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token_benchmark_ray.py
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token_benchmark_ray.py
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import threading
import argparse
from collections.abc import Iterable
import json
import os
from pathlib import Path
import re
import time
import random
from typing import Any, Dict, List, Optional, Tuple
import pandas as pd
import ray
from llmperf import common_metrics
from llmperf.common import SUPPORTED_APIS, construct_clients
from llmperf.models import RequestConfig
from llmperf.requests_launcher import RequestsLauncher
from llmperf.utils import (
randomly_sample_sonnet_lines_prompt,
LLMPerfResults,
sample_random_positive_int,
)
from tqdm import tqdm
from transformers import LlamaTokenizerFast
def get_token_throughput_latencies(
model: str,
mean_input_tokens: int,
stddev_input_tokens: int,
mean_output_tokens: int,
stddev_output_tokens: int,
additional_sampling_params: Optional[Dict[str, Any]] = None,
num_concurrent_requests: int = 1,
max_num_completed_requests: int = 500,
test_timeout_s=90,
llm_api="openai",
) -> Tuple[Dict[str, Any], List[Dict[str, Any]]]:
"""Get the token throughput and latencies for the given model.
Args:
model: The name of the model to query.
mean_input_tokens: The mean number of tokens to send in the prompt for the request.
stddev_input_tokens: The standard deviation of the number of tokens to send in the prompt for the request.
mean_output_tokens: The mean number of tokens to generate per request.
stddev_output_tokens: The standard deviation of the number of tokens to generate per request.
additional_sampling_params: Additional sampling parameters to send with the request.
For more information see the LLM APIs documentation for the completions
num_concurrent_requests: The number of concurrent requests to make. Increase
this to increase the amount of load and vice versa.
test_timeout_s: The amount of time to run the test for before reporting results.
llm_api: The name of the llm api to use. Either "openai" or "litellm".
Returns:
A summary of the performance metrics collected across all completed requests
(e.g. throughput, latencies, etc.)
The individual metrics for each request.
"""
random.seed(11111)
tokenizer = LlamaTokenizerFast.from_pretrained(
"hf-internal-testing/llama-tokenizer"
)
get_token_length = lambda text: len(tokenizer.encode(text))
if not additional_sampling_params:
additional_sampling_params = {}
completed_requests_lock = threading.Lock()
completed_requests = []
num_completed_requests = 0
# make up prompts outside of send loop for faster benchmarking loop
num_output_tokens_list = []
prompts = []
for i in range(max_num_completed_requests):
num_output_tokens = (sample_random_positive_int(
mean_output_tokens, stddev_output_tokens
))
num_output_tokens_list.append(num_output_tokens)
prompts.append(randomly_sample_sonnet_lines_prompt(
prompt_tokens_mean=mean_input_tokens,
prompt_tokens_stddev=stddev_input_tokens,
expect_output_tokens=num_output_tokens,
tokenizer=tokenizer
))
start_time = time.monotonic()
pbar = tqdm(total=max_num_completed_requests)
def launch_request(thread_index):
nonlocal num_completed_requests
clients = construct_clients(llm_api=llm_api, num_clients=1)
req_launcher = RequestsLauncher(clients)
request_index = thread_index % max_num_completed_requests
while (
time.monotonic() - start_time < test_timeout_s
and num_completed_requests < max_num_completed_requests
):
default_sampling_params = {"max_tokens": num_output_tokens_list[request_index] }
default_sampling_params.update(additional_sampling_params)
request_config = RequestConfig(
model=model,
prompt=prompts[request_index],
sampling_params=default_sampling_params,
llm_api=llm_api,
)
req_launcher.launch_requests(request_config)
outs = req_launcher.get_next_ready()
all_metrics = []
for out in outs:
request_metrics, gen_text, _ = out
num_output_tokens = get_token_length(gen_text)
with completed_requests_lock:
if num_completed_requests < max_num_completed_requests:
if num_output_tokens:
request_metrics[common_metrics.INTER_TOKEN_LAT] /= request_metrics[common_metrics.NUM_OUTPUT_TOKENS]
else:
request_metrics[common_metrics.INTER_TOKEN_LAT] = 0
request_metrics[common_metrics.NUM_OUTPUT_TOKENS] = num_output_tokens
request_metrics[common_metrics.NUM_TOTAL_TOKENS] = request_metrics[common_metrics.NUM_INPUT_TOKENS] + num_output_tokens
request_metrics[common_metrics.REQ_OUTPUT_THROUGHPUT] = num_output_tokens / request_metrics[common_metrics.E2E_LAT]
all_metrics.append(request_metrics)
completed_requests.extend(all_metrics)
pbar.update(len(all_metrics))
num_completed_requests += len(all_metrics)
request_index = (request_index + num_concurrent_requests) % max_num_completed_requests
threads = []
for i in range(num_concurrent_requests):
thread = threading.Thread(target=launch_request, args=(i,))
threads.append(thread)
thread.start()
for thread in threads:
thread.join()
pbar.close()
end_time = time.monotonic()
if end_time - start_time >= test_timeout_s:
print("Test timed out before all requests could be completed.")
# check one last time that there are no remaining results to collect.
clients = construct_clients(llm_api=llm_api, num_clients=1)
req_launcher = RequestsLauncher(clients)
outs = req_launcher.get_next_ready()
all_metrics = []
for out in outs:
request_metrics, gen_text, _ = out
num_output_tokens = get_token_length(gen_text)
with completed_requests_lock:
if num_completed_requests < max_num_completed_requests:
if num_output_tokens:
request_metrics[common_metrics.INTER_TOKEN_LAT] /= num_output_tokens
else:
request_metrics[common_metrics.INTER_TOKEN_LAT] = 0
request_metrics[common_metrics.NUM_OUTPUT_TOKENS] = num_output_tokens
request_metrics[common_metrics.NUM_TOTAL_TOKENS] = request_metrics[common_metrics.NUM_INPUT_TOKENS] + num_output_tokens
request_metrics[common_metrics.REQ_OUTPUT_THROUGHPUT] = num_output_tokens / request_metrics[common_metrics.E2E_LAT]
completed_requests.extend(request_metrics)
print(f"\Results for token benchmark for {model} queried with the {llm_api} api.\n")
ret = metrics_summary(completed_requests, start_time, end_time)
metadata = {
"model": model,
"mean_input_tokens": mean_input_tokens,
"stddev_input_tokens": stddev_input_tokens,
"mean_output_tokens": mean_output_tokens,
"stddev_output_tokens": stddev_output_tokens,
"num_concurrent_requests": num_concurrent_requests,
"additional_sampling_params": additional_sampling_params,
}
metadata["results"] = ret
return metadata, completed_requests
def metrics_summary(
metrics: List[Dict[str, Any]], start_time: int, end_time: int
) -> Dict[str, Any]:
"""Generate a summary over metrics generated from potentially multiple instances of this client.
Args:
metrics: The metrics to summarize.
start_time: The time the test started.
end_time: The time the test ended.
Returns:
A summary with the following information:
- Overall throughput (generated tokens / total test time)
- Number of completed requests
- Error rate
- Error code frequency
- Quantiles (p25-p99) for the following metrics:
- Inter token latency
- Time to first token
- User total request time
- Number of tokens processed per request
- Number of tokens generated per request
- User throughput (tokens / s)
"""
ret = {}
def flatten(item):
for sub_item in item:
if isinstance(sub_item, Iterable) and not isinstance(sub_item, str):
yield from flatten(sub_item)
else:
yield sub_item
df = pd.DataFrame(metrics)
df_without_errored_req = df[df[common_metrics.ERROR_CODE].isna()]
for key in [
common_metrics.INTER_TOKEN_LAT,
common_metrics.TTFT,
common_metrics.E2E_LAT,
common_metrics.REQ_OUTPUT_THROUGHPUT,
common_metrics.NUM_INPUT_TOKENS,
common_metrics.NUM_OUTPUT_TOKENS
]:
print(key)
ret[key] = {}
series = pd.Series(list(flatten(df_without_errored_req[key]))).dropna()
quantiles = series.quantile([0.25, 0.5, 0.75, 0.9, 0.95, 0.99]).to_dict()
quantiles_reformatted_keys = {}
for quantile, value in quantiles.items():
reformatted_key = f"p{int(quantile * 100)}"
print(f" {reformatted_key} = {value}")
quantiles_reformatted_keys[reformatted_key] = value
ret[key]["quantiles"] = quantiles_reformatted_keys
mean = series.mean()
print(f" mean = {mean}")
ret[key]["mean"] = mean
print(f" min = {series.min()}")
ret[key]["min"] = series.min()
print(f" max = {series.max()}")
ret[key]["max"] = series.max()
print(f" stddev = {series.std()}")
ret[key]["stddev"] = series.std()
ret[common_metrics.NUM_REQ_STARTED] = len(metrics)
error_codes = df[common_metrics.ERROR_CODE].dropna()
num_errors = len(error_codes)
ret[common_metrics.ERROR_RATE] = num_errors / len(metrics) if len(metrics) else 0
ret[common_metrics.NUM_ERRORS] = num_errors
print(f"Number Of Errored Requests: {num_errors}")
error_code_frequency = dict(error_codes.value_counts())
if num_errors:
error_code_frequency = dict(error_codes.value_counts())
print("Error Code Frequency")
print(error_code_frequency)
ret[common_metrics.ERROR_CODE_FREQ] = str(error_code_frequency)
overall_output_throughput = df_without_errored_req[
common_metrics.NUM_OUTPUT_TOKENS
].sum() / (end_time - start_time)
print(f"Overall Output Throughput: {overall_output_throughput}")
ret[common_metrics.OUTPUT_THROUGHPUT] = overall_output_throughput
num_completed_requests = len(df_without_errored_req)
num_completed_requests_per_min = (
num_completed_requests / (end_time - start_time) * 60
)
print(f"Number Of Completed Requests: {num_completed_requests}")
print(f"Completed Requests Per Minute: {num_completed_requests_per_min}")
ret[common_metrics.NUM_COMPLETED_REQUESTS] = num_completed_requests
ret[common_metrics.COMPLETED_REQUESTS_PER_MIN] = num_completed_requests_per_min
return ret
def run_token_benchmark(
llm_api: str,
model: str,
test_timeout_s: int,
max_num_completed_requests: int,
num_concurrent_requests: int,
mean_input_tokens: int,
stddev_input_tokens: int,
mean_output_tokens: int,
stddev_output_tokens: int,
additional_sampling_params: str,
results_dir: str,
user_metadata: Dict[str, Any],
):
"""
Args:
llm_api: The name of the llm api to use.
model: The name of the model to query.
max_num_completed_requests: The number of requests to complete before finishing the test.
test_timeout_s: The amount of time to run the test for before reporting results.
num_concurrent_requests: The number of concurrent requests to make. Increase
this to increase the amount of load and vice versa.
mean_input_tokens: The mean number of tokens to send in the prompt for the request.
stddev_input_tokens: The standard deviation of the number of tokens to send in the prompt for the request.
mean_output_tokens: The mean number of tokens to generate per request.
stddev_output_tokens: The standard deviation of the number of tokens to generate per request.
additional_sampling_params: Additional sampling parameters to send with the request.
For more information see the LLM APIs documentation for the completions.
results_dir: The directory to save the results to.
user_metadata: Additional metadata to include in the results.
"""
if mean_input_tokens < 40:
print(
"the minimum number of input tokens that will be sent is 41"
" because of the prompting logic right now"
)
summary, individual_responses = get_token_throughput_latencies(
model=model,
llm_api=llm_api,
test_timeout_s=test_timeout_s,
max_num_completed_requests=max_num_completed_requests,
mean_input_tokens=mean_input_tokens,
stddev_input_tokens=stddev_input_tokens,
mean_output_tokens=mean_output_tokens,
stddev_output_tokens=stddev_output_tokens,
num_concurrent_requests=num_concurrent_requests,
additional_sampling_params=json.loads(additional_sampling_params),
)
if results_dir:
filename = f"{model}_{mean_input_tokens}_{mean_output_tokens}"
filename = re.sub(r"[^\w\d-]+", "-", filename)
filename = re.sub(r"-{2,}", "-", filename)
summary_filename = f"{filename}_summary"
individual_responses_filename = f"{filename}_individual_responses"
# Update to metadata.
summary.update(user_metadata)
results = LLMPerfResults(name=summary_filename, metadata=summary)
results_dir = Path(results_dir)
if not results_dir.exists():
results_dir.mkdir(parents=True)
elif not results_dir.is_dir():
raise ValueError(f"{results_dir} is not a directory")
try:
with open(results_dir / f"{summary_filename}.json", "w") as f:
json.dump(results.to_dict(), f, indent=4, default=str)
except Exception as e:
print(results.to_dict())
raise e
try:
with open(results_dir / f"{individual_responses_filename}.json", "w") as f:
json.dump(individual_responses, f, indent=4)
except Exception as e:
print(individual_responses)
raise e
args = argparse.ArgumentParser(
description="Run a token throughput and latency benchmark."
)
args.add_argument(
"--model", type=str, required=True, help="The model to use for this load test."
)
args.add_argument(
"--mean-input-tokens",
type=int,
default=550,
help=(
"The mean number of tokens to send in the prompt for the request. "
" (default: %(default)s)"
),
)
args.add_argument(
"--stddev-input-tokens",
type=int,
default=150,
help=(
"The standard deviation of number of tokens to send in the prompt for the request. "
"(default: %(default)s)"
),
)
args.add_argument(
"--mean-output-tokens",
type=int,
default=150,
help=(
"The mean number of tokens to generate from each llm request. This is the max_tokens param "
"for the completions API. Note that this is not always the number of tokens returned. "
"(default: %(default)s)"
),
)
args.add_argument(
"--stddev-output-tokens",
type=int,
default=80,
help=(
"The stdandard deviation on the number of tokens to generate per llm request. "
"(default: %(default)s)"
),
)
args.add_argument(
"--num-concurrent-requests",
type=int,
default=10,
help=("The number of concurrent requests to send (default: %(default)s)"),
)
args.add_argument(
"--timeout",
type=int,
default=90,
help="The amount of time to run the load test for. (default: %(default)s)",
)
args.add_argument(
"--max-num-completed-requests",
type=int,
default=10,
help=(
"The number of requests to complete before finishing the test. Note "
"that its possible for the test to timeout first. (default: %(default)s)"
),
)
args.add_argument(
"--additional-sampling-params",
type=str,
default="{}",
help=(
"Additional sampling params to send with the each request to the LLM API. "
"(default: %(default)s) No additional sampling params are sent."
),
)
args.add_argument(
"--results-dir",
type=str,
default="",
help=(
"The directory to save the results to. "
"(`default: %(default)s`) No results are saved)"
),
)
args.add_argument(
"--llm-api",
type=str,
default="openai",
help=(
f"The name of the llm api to use. Can select from {SUPPORTED_APIS}"
" (default: %(default)s)"
),
)
args.add_argument(
"--metadata",
type=str,
default="",
help=(
"A comma separated list of metadata to include in the results, e.g. "
"name=foo,bar=1. These will be added to the metadata field of the results. "
),
)
if __name__ == "__main__":
env_vars = dict(os.environ)
ray.init(runtime_env={"env_vars": env_vars})
args = args.parse_args()
# Parse user metadata.
user_metadata = {}
if args.metadata:
for item in args.metadata.split(","):
key, value = item.split("=")
user_metadata[key] = value
run_token_benchmark(
llm_api=args.llm_api,
model=args.model,
test_timeout_s=args.timeout,
max_num_completed_requests=args.max_num_completed_requests,
mean_input_tokens=args.mean_input_tokens,
stddev_input_tokens=args.stddev_input_tokens,
mean_output_tokens=args.mean_output_tokens,
stddev_output_tokens=args.stddev_output_tokens,
num_concurrent_requests=args.num_concurrent_requests,
additional_sampling_params=args.additional_sampling_params,
results_dir=args.results_dir,
user_metadata=user_metadata,
)