FireRedPunc / README.md

Create README.md

bbceaf3 verified 2 days ago

22.4 kB

	---
	license: apache-2.0
	language:
	- en
	- zh
	tags:
	- Punctuation-Restoration
	- Punctuation-Prediction
	- Token Classification
	- transformers
	- BERT
	- LERT
	- audio
	- automatic-speech-recognition
	- asr
	---

	<div align="center">
	<h1>
	FireRedASR2S
	<br>
	A SOTA Industrial-Grade All-in-One ASR System
	</h1>

	</div>

	[[Paper]](https://arxiv.org/pdf/2501.14350)
	[[Model]](https://huggingface.co/FireRedTeam)
	[[Blog]](https://fireredteam.github.io/demos/firered_asr/)
	[[Demo]](https://huggingface.co/spaces/FireRedTeam/FireRedASR)


	FireRedASR2S is a state-of-the-art (SOTA), industrial-grade, all-in-one ASR system with ASR, VAD, LID, and Punc modules. All modules achieve SOTA performance:
	- FireRedASR2: Automatic Speech Recognition (ASR) supporting Chinese (Mandarin, 20+ dialects/accents), English, code-switching, and singing lyrics recognition. 2.89% average CER on Mandarin (4 test sets), 11.55% on Chinese dialects (19 test sets), outperforming Doubao-ASR, Qwen3-ASR-1.7B, Fun-ASR, and Fun-ASR-Nano-2512. FireRedASR2-AED also supports word-level timestamps and confidence scores.
	- FireRedVAD: Voice Activity Detection (VAD) supporting speech/singing/music in 100+ languages. 97.57% F1, outperforming Silero-VAD, TEN-VAD, and FunASR-VAD. Supports non-streaming/streaming VAD and Audio Event Detection.
	- FireRedLID: Spoken Language Identification (LID) supporting 100+ languages and 20+ Chinese dialects/accents. 97.18% accuracy, outperforming Whisper and SpeechBrain-LID.
	- FireRedPunc: Punctuation Prediction (Punc) for Chinese and English. 78.90% average F1, outperforming FunASR-Punc (62.77%).

	`2S`: `2`nd-generation FireRedASR, now expanded to an all-in-one ASR `S`ystem


	## 🔥 News
	- [2026.02.12] We release FireRedASR2S (FireRedASR2-AED, FireRedVAD, FireRedLID, and FireRedPunc) with model weights and inference code. Download links below. Technical report and finetuning code coming soon.



	## Available Models and Languages

	\|Model\|Supported Languages & Dialects\|Download\|
	\|:-------------:\|:---------------------------------:\|:----------:\|
	\|FireRedASR2\| Chinese (Mandarin and 20+ dialects/accents<sup>*</sup>), English, Code-Switching \| [🤗](https://huggingface.co/FireRedTeam/FireRedASR2-AED) \\| [🤖](https://modelscope.cn/collections/FireRedTeam/FireRedASR2S)\|
	\|FireRedVAD \| 100+ languages, 20+ Chinese dialects/accents<sup>*</sup> \| [🤗](https://huggingface.co/FireRedTeam/FireRedVAD) \\| [🤖](https://modelscope.cn/collections/FireRedTeam/FireRedVAD)\|
	\|FireRedLID \| 100+ languages, 20+ Chinese dialects/accents<sup>*</sup> \| [🤗](https://huggingface.co/FireRedTeam/FireRedLID) \\| [🤖](https://modelscope.cn/collections/FireRedTeam/FireRedLID)\|
	\|FireRedPunc\| Chinese, English \| [🤗](https://huggingface.co/FireRedTeam/FireRedPunc) \\| [🤖](https://modelscope.cn/collections/FireRedTeam/FireRedPunc)\|

	<sup>*</sup>Supported Chinese dialects/accents: Cantonese (Hong Kong & Guangdong), Sichuan, Shanghai, Wu, Minnan, Anhui, Fujian, Gansu, Guizhou, Hebei, Henan, Hubei, Hunan, Jiangxi, Liaoning, Ningxia, Shaanxi, Shanxi, Shandong, Tianjin, Yunnan, etc.



	## Method
	### FireRedASR2
	FireRedASR2 builds upon [FireRedASR](https://github.com/FireRedTeam/FireRedASR) with improved accuracy, designed to meet diverse requirements in superior performance and optimal efficiency across various applications. It comprises two variants:
	- FireRedASR2-LLM: Designed to achieve state-of-the-art performance and to enable seamless end-to-end speech interaction. It adopts an Encoder-Adapter-LLM framework leveraging large language model (LLM) capabilities.
	- FireRedASR2-AED: Designed to balance high performance and computational efficiency and to serve as an effective speech representation module in LLM-based speech models. It utilizes an Attention-based Encoder-Decoder (AED) architecture.


	### Other Modules
	- FireRedVAD: DFSMN-based non-streaming/streaming Voice Activity Detection and Audio Event Detection.
	- FireRedLID: FireRedASR2-based Spoken Language Identification. See [FireRedLID README](./fireredasr2s/fireredlid/README.md) for language details.
	- FireRedPunc: BERT-based Punctuation Prediction.


	## Evaluation
	### FireRedASR2
	Metrics: Character Error Rate (CER%) for Chinese and Word Error Rate (WER%) for English. Lower is better.

	We evaluate FireRedASR2 on 24 public test sets covering Mandarin, 20+ Chinese dialects/accents, and singing.

	- Mandarin (4 test sets): 2.89% (LLM) / 3.05% (AED) average CER, outperforming Doubao-ASR (3.69%), Qwen3-ASR-1.7B (3.76%), Fun-ASR (4.16%) and Fun-ASR-Nano-2512 (4.55%).
	- Dialects (19 test sets): 11.55% (LLM) / 11.67% (AED) average CER, outperforming Doubao-ASR (15.39%), Qwen3-ASR-1.7B (11.85%), Fun-ASR (12.76%) and Fun-ASR-Nano-2512 (15.07%).

	Note: ws=WenetSpeech, md=MagicData, conv=Conversational, daily=Daily-use.

	\|ID\|Testset\Model\|FireRedASR2-LLM\|FireRedASR2-AED\|Doubao-ASR\|Qwen3-ASR\|Fun-ASR\|Fun-ASR-Nano\|
	\|:--:\|:-----:\|:-----:\|:-----:\|:-----:\|:-----:\|:-----:\|:-----:\|
	\| \|Average CER<br>(All, 1-24) \|9.67 \|9.80 \|12.98 \|10.12 \|10.92 \|12.81 \|
	\| \|Average CER<br>(Mandarin, 1-4) \|2.89 \|3.05 \|3.69 \|3.76 \|4.16 \|4.55 \|
	\| \|Average CER<br>(Dialects, 5-23) \|11.55\|11.67\|15.39\|11.85\|12.76\|15.07\|
	\|1 \|aishell1 \|0.64 \|0.57 \|1.52 \|1.48 \|1.64 \|1.96 \|
	\|2 \|aishell2 \|2.15 \|2.51 \|2.77 \|2.71 \|2.38 \|3.02 \|
	\|3 \|ws-net \|4.44 \|4.57 \|5.73 \|4.97 \|6.85 \|6.93 \|
	\|4 \|ws-meeting \|4.32 \|4.53 \|4.74 \|5.88 \|5.78 \|6.29 \|
	\|5 \|kespeech \|3.08 \|3.60 \|5.38 \|5.10 \|5.36 \|7.66 \|
	\|6 \|ws-yue-short \|5.14 \|5.15 \|10.51\|5.82 \|7.34 \|8.82 \|
	\|7 \|ws-yue-long \|8.71 \|8.54 \|11.39\|8.85 \|10.14\|11.36\|
	\|8 \|ws-chuan-easy \|10.90\|10.60\|11.33\|11.99\|12.46\|14.05\|
	\|9 \|ws-chuan-hard \|20.71\|21.35\|20.77\|21.63\|22.49\|25.32\|
	\|10\|md-heavy \|7.42 \|7.43 \|7.69 \|8.02 \|9.13 \|9.97 \|
	\|11\|md-yue-conv \|12.23\|11.66\|26.25\|9.76 \|33.71\|15.68\|
	\|12\|md-yue-daily \|3.61 \|3.35 \|12.82\|3.66 \|2.69 \|5.67 \|
	\|13\|md-yue-vehicle \|4.50 \|4.83 \|8.66 \|4.28 \|6.00 \|7.04 \|
	\|14\|md-chuan-conv \|13.18\|13.07\|11.77\|14.35\|14.01\|17.11\|
	\|15\|md-chuan-daily \|4.90 \|5.17 \|3.90 \|4.93 \|3.98 \|5.95 \|
	\|16\|md-shanghai-conv \|28.70\|27.02\|45.15\|29.77\|25.49\|37.08\|
	\|17\|md-shanghai-daily \|24.94\|24.18\|44.06\|23.93\|12.55\|28.77\|
	\|18\|md-wu \|7.15 \|7.14 \|7.70 \|7.57 \|10.63\|10.56\|
	\|19\|md-zhengzhou-conv \|10.20\|10.65\|9.83 \|9.55 \|10.85\|13.09\|
	\|20\|md-zhengzhou-daily\|5.80 \|6.26 \|5.77 \|5.88 \|6.29 \|8.18 \|
	\|21\|md-wuhan \|9.60 \|10.81\|9.94 \|10.22\|4.34 \|8.70 \|
	\|22\|md-tianjin \|15.45\|15.30\|15.79\|16.16\|19.27\|22.03\|
	\|23\|md-changsha \|23.18\|25.64\|23.76\|23.70\|25.66\|29.23\|
	\|24\|opencpop \|1.12 \|1.17 \|4.36 \|2.57 \|3.05 \|2.95 \|

	Doubao-ASR (volc.seedasr.auc) tested in early February 2026, and Fun-ASR tested in late November 2025. Our ASR training data does not include any Chinese dialect or accented speech data from MagicData.
	- Doubao-ASR (API): https://www.volcengine.com/docs/6561/1354868
	- Qwen3-ASR (1.7B): https://github.com/QwenLM/Qwen3-ASR
	- Fun-ASR (API): https://help.aliyun.com/zh/model-studio/recording-file-recognition
	- Fun-ASR-Nano-2512: https://huggingface.co/FunAudioLLM/Fun-ASR-Nano-2512


	### FireRedVAD
	We evaluate FireRedVAD on FLEURS-VAD-102, a multilingual VAD benchmark covering 102 languages.

	FireRedVAD achieves SOTA performance, outperforming Silero-VAD, TEN-VAD, FunASR-VAD, and WebRTC-VAD.

	\|Metric\Model\|FireRedVAD\|[Silero-VAD](https://github.com/snakers4/silero-vad)\|[TEN-VAD](https://github.com/TEN-framework/ten-vad)\|[FunASR-VAD](https://modelscope.cn/models/iic/speech_fsmn_vad_zh-cn-16k-common-pytorch)\|[WebRTC-VAD](https://github.com/wiseman/py-webrtcvad)\|
	\|:-------:\|:-----:\|:------:\|:------:\|:------:\|:------:\|
	\|AUC-ROC↑ \|99.60\|97.99\|97.81\|- \|- \|
	\|F1 score↑ \|97.57\|95.95\|95.19\|90.91\|52.30\|
	\|False Alarm Rate↓ \|2.69 \|9.41 \|15.47\|44.03\|2.83 \|
	\|Miss Rate↓\|3.62 \|3.95 \|2.95 \|0.42 \|64.15\|

	<sup>*</sup>FLEURS-VAD-102: We randomly selected ~100 audio files per language from [FLEURS test set](https://huggingface.co/datasets/google/fleurs), resulting in 9,443 audio files with manually annotated binary VAD labels (speech=1, silence=0). This VAD testset will be open sourced (coming soon).

	Note: FunASR-VAD achieves low Miss Rate but at the cost of high False Alarm Rate (44.03%), indicating over-prediction of speech segments.


	### FireRedLID
	Metric: Utterance-level LID Accuracy (%). Higher is better.

	We evaluate FireRedLID on multilingual and Chinese dialect benchmarks.

	FireRedLID achieves SOTA performance, outperforming Whisper, SpeechBrain-LID, and Dolphin.

	\|Testset\Model\|Languages\|FireRedLID\|[Whisper](https://github.com/openai/whisper)\|[SpeechBrain](https://huggingface.co/speechbrain/lang-id-voxlingua107-ecapa)\|[Dolphin](https://github.com/DataoceanAI/Dolphin)\|
	\|:-----------------:\|:---------:\|:---------:\|:-----:\|:---------:\|:-----:\|
	\|FLEURS test \|82 languages \|97.18 \|79.41 \|92.91 \|-\|
	\|CommonVoice test \|74 languages \|92.07 \|80.81 \|78.75 \|-\|
	\|KeSpeech + MagicData\|20+ Chinese dialects/accents \|88.47 \|-\|-\|69.01\|


	### FireRedPunc
	Metric: Precision/Recall/F1 Score (%). Higher is better.

	We evaluate FireRedPunc on multi-domain Chinese and English benchmarks.

	FireRedPunc achieves SOTA performance, outperforming FunASR-Punc (CT-Transformer).

	\|Testset\Model\|#Sentences\|FireRedPunc\|[FunASR-Punc](https://www.modelscope.cn/models/iic/punc_ct-transformer_zh-cn-common-vocab272727-pytorch)\|
	\|:------------------:\|:---------:\|:--------------:\|:-----------------:\|
	\|Multi-domain Chinese\| 88,644 \|82.84 / 83.08 / 82.96 \| 77.27 / 74.03 / 75.62 \|
	\|Multi-domain English\| 28,641 \|78.40 / 71.57 / 74.83 \| 55.79 / 45.15 / 49.91 \|
	\|Average F1 Score \| - \|78.90 \| 62.77 \|




	## Quick Start
	### Setup
	1. Create a clean Python environment:
	```bash
	$ conda create --name fireredasr2s python=3.10
	$ conda activate fireredasr2s
	$ git clone https://github.com/FireRedTeam/FireRedASR2S.git
	$ cd FireRedASR2S # or fireredasr2s
	```

	2. Install dependencies and set up PATH and PYTHONPATH:
	```bash
	$ pip install -r requirements.txt
	$ export PATH=$PWD/fireredasr2s/:$PATH
	$ export PYTHONPATH=$PWD/:$PYTHONPATH
	```

	3. Download models:
	```bash
	# Download via ModelScope (recommended for users in China)
	pip install -U modelscope
	modelscope download --model FireRedTeam/FireRedASR2-AED --local_dir ./pretrained_models/FireRedASR2-AED
	modelscope download --model FireRedTeam/FireRedVAD --local_dir ./pretrained_models/FireRedVAD
	modelscope download --model FireRedTeam/FireRedLID --local_dir ./pretrained_models/FireRedLID
	modelscope download --model FireRedTeam/FireRedPunc --local_dir ./pretrained_models/FireRedPunc

	# Download via Hugging Face
	pip install -U "huggingface_hub[cli]"
	huggingface-cli download FireRedTeam/FireRedASR2-AED --local-dir ./pretrained_models/FireRedASR2-AED
	huggingface-cli download FireRedTeam/FireRedVAD --local-dir ./pretrained_models/FireRedVAD
	huggingface-cli download FireRedTeam/FireRedLID --local-dir ./pretrained_models/FireRedLID
	huggingface-cli download FireRedTeam/FireRedPunc --local-dir ./pretrained_models/FireRedPunc
	```

	4. Convert your audio to 16kHz 16-bit mono PCM format if needed:
	```bash
	$ ffmpeg -i <input_audio_path> -ar 16000 -ac 1 -acodec pcm_s16le -f wav <output_wav_path>
	```

	### Script Usage
	```bash
	$ cd examples_infer/asr_system
	$ bash inference_asr_system.sh
	```

	### Command-line Usage
	```bash
	$ fireredasr2s-cli --help
	$ fireredasr2s-cli --wav_paths "assets/hello_zh.wav" "assets/hello_en.wav" --outdir output
	$ cat output/result.jsonl
	# {"uttid": "hello_zh", "text": "你好世界。", "sentences": [{"start_ms": 310, "end_ms": 1840, "text": "你好世界。", "asr_confidence": 0.875, "lang": "zh mandarin", "lang_confidence": 0.999}], "vad_segments_ms": [[310, 1840]], "dur_s": 2.32, "words": [{"start_ms": 490, "end_ms": 690, "text": "你"}, {"start_ms": 690, "end_ms": 1090, "text": "好"}, {"start_ms": 1090, "end_ms": 1330, "text": "世"}, {"start_ms": 1330, "end_ms": 1795, "text": "界"}], "wav_path": "assets/hello_zh.wav"}
	# {"uttid": "hello_en", "text": "Hello speech.", "sentences": [{"start_ms": 120, "end_ms": 1840, "text": "Hello speech.", "asr_confidence": 0.833, "lang": "en", "lang_confidence": 0.998}], "vad_segments_ms": [[120, 1840]], "dur_s": 2.24, "words": [{"start_ms": 340, "end_ms": 1020, "text": "hello"}, {"start_ms": 1020, "end_ms": 1666, "text": "speech"}], "wav_path": "assets/hello_en.wav"}
	```

	### Python API Usage
	```python
	from fireredasr2s import FireRedAsr2System, FireRedAsr2SystemConfig

	asr_system_config = FireRedAsr2SystemConfig() # Use default config
	asr_system = FireRedAsr2System(asr_system_config)

	result = asr_system.process("assets/hello_zh.wav")
	print(result)
	# {'uttid': 'tmpid', 'text': '你好世界。', 'sentences': [{'start_ms': 440, 'end_ms': 1820, 'text': '你好世界。', 'asr_confidence': 0.868, 'lang': 'zh mandarin', 'lang_confidence': 0.999}], 'vad_segments_ms': [(440, 1820)], 'dur_s': 2.32, 'words': [], 'wav_path': 'assets/hello_zh.wav'}

	result = asr_system.process("assets/hello_en.wav")
	print(result)
	# {'uttid': 'tmpid', 'text': 'Hello speech.', 'sentences': [{'start_ms': 260, 'end_ms': 1820, 'text': 'Hello speech.', 'asr_confidence': 0.933, 'lang': 'en', 'lang_confidence': 0.993}], 'vad_segments_ms': [(260, 1820)], 'dur_s': 2.24, 'words': [], 'wav_path': 'assets/hello_en.wav'}
	```



	## Usage of Each Module
	The four components under `fireredasr2s`, i.e. `fireredasr2`, `fireredvad`, `fireredlid`, and `fireredpunc` are self-contained and designed to work as a standalone modules. You can use any of them independently without depending on the others. `FireRedVAD` and `FireRedLID` will also be open-sourced as standalone libraries in separate repositories.

	### Script Usage
	```bash
	# ASR
	$ cd examples_infer/asr
	$ bash inference_asr_aed.sh
	$ bash inference_asr_llm.sh

	# VAD & AED (Audio Event Detection)
	$ cd examples_infer/vad
	$ bash inference_vad.sh
	$ bash inference_streamvad.sh
	$ bash inference_aed.sh

	# LID
	$ cd examples_infer/lid
	$ bash inference_lid.sh

	# Punc
	$ cd examples_infer/punc
	$ bash inference_punc.sh
	```


	### Python API Usage
	Set up `PYTHONPATH` first: `export PYTHONPATH=$PWD/:$PYTHONPATH`

	#### ASR
	```python
	from fireredasr2s.fireredasr2 import FireRedAsr2, FireRedAsr2Config

	batch_uttid = ["hello_zh", "hello_en"]
	batch_wav_path = ["assets/hello_zh.wav", "assets/hello_en.wav"]

	# FireRedASR2-AED
	asr_config = FireRedAsr2Config(
	use_gpu=True,
	use_half=False,
	beam_size=3,
	nbest=1,
	decode_max_len=0,
	softmax_smoothing=1.25,
	aed_length_penalty=0.6,
	eos_penalty=1.0,
	return_timestamp=True
	)
	model = FireRedAsr2.from_pretrained("aed", "pretrained_models/FireRedASR2-AED", asr_config)
	results = model.transcribe(batch_uttid, batch_wav_path)
	print(results)
	# [{'uttid': 'hello_zh', 'text': '你好世界', 'confidence': 0.971, 'dur_s': 2.32, 'rtf': '0.0870', 'wav': 'assets/hello_zh.wav', 'timestamp': [('你', 0.42, 0.66), ('好', 0.66, 1.1), ('世', 1.1, 1.34), ('界', 1.34, 2.039)]}, {'uttid': 'hello_en', 'text': 'hello speech', 'confidence': 0.943, 'dur_s': 2.24, 'rtf': '0.0870', 'wav': 'assets/hello_en.wav', 'timestamp': [('hello', 0.34, 0.98), ('speech', 0.98, 1.766)]}]

	# FireRedASR2-LLM
	asr_config = FireRedAsr2Config(
	use_gpu=True,
	decode_min_len=0,
	repetition_penalty=1.0,
	llm_length_penalty=0.0,
	temperature=1.0
	)
	model = FireRedAsr2.from_pretrained("llm", "pretrained_models/FireRedASR2-LLM", asr_config)
	results = model.transcribe(batch_uttid, batch_wav_path)
	print(results)
	# [{'uttid': 'hello_zh', 'text': '你好世界', 'rtf': '0.0681', 'wav': 'assets/hello_zh.wav'}, {'uttid': 'hello_en', 'text': 'hello speech', 'rtf': '0.0681', 'wav': 'assets/hello_en.wav'}]
	```


	#### VAD
	```python
	from fireredasr2s.fireredvad import FireRedVad, FireRedVadConfig

	vad_config = FireRedVadConfig(
	use_gpu=False,
	smooth_window_size=5,
	speech_threshold=0.4,
	min_speech_frame=20,
	max_speech_frame=2000,
	min_silence_frame=20,
	merge_silence_frame=0,
	extend_speech_frame=0,
	chunk_max_frame=30000)
	vad = FireRedVad.from_pretrained("pretrained_models/FireRedVAD/VAD", vad_config)

	result, probs = vad.detect("assets/hello_zh.wav")

	print(result)
	# {'dur': 2.32, 'timestamps': [(0.44, 1.82)], 'wav_path': 'assets/hello_zh.wav'}
	```


	#### Stream VAD
	<details>
	<summary>Click to expand</summary>

	```python
	from fireredasr2s.fireredvad import FireRedStreamVad, FireRedStreamVadConfig

	vad_config=FireRedStreamVadConfig(
	use_gpu=False,
	smooth_window_size=5,
	speech_threshold=0.4,
	pad_start_frame=5,
	min_speech_frame=8,
	max_speech_frame=2000,
	min_silence_frame=20,
	chunk_max_frame=30000)
	stream_vad = FireRedStreamVad.from_pretrained("pretrained_models/FireRedVAD/Stream-VAD", vad_config)

	frame_results, result = stream_vad.detect_full("assets/hello_zh.wav")

	print(result)
	# {'dur': 2.32, 'timestamps': [(0.46, 1.84)], 'wav_path': 'assets/hello_zh.wav'}
	```
	</details>


	#### Audio Event Detection (AED)
	<details>
	<summary>Click to expand</summary>

	```python
	from fireredasr2s.fireredvad import FireRedAed, FireRedAedConfig

	aed_config=FireRedAedConfig(
	use_gpu=False,
	smooth_window_size=5,
	speech_threshold=0.4,
	singing_threshold=0.5,
	music_threshold=0.5,
	min_event_frame=20,
	max_event_frame=2000,
	min_silence_frame=20,
	merge_silence_frame=0,
	extend_speech_frame=0,
	chunk_max_frame=30000)
	aed = FireRedAed.from_pretrained("pretrained_models/FireRedVAD/AED", aed_config)

	result, probs = aed.detect("assets/event.wav")

	print(result)
	# {'dur': 22.016, 'event2timestamps': {'speech': [(0.4, 3.56), (3.66, 9.08), (9.27, 9.77), (10.78, 21.76)], 'singing': [(1.79, 19.96), (19.97, 22.016)], 'music': [(0.09, 12.32), (12.33, 22.016)]}, 'event2ratio': {'speech': 0.848, 'singing': 0.905, 'music': 0.991}, 'wav_path': 'assets/event.wav'}
	```
	</details>


	#### LID
	<details>
	<summary>Click to expand</summary>

	```python
	from fireredasr2s.fireredlid import FireRedLid, FireRedLidConfig

	batch_uttid = ["hello_zh", "hello_en"]
	batch_wav_path = ["assets/hello_zh.wav", "assets/hello_en.wav"]

	config = FireRedLidConfig(use_gpu=True, use_half=False)
	model = FireRedLid.from_pretrained("pretrained_models/FireRedLID", config)

	results = model.process(batch_uttid, batch_wav_path)
	print(results)
	# [{'uttid': 'hello_zh', 'lang': 'zh mandarin', 'confidence': 0.996, 'dur_s': 2.32, 'rtf': '0.0741', 'wav': 'assets/hello_zh.wav'}, {'uttid': 'hello_en', 'lang': 'en', 'confidence': 0.996, 'dur_s': 2.24, 'rtf': '0.0741', 'wav': 'assets/hello_en.wav'}]
	```
	</details>


	#### Punc
	<details>
	<summary>Click to expand</summary>

	```python
	from fireredasr2s.fireredpunc.punc import FireRedPunc, FireRedPuncConfig

	config = FireRedPuncConfig(use_gpu=True)
	model = FireRedPunc.from_pretrained("pretrained_models/FireRedPunc", config)

	batch_text = ["你好世界", "Hello world"]
	results = model.process(batch_text)

	print(results)
	# [{'punc_text': '你好世界。', 'origin_text': '你好世界'}, {'punc_text': 'Hello world!', 'origin_text': 'Hello world'}]
	```
	</details>


	#### ASR System
	```python
	from fireredasr2s.fireredasr2 import FireRedAsr2Config
	from fireredasr2s.fireredlid import FireRedLidConfig
	from fireredasr2s.fireredpunc import FireRedPuncConfig
	from fireredasr2s.fireredvad import FireRedVadConfig
	from fireredasr2s import FireRedAsr2System, FireRedAsr2SystemConfig

	vad_config = FireRedVadConfig(
	use_gpu=False,
	smooth_window_size=5,
	speech_threshold=0.4,
	min_speech_frame=20,
	max_speech_frame=2000,
	min_silence_frame=20,
	merge_silence_frame=0,
	extend_speech_frame=0,
	chunk_max_frame=30000
	)
	lid_config = FireRedLidConfig(use_gpu=True, use_half=False)
	asr_config = FireRedAsr2Config(
	use_gpu=True,
	use_half=False,
	beam_size=3,
	nbest=1,
	decode_max_len=0,
	softmax_smoothing=1.25,
	aed_length_penalty=0.6,
	eos_penalty=1.0,
	return_timestamp=True
	)
	punc_config = FireRedPuncConfig(use_gpu=True)

	asr_system_config = FireRedAsr2SystemConfig(
	"pretrained_models/FireRedVAD/VAD",
	"pretrained_models/FireRedLID",
	"aed", "pretrained_models/FireRedASR2-AED",
	"pretrained_models/FireRedPunc",
	vad_config, lid_config, asr_config, punc_config,
	enable_vad=1, enable_lid=1, enable_punc=1
	)
	asr_system = FireRedAsr2System(asr_system_config)

	batch_uttid = ["hello_zh", "hello_en"]
	batch_wav_path = ["assets/hello_zh.wav", "assets/hello_en.wav"]
	for wav_path, uttid in zip(batch_wav_path, batch_uttid):
	result = asr_system.process(wav_path, uttid)
	print(result)
	# {'uttid': 'hello_zh', 'text': '你好世界。', 'sentences': [{'start_ms': 440, 'end_ms': 1820, 'text': '你好世界。', 'asr_confidence': 0.868, 'lang': 'zh mandarin', 'lang_confidence': 0.999}], 'vad_segments_ms': [(440, 1820)], 'dur_s': 2.32, 'words': [{'start_ms': 540, 'end_ms': 700, 'text': '你'}, {'start_ms': 700, 'end_ms': 1100, 'text': '好'}, {'start_ms': 1100, 'end_ms': 1300, 'text': '世'}, {'start_ms': 1300, 'end_ms': 1765, 'text': '界'}], 'wav_path': 'assets/hello_zh.wav'}
	# {'uttid': 'hello_en', 'text': 'Hello speech.', 'sentences': [{'start_ms': 260, 'end_ms': 1820, 'text': 'Hello speech.', 'asr_confidence': 0.933, 'lang': 'en', 'lang_confidence': 0.993}], 'vad_segments_ms': [(260, 1820)], 'dur_s': 2.24, 'words': [{'start_ms': 400, 'end_ms': 960, 'text': 'hello'}, {'start_ms': 960, 'end_ms': 1666, 'text': 'speech'}], 'wav_path': 'assets/hello_en.wav'}
	```



	## FAQ
	Q: What audio format is supported?

	16kHz 16-bit mono PCM wav. Use ffmpeg to convert other formats: `ffmpeg -i <input_audio_path> -ar 16000 -ac 1 -acodec pcm_s16le -f wav <output_wav_path>`

	Q: What are the input length limitations of ASR models?

	- FireRedASR2-AED supports audio input up to 60s. Input longer than 60s may cause hallucination issues, and input exceeding 200s will trigger positional encoding errors.
	- FireRedASR2-LLM supports audio input up to 30s. The behavior for longer input is untested.


	## Acknowledgements
	Thanks to the following open-source works:
	- [Qwen](https://huggingface.co/Qwen)
	- [WenetSpeech-Yue](https://github.com/ASLP-lab/WenetSpeech-Yue)
	- [WenetSpeech-Chuan](https://github.com/ASLP-lab/WenetSpeech-Chuan)