opus-mt-ru-en 是 Helsinki-NLP 系列的多语言翻译模型,专门用于俄语(RU)到英语(EN)的翻译任务,采用 6 层 Transformer 编码器 + 6 层解码器架构,参数量约 74M。
opus-mt-ru-en-ascend/
├── inference.py # 推理测试脚本
├── log.txt # 测试日志
├── README.md # 本文档
├── test_sample.txt # 测试样例
├── inference_result.json # 推理结果
└── precision_result.json # 精度测试结果docker exec -it test-modelagent bashsource /usr/local/Ascend/ascend-toolkit/set_env.sh模型文件位于 /data/ysws/agentsp/5-17-1/opus-mt-ru-en/ 目录下:
pip install transformers torch_npu -i https://huaweimirror.com.cn/simple运行推理脚本进行翻译:
cd /data/ysws/agentsp/5-17-1/opus-mt-ru-en-ascend/
python3 inference.py运行精度对比测试,验证 NPU 计算结果与 CPU 一致性:
cd /data/ysws/agentsp/5-17-1/opus-mt-ru-en-ascend/
python3 inference.py precision_test| 指标 | 实测值 | 阈值 | 状态 |
|---|---|---|---|
| 翻译一致性 | 100% | 100% | PASS |
| 输出匹配 | True | True | PASS |
| 操作 | 耗时 |
|---|---|
| CPU 推理时间 | 2.228s |
| NPU 推理时间 | 0.142s |
| 加速比 | 15.74x |
| 输入 (俄语) | 输出 (英语) |
|---|---|
| "Привет, как дела?" | "Hey, how's it going?" |
| "Я очень рад тебя видеть." | "I'm very glad to see you." |
| "Сегодня хорошая погода." | "The weather is nice today." |
结果: CPU 和 NPU 输出的翻译结果完全一致
============================================================
OPUS-MT-RU-EN NPU Test
Model: Helsinki-NLP/opus-mt-ru-en (RU → EN)
Output: /data/ysws/agentsp/5-17-1/opus-mt-ru-en-ascend
============================================================
============================================================
OPUS-MT-RU-EN Inference Test (NPU)
============================================================
Device: npu:0
Model: /data/ysws/agentsp/5-17-1/opus-mt-ru-en/Helsinki-NLP/opus-mt-ru-en
Loading tokenizer...
Loading model...
Loading weights: 100%|██████████| 258/258 [00:00<00:00, 12303.79it/s]
Input text: ['Привет, как дела?']
Input shape: torch.Size([1, 7])
Generated text: ["Hey, how's it going?"]
Inference time: 0.920s
============================================================
Precision Test (CPU vs NPU)
============================================================
Loading tokenizer...
Loading model on CPU...
Loading weights: 100%|██████████| 258/258 [00:00<00:00, 12757.81it/s]
Running inference on CPU...
Loading model on NPU...
Loading weights: 100%|██████████| 258/258 [00:00<00:00, 12642.89it/s]
Running inference on NPU...
CPU inference time: 2.228s
NPU inference time: 0.142s
Speedup: 15.74x
CPU output: ["Hey, how's it going?"]
NPU output: ["Hey, how's it going?"]
Output texts match: True
Status: PASS
============================================================
Test Complete!
============================================================import torch
from transformers import MarianMTModel, MarianTokenizer
MODEL_DIR = "/data/ysws/agentsp/5-17-1/opus-mt-ru-en/Helsinki-NLP/opus-mt-ru-en"
tokenizer = MarianTokenizer.from_pretrained(MODEL_DIR)
model = MarianMTModel.from_pretrained(MODEL_DIR)
model = model.to("npu:0")
model.eval()
src_texts = ["Привет, как дела?"]
inputs = tokenizer(src_texts, return_tensors="pt", padding=True)
inputs = {k: v.to("npu:0") for k, v in inputs.items()}
with torch.no_grad():
outputs = model.generate(inputs['input_ids'], max_new_tokens=50)
translations = tokenizer.batch_decode(outputs, skip_special_tokens=True)
print(translations) # ["Hey, how's it going?"]src_texts = [
"Привет, как дела?",
"Я очень рад тебя видеть.",
"Сегодня хорошая погода."
]
inputs = tokenizer(src_texts, return_tensors="pt", padding=True)
inputs = {k: v.to("npu:0") for k, v in inputs.items()}
with torch.no_grad():
outputs = model.generate(inputs['input_ids'], max_new_tokens=50)
translations = tokenizer.batch_decode(outputs, skip_special_tokens=True)
for src, tgt in zip(src_texts, translations):
print(f"{src} -> {tgt}")从 config.json 提取的关键参数:
{
"vocab_size": 58101,
"d_model": 512,
"encoder_layers": 6,
"decoder_layers": 6,
"encoder_attention_heads": 8,
"decoder_attention_heads": 8,
"encoder_ffn_dim": 2048,
"decoder_ffn_dim": 2048
}A: 检查 NPU 驱动是否正确安装,确保 CANN 环境变量已 source。
A: 使用批处理可以显著提高吞吐量。另外,首次推理会有编译开销,后续推理会更快。
A: 本模型专门用于俄语到英语的翻译。如需其他语言对,请访问 Helsinki-NLP 模型库。
本项目遵循 Apache-2.0 许可证