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qserve_benchmark_image.py
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qserve_benchmark_image.py
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# File authors: Haotian Tang, Shang Yang, Yujun Lin, Song Han
# @article{lin2024qserve,
# title={QServe: W4A8KV4 Quantization and System Co-design for Efficient LLM Serving},
# author={Lin*, Yujun and Tang*, Haotian and Yang*, Shang and Zhang, Zhekai and Xiao, Guangxuan and Gan, Chuang and Han, Song},
# year={2024}
# }
import argparse
import time
import gc
import torch
from llava.model import *
import qserve.utils.constants
from qserve import EngineArgs, LLMEngine, SamplingParams
from qserve.config import ProfilingConfig
max_seq_len = qserve.utils.constants.max_seq_len
import os
def process_requests(
engine: LLMEngine, batch_size: int, prompt_len: int, generation_len: int
):
"""Continuously process a list of prompts and handle the outputs."""
request_key = 0
profiling_config = ProfilingConfig(
prompt_len=prompt_len, generation_len=generation_len
)
for b in range(batch_size):
engine.add_request(
str(b),
prompt=None,
profiling_config=profiling_config,
sampling_params=SamplingParams(top_p=0.95, top_k=40, temperature=0.7),
)
if engine.ifb_mode == False:
# We need to pre-caulcate the block table size for initialization
block_size = engine.cache_config.block_size
tot_length = prompt_len + generation_len
init_num_blocks = (tot_length + block_size - 1) // block_size
engine.update_init_num_blocks(init_num_blocks)
# seq_group_metadata_list, scheduler_outputs = engine.step()
iter = 1
time_lis = []
num_tokens = 0
torch.cuda.synchronize()
st = time.time()
while engine.has_unfinished_requests():
### Schedule iteration 1 (context stage)
requests_outputs = engine.step()
num_tokens += len(requests_outputs)
# torch.cuda.synchronize()
if len(requests_outputs) == 0:
break
iter += 1
if engine.profiling_mode and iter == generation_len + 1:
break
torch.cuda.synchronize()
ed = time.time()
time_lis.append(ed - st)
return time_lis, num_tokens
def initialize_engine(args: argparse.Namespace) -> LLMEngine:
"""Initialize the LLMEngine from the command line arguments."""
engine_args = EngineArgs.from_cli_args(args)
return LLMEngine.from_engine_args(engine_args)
def main(args: argparse.Namespace):
"""Main function that sets up and runs the prompt processing."""
batch_size = int(os.environ.get("GLOBAL_BATCH_SIZE"))
prompt_len = 224 - 196 + args.img_per_seq
generation_len = 256
rounds = 3
with open("results.csv", "a") as file:
print("=" * 50, file=file)
print(
f"{args.model}: Batch={batch_size}, Input={prompt_len}, Output={generation_len}",
file=file,
)
with torch.no_grad():
for rnd in range(rounds):
if rnd < rounds - 1:
print("[Warmup Round %d]" % rnd)
engine = initialize_engine(args)
engine.profiling_mode = True
# warm up
time_lis, num_tokens = process_requests(
engine,
batch_size=batch_size,
prompt_len=prompt_len,
generation_len=generation_len,
)
del engine
torch.cuda.empty_cache()
gc.collect()
throughput = num_tokens / sum(time_lis)
print(f"Round {rnd} Throughput:", throughput, "tokens / second.")
with open("results.csv", "a") as file:
print(
f"Round {rnd} Throughput:",
throughput,
"tokens / second.",
file=file,
)
with open("results.csv", "a") as file:
print("=" * 50, file=file)
if __name__ == "__main__":
parser = argparse.ArgumentParser(
description="Demo on using the LLMEngine class directly"
)
parser = EngineArgs.add_cli_args(parser)
args = parser.parse_args()
main(args)