoutExpired:
print(f"server still alive after 500ms, force-killing pid={server_process.pid} ...")
server_process.kill() # SIGKILL
server_process.wait()
while is_server_listening(args.host, args.port):
time.sleep(0.1)
title = (f"llama.cpp {args.name} on {args.runner_label}\n "
f"duration={args.duration} {iterations} iterations")
xlabel = (f"{args.hf_repo}/{args.hf_file}\n"
f"parallel={args.parallel} ctx-size={args.ctx_size} ngl={args.n_gpu_layers} batch-size={args.batch_size} ubatch-size={args.ubatch_size} pp={args.max_prompt_tokens} pp+tg={args.max_tokens}\n"
f"branch={args.branch} commit={args.commit}")
# Prometheus
end_time = time.time()
prometheus_metrics = {}
if is_server_listening("0.0.0.0", 9090):
metrics = ['prompt_tokens_seconds', 'predicted_tokens_seconds',
'kv_cache_usage_ratio', 'requests_processing', 'requests_deferred']
for metric in metrics:
resp = requests.get(f"http://localhost:9090/api/v1/query_range",
params={'query': 'llamacpp:' + metric, 'start': start_time, 'end': end_time, 'step': 2})
with open(f"{metric}.json", 'w') as metric_json:
metric_json.write(resp.text)
if resp.status_code != 200:
print(f"bench: unable to extract prometheus metric {metric}: {resp.text}")
else:
metric_data = resp.json()
values = metric_data['data']['result'][0]['values']
timestamps, metric_values = zip(*values)
metric_values = [float(value) for value in metric_values]
prometheus_metrics[metric] = metric_values
timestamps_dt = [str(datetime.fromtimestamp(int(ts))) for ts in timestamps]
plt.figure(figsize=(16, 10), dpi=80)
plt.plot(timestamps_dt, metric_values, label=metric)
plt.xticks(rotation=0, fontsize=14, horizontalalignment='center', alpha=.7)
plt.yticks(fontsize=12, alpha=.7)
ylabel = f"llamacpp:{metric}"
plt.title(title,
fontsize=14, wrap=True)
plt.grid(axis='both', alpha=.3)
plt.ylabel(ylabel, fontsize=22)
plt.xlabel(xlabel, fontsize=14, wrap=True)
plt.gca().xaxis.set_major_locator(matplotlib.dates.MinuteLocator())
plt.gca().xaxis.set_major_formatter(matplotlib.dates.DateFormatter("%Y-%m-%d %H:%M:%S"))
plt.gcf().autofmt_xdate()
# Remove borders
plt.gca().spines["top"].set_alpha(0.0)
plt.gca().spines["bottom"].set_alpha(0.3)
plt.gca().spines["right"].set_alpha(0.0)
plt.gca().spines["left"].set_alpha(0.3)
# Save the plot as a jpg image
plt.savefig(f'{metric}.jpg', dpi=60)
plt.close()
# Mermaid format in case images upload failed
with open(f"{metric}.mermaid", 'w') as mermaid_f:
mermaid = (
f"""---
config:
xyChart:
titleFontSize: 12
width: 900
height: 600
themeVariables:
xyChart:
titleColor: "#000000"
---
xychart-beta
title "{title}"
y-axis "llamacpp:{metric}"
x-axis "llamacpp:{metric}" {int(min(timestamps))} --> {int(max(timestamps))}
line [{', '.join([str(round(float(value), 2)) for value in metric_values])}]
""")
mermaid_f.write(mermaid)
# 140 chars max for commit status description
bench_results = {
"i": iterations,
"req": {
"p95": round(data['metrics']["http_req_duration"]["p(95)"], 2),
"avg": round(data['metrics']["http_req_duration"]["avg"], 2),
},
"pp": {
"p95": round(data['metrics']["llamacpp_prompt_processing_second"]["p(95)"], 2),
"avg": round(data['metrics']["llamacpp_prompt_processing_second"]["avg"], 2),
"0": round(mean(prometheus_metrics['prompt_tokens_seconds']), 2),
},
"tg": {
"p95": round(data['metrics']["llamacpp_tokens_second"]["p(95)"], 2),
"avg": round(data['metrics']["llamacpp_tokens_second"]["avg"], 2),
"0": round(mean(prometheus_metrics['predicted_tokens_seconds']), 2),
},
}
with open("results.github.env", 'a') as github_env:
github_env.write(f"BENCH_RESULTS={json.dumps(bench_results, indent=None, separators=(',', ':') )}\n")
github_env.write(f"BENCH_ITERATIONS={iterations}\n")
title = title.replace('\n', ' ')
xlabel = xlabel.replace('\n', ' ')
github_env.write(f"BENCH_GRAPH_TITLE={title}\n")
github_env.write(f"BENCH_GRAPH_XLABEL={xlabel}\n")
def start_benchmark(args):
k6_path = './k6'
if 'BENCH_K6_BIN_PATH' in os.environ:
k6_path = os.environ['BENCH_K6_BIN_PATH']
k6_args = [
'run', args.scenario,
'--no-color',
]
k6_args.extend(['--duration', args.duration])
k6_args.extend(['--iterations', args.n_prompts])
k6_args.extend(['--vus', args.parallel])
k6_args.extend(['--summary-export', 'k6-results.json'])
args = f"SERVER_BENCH_N_PROMPTS={args.n_prompts} SERVER_BENCH_MAX_PROMPT_TOKENS={args.max_prompt_tokens} SERVER_BENCH_MAX_CONTEXT={args.max_tokens} "
args = args + ' '.join([str(arg) for arg in [k6_path, *k6_args]])
print(f"bench: starting k6 with: {args}")
k6_completed = subprocess.run(args, shell=True, stdout=sys.stdout, stderr=sys.stderr)
if k6_completed.returncode != 0:
raise Exception("bench: unable to run k6")
def start_server(args):
server_process = start_server_background(args)
attempts = 0
max_attempts = 20
if 'GITHUB_ACTIONS' in os.environ:
max_attempts *= 2
while not is_server_listening(args.host, args.port):
attempts += 1
if attempts > max_attempts:
assert False, "server not started"
print(f"bench: waiting for server to start ...")
time.sleep(0.5)
print("bench: server started.")
return server_process
def start_server_background(args):
# Start the server
server_path = '../../../build/bin/llama-server'
if 'LLAMA_SERVER_BIN_PATH' in os.environ:
server_path = os.environ['LLAMA_SERVER_BIN_PATH']
server_args = [
'--host', args.host,
'--port', args.port,
]
model_file = args.model_path_prefix + os.path.sep + args.hf_file
model_dir = os.path.dirname(model_file)
if not os.path.exists(model_dir):
os.makedirs(model_dir)
server_args.extend(['--model', model_file])
server_args.extend(['--hf-repo', args.hf_repo])
server_args.extend(['--hf-file', args.hf_file])
server_args.extend(['--n-gpu-layers', args.n_gpu_layers])
server_args.extend(['--ctx-size', args.ctx_size])
server_args.extend(['--parallel', args.parallel])
server_args.extend(['--batch-size', args.batch_size])
server_args.extend(['--ubatch-size', args.ubatch_size])
server_args.extend(['--n-predict', args.max_tokens * 2])
server_args.extend(['--defrag-thold', "0.1"])
server_args.append('--cont-batching')
server_args.append('--metrics')
server_args.append('--flash-attn')
args = [str(arg) for arg in [server_path, *server_args]]
print(f"bench: starting server with: {' '.join(args)}")
pkwargs = {
'stdout': subprocess.PIPE,
'stderr': subprocess.PIPE
}
server_process = subprocess.Popen(
args,
**pkwargs) # pyright: ignore[reportArgumentType, reportCallIssue]
def server_log(in_stream, out_stream):
for line in iter(in_stream.readline, b''):
print(line.decode('utf-8'), end='', file=out_stream)
thread_stdout = threading.Thread(target=server_log, args=(server_process.stdout, sys.stdout))
thread_stdout.start()
thread_stderr = threading.Thread(target=server_log, args=(server_process.stderr, sys.stderr))
thread_stderr.start()
return server_process
def is_server_listening(server_fqdn, server_port):
with closing(socket.socket(socket.AF_INET, socket.SOCK_STREAM)) as sock:
result = sock.connect_ex((server_fqdn, server_port))
_is_server_listening = result == 0
if _is_server_listening:
print(f"server is listening on {server_fqdn}:{server_port}...")
return _is_server_listening
def escape_metric_name(metric_name):
return re.sub('[^A-Z0-9]', '_', metric_name.upper())
if __name__ == '__main__':
main()