f24375f318
### What this PR does / why we need it? This PR enable accuracy test for PR labeled with "*accuracy-test" and workflow_dispatch. Only one model test running for each type test to reduce excution time. - The dense test costs about `25mins` to complete (gsm8k 7mins, ~mmlu 3h24mins,~ cEval 18mins) - The vl test costs about `40mins` to complete In futute, we might consider enable all job test as nightly schedule job. Below is mainly changes: - the dense/vl accuracy test will be triggered by lableling `accuracy-test` and `ready-for-test` - the dense accuracy test will be triggered by lableling `dense-accuracy-test` and `ready-for-test` - the vl accuracy test will be triggered by lableling `vl-accuracy-test` and `ready-for-test` - accuracy test will also be triggered by workflow_dispatch - Support V1 and V0 for qwen and V0 for VL For PR test we also generate summary in test summary. ### Does this PR introduce _any_ user-facing change? No ### How was this patch tested? - CI passed with accuracy-test label - Preview: https://github.com/vllm-project/vllm-ascend/actions/runs/15407628722?pr=1040 Closes: https://github.com/vllm-project/vllm-ascend/pull/953 --------- Signed-off-by: hfadzxy <starmoon_zhang@163.com> Signed-off-by: Yikun Jiang <yikunkero@gmail.com> Co-authored-by: hfadzxy <starmoon_zhang@163.com>
227 lines
8.2 KiB
Python
227 lines
8.2 KiB
Python
#
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# Copyright (c) 2025 Huawei Technologies Co., Ltd. All Rights Reserved.
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# Copyright 2023 The vLLM team.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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# This file is a part of the vllm-ascend project.
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#
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import argparse
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import gc
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import json
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import multiprocessing
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import sys
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from multiprocessing import Queue
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import lm_eval
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import torch
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UNIMODAL_MODEL_NAME = ["Qwen/Qwen2.5-7B-Instruct", "Qwen/Qwen3-8B"]
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UNIMODAL_TASK = ["ceval-valid", "gsm8k"]
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MULTIMODAL_NAME = ["Qwen/Qwen2.5-VL-7B-Instruct"]
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MULTIMODAL_TASK = ["mmmu_val"]
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batch_size_dict = {"ceval-valid": 1, "mmlu": 1, "gsm8k": "auto", "mmmu_val": 1}
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MODEL_RUN_INFO = {
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"Qwen/Qwen2.5-7B-Instruct":
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("export MODEL_ARGS='pretrained={model}, max_model_len=4096,dtype=auto,tensor_parallel_size=2,gpu_memory_utilization=0.6'\n"
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"lm_eval --model vllm --modlel_args $MODEL_ARGS --tasks {datasets} \ \n"
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"--apply_chat_template --fewshot_as_multiturn --num_fewshot 5 --batch_size 1"
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),
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"Qwen/Qwen3-8B-Base":
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("export MODEL_ARGS='pretrained={model}, max_model_len=4096,dtype=auto,tensor_parallel_size=2,gpu_memory_utilization=0.6'\n"
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"lm_eval --model vllm --modlel_args $MODEL_ARGS --tasks {datasets} \ \n"
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"--apply_chat_template --fewshot_as_multiturn --num_fewshot 5 --batch_size 1"
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),
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"Qwen/Qwen2.5-VL-7B-Instruct":
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("export MODEL_ARGS='pretrained={model}, max_model_len=8192,dtype=auto,tensor_parallel_size=4,max_images=2'\n"
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"lm_eval --model vllm-vlm --modlel_args $MODEL_ARGS --tasks {datasets} \ \n"
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"--apply_chat_template --fewshot_as_multiturn --batch_size 1"),
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}
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def run_accuracy_unimodal(queue, model, dataset):
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try:
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model_args = f"pretrained={model},max_model_len=4096,dtype=auto,tensor_parallel_size=2,gpu_memory_utilization=0.6"
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results = lm_eval.simple_evaluate(
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model="vllm",
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model_args=model_args,
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tasks=dataset,
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apply_chat_template=True,
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fewshot_as_multiturn=True,
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batch_size=batch_size_dict[dataset],
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num_fewshot=5,
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)
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print(f"Success: {model} on {dataset}")
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measured_value = results["results"]
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queue.put(measured_value)
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except Exception as e:
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print(f"Error in run_accuracy_unimodal: {e}")
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queue.put(e)
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sys.exit(1)
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finally:
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torch.npu.empty_cache()
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gc.collect()
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def run_accuracy_multimodal(queue, model, dataset):
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try:
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model_args = f"pretrained={model},max_model_len=8192,dtype=auto,tensor_parallel_size=4,max_images=2"
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results = lm_eval.simple_evaluate(
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model="vllm-vlm",
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model_args=model_args,
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tasks=dataset,
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apply_chat_template=True,
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fewshot_as_multiturn=True,
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batch_size=batch_size_dict[dataset],
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)
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print(f"Success: {model} on {dataset}")
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measured_value = results["results"]
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queue.put(measured_value)
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except Exception as e:
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print(f"Error in run_accuracy_multimodal: {e}")
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queue.put(e)
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sys.exit(1)
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finally:
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torch.npu.empty_cache()
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gc.collect()
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def generate_md(model_name, tasks_list, args, datasets):
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run_cmd = MODEL_RUN_INFO[model_name].format(model=model_name,
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datasets=datasets)
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model = model_name.split("/")[1]
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preamble = f"""# 🎯 {model} Accuracy Test
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<div>
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<strong>vLLM version:</strong> vLLM: {args.vllm_version}, vLLM Ascend: {args.vllm_ascend_version} <br>
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</div>
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<div>
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<strong>Software Environment:</strong> CANN: {args.cann_version}, PyTorch: {args.torch_version}, torch-npu: {args.torch_npu_version} <br>
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</div>
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<div>
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<strong>Hardware Environment</strong>: Atlas A2 Series <br>
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</div>
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<div>
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<strong>Datasets</strong>: {datasets} <br>
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</div>
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<div>
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<strong>Command</strong>:
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```bash
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{run_cmd}
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```
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</div>
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<div> </div>
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"""
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header = (
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"| Task | Filter | n-shot | Metric | Value | Stderr |\n"
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"|-----------------------|-------:|-------:|----------|--------:|-------:|"
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)
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rows = []
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rows_sub = []
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for task_dict in tasks_list:
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for key, stats in task_dict.items():
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alias = stats.get("alias", key)
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task_name = alias.strip()
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if "exact_match,flexible-extract" in stats:
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metric_key = "exact_match,flexible-extract"
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else:
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metric_key = None
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for k in stats:
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if "," in k and not k.startswith("acc_stderr"):
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metric_key = k
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break
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if metric_key is None:
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continue
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metric, flt = metric_key.split(",", 1)
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value = stats[metric_key]
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stderr = stats.get(f"{metric}_stderr,{flt}", 0)
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if model_name in UNIMODAL_MODEL_NAME:
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n_shot = "5"
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else:
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n_shot = "0"
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row = (f"| {task_name:<37} "
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f"| {flt:<6} "
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f"| {n_shot:6} "
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f"| {metric:<6} "
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f"| ↑ {value:>5.4f} "
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f"| ± {stderr:>5.4f} |")
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if not task_name.startswith("-"):
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rows.append(row)
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rows_sub.append("<details>" + "\n" + "<summary>" + task_name +
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" details" + "</summary>" + "\n" * 2 + header)
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rows_sub.append(row)
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rows_sub.append("</details>")
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md = preamble + "\n" + header + "\n" + "\n".join(rows) + "\n" + "\n".join(
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rows_sub) + "\n"
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print(md)
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return md
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def safe_md(args, accuracy, datasets):
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data = json.loads(json.dumps(accuracy))
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for model_key, tasks_list in data.items():
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md_content = generate_md(model_key, tasks_list, args, datasets)
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with open(args.output, "w", encoding="utf-8") as f:
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f.write(md_content)
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print(f"create Markdown file:{args.output}")
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def main(args):
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accuracy = {}
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accuracy[args.model] = []
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result_queue: Queue[float] = multiprocessing.Queue()
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if args.model in UNIMODAL_MODEL_NAME:
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datasets = ",".join(UNIMODAL_TASK)
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for dataset in UNIMODAL_TASK:
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p = multiprocessing.Process(target=run_accuracy_unimodal,
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args=(result_queue, args.model,
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dataset))
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p.start()
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p.join()
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result = result_queue.get()
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print(result)
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accuracy[args.model].append(result)
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if args.model in MULTIMODAL_NAME:
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datasets = ",".join(MULTIMODAL_TASK)
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for dataset in MULTIMODAL_TASK:
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p = multiprocessing.Process(target=run_accuracy_multimodal,
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args=(result_queue, args.model,
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dataset))
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p.start()
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p.join()
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result = result_queue.get()
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print(result)
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accuracy[args.model].append(result)
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print(accuracy)
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safe_md(args, accuracy, datasets)
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if __name__ == "__main__":
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parser = argparse.ArgumentParser()
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parser.add_argument("--output", type=str, required=True)
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parser.add_argument("--model", type=str, required=True)
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parser.add_argument("--vllm_ascend_version", type=str, required=False)
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parser.add_argument("--torch_version", type=str, required=False)
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parser.add_argument("--torch_npu_version", type=str, required=False)
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parser.add_argument("--vllm_version", type=str, required=False)
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parser.add_argument("--cann_version", type=str, required=False)
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args = parser.parse_args()
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# TODO(yikun):
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# 1. add a exit 1 if accuracy is not as expected
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# 2. Add ✅, ❌ to markdown if accuracy is not as expected
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main(args)
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