import argparse import asyncio import json import random import time from typing import AsyncGenerator, List, Tuple import aiohttp import numpy as np from transformers import PreTrainedTokenizerBase from aphrodite.transformers_utils.tokenizer import get_tokenizer # (prompt len, output len, latency) REQUEST_LATENCY: List[Tuple[int, int, float]] = [] def sample_requests( dataset_path: str, num_requests: int, tokenizer: PreTrainedTokenizerBase, ) -> List[Tuple[str, int, int]]: # Load the dataset. with open(dataset_path) as f: dataset = json.load(f) # Filter out the conversations with less than 2 turns. dataset = [data for data in dataset if len(data["conversations"]) >= 2] # Only keep the first two turns of each conversation. dataset = [(data["conversations"][0]["value"], data["conversations"][1]["value"]) for data in dataset] # Tokenize the prompts and completions. prompts = [prompt for prompt, _ in dataset] prompt_token_ids = tokenizer(prompts).input_ids completions = [completion for _, completion in dataset] completion_token_ids = tokenizer(completions).input_ids tokenized_dataset = [] for i in range(len(dataset)): output_len = len(completion_token_ids[i]) tokenized_dataset.append((prompts[i], prompt_token_ids[i], output_len)) # Filter out too long sequences. filtered_dataset: List[Tuple[str, int, int]] = [] for prompt, prompt_token_ids, output_len in tokenized_dataset: prompt_len = len(prompt_token_ids) if prompt_len < 4 or output_len < 4: # Prune too short sequences. # This is because TGI causes errors when the input or output length # is too short. continue if prompt_len > 1024 or prompt_len + output_len > 2048: # Prune too long sequences. continue filtered_dataset.append((prompt, prompt_len, output_len)) # Sample the requests. sampled_requests = random.sample(filtered_dataset, num_requests) return sampled_requests async def get_request( input_requests: List[Tuple[str, int, int]], request_rate: float, ) -> AsyncGenerator[Tuple[str, int, int], None]: input_requests = iter(input_requests) for request in input_requests: yield request if request_rate == float("inf"): # If the request rate is infinity, then we don't need to wait. continue # Sample the request interval from the exponential distribution. interval = np.random.exponential(1.0 / request_rate) # The next request will be sent after the interval. await asyncio.sleep(interval) async def send_request( backend: str, api_url: str, prompt: str, prompt_len: int, output_len: int, best_of: int, use_beam_search: bool, ) -> None: request_start_time = time.perf_counter() headers = {"User-Agent": "Benchmark Client"} if backend == "aphrodite": pload = { "prompt": prompt, "n": 1, "best_of": best_of, "use_beam_search": use_beam_search, "temperature": 0.0 if use_beam_search else 1.0, "top_p": 1.0, "max_tokens": output_len, "ignore_eos": True, "stream": False, } elif backend == "tgi": assert not use_beam_search params = { "best_of": best_of, "max_new_tokens": output_len, "do_sample": True, } pload = { "inputs": prompt, "parameters": params, } else: raise ValueError(f"Unknown backend: {backend}") timeout = aiohttp.ClientTimeout(total=3 * 3600) async with aiohttp.ClientSession(timeout=timeout) as session: while True: async with session.post(api_url, headers=headers, json=pload) as response: chunks = [] async for chunk, _ in response.content.iter_chunks(): chunks.append(chunk) output = b"".join(chunks).decode("utf-8") output = json.loads(output) # Re-send the request if it failed. if "error" not in output: break request_end_time = time.perf_counter() request_latency = request_end_time - request_start_time REQUEST_LATENCY.append((prompt_len, output_len, request_latency)) async def benchmark( backend: str, api_url: str, input_requests: List[Tuple[str, int, int]], best_of: int, use_beam_search: bool, request_rate: float, ) -> None: tasks: List[asyncio.Task] = [] async for request in get_request(input_requests, request_rate): prompt, prompt_len, output_len = request task = asyncio.create_task( send_request(backend, api_url, prompt, prompt_len, output_len, best_of, use_beam_search)) tasks.append(task) await asyncio.gather(*tasks) def main(args: argparse.Namespace): # pylint: disable=redefined-outer-name print(args) random.seed(args.seed) np.random.seed(args.seed) api_url = f"http://{args.host}:{args.port}/api/v1/generate" tokenizer = get_tokenizer(args.tokenizer, trust_remote_code=args.trust_remote_code) input_requests = sample_requests(args.dataset, args.num_prompts, tokenizer) benchmark_start_time = time.perf_counter() asyncio.run( benchmark(args.backend, api_url, input_requests, args.best_of, args.use_beam_search, args.request_rate)) benchmark_end_time = time.perf_counter() benchmark_time = benchmark_end_time - benchmark_start_time print(f"Total time: {benchmark_time:.2f} s") print(f"Throughput: {args.num_prompts / benchmark_time:.2f} requests/s") # Compute the latency statistics. avg_latency = np.mean([latency for _, _, latency in REQUEST_LATENCY]) print(f"Average latency: {avg_latency:.2f} s") avg_per_token_latency = np.mean([ latency / (prompt_len + output_len) for prompt_len, output_len, latency in REQUEST_LATENCY ]) print(f"Average latency per token: {avg_per_token_latency:.2f} s") avg_per_output_token_latency = np.mean( [latency / output_len for _, output_len, latency in REQUEST_LATENCY]) print("Average latency per output token: " f"{avg_per_output_token_latency:.2f} s") if __name__ == "__main__": parser = argparse.ArgumentParser( description="Benchmark the online serving throughput.") parser.add_argument("--backend", type=str, default="aphrodite", choices=["aphrodite", "tgi"]) parser.add_argument("--host", type=str, default="localhost") parser.add_argument("--port", type=int, default=2242) parser.add_argument("--dataset", type=str, required=True, help="Path to the dataset.") parser.add_argument("--tokenizer", type=str, required=True, help="Name or path of the tokenizer.") parser.add_argument("--best-of", type=int, default=1, help="Generates `best_of` sequences per prompt and " "returns the best one.") parser.add_argument("--use-beam-search", action="store_true") parser.add_argument("--num-prompts", type=int, default=1000, help="Number of prompts to process.") parser.add_argument("--request-rate", type=float, default=float("inf"), help="Number of requests per second. If this is inf, " "then all the requests are sent at time 0. " "Otherwise, we use Poisson process to synthesize " "the request arrival times.") parser.add_argument("--seed", type=int, default=0) parser.add_argument("--trust-remote-code", action="store_true", help="trust remote code from huggingface") args = parser.parse_args() main(args)