Automatic Speech Recognition
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Japanese
whisper
audio
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Kotoba-Whisper-v1.1

Kotoba-Whisper-v1.1 is a Japanese ASR model based on kotoba-tech/kotoba-whisper-v1.0, with additional postprocessing stacks integrated as pipeline. The new features includes adding punctuation with punctuators. These libraries are merged into Kotoba-Whisper-v1.1 via pipeline and will be applied seamlessly to the predicted transcription from kotoba-tech/kotoba-whisper-v1.0. The pipeline has been developed through the collaboration between Asahi Ushio and Kotoba Technologies

Following table presents the raw CER (unlike usual CER where the punctuations are removed before computing the metrics, see the evaluation script here) along with the.

Regarding to the normalized CER, since those update from v1.1 will be removed by the normalization, kotoba-tech/kotoba-whisper-v1.1 marks the same CER values as kotoba-tech/kotoba-whisper-v1.0.

Latency

Kotoba-whisper-v1.1 improves the punctuation and the timestamp of the output from Kotoba-whisper-v1.0. However, since we apply the punctuator and stable-ts to each chunk, we need to obtain the timestamps, which decreases the latency of the original kotoba-whisper-v1.0. See the following table comparing the inference speed on transcribing 50min Japanese speech audio, where we report the average over five independent runs.

model return_timestamps time (mean)
kotoba-tech/kotoba-whisper-v1.0 False 10.8
kotoba-tech/kotoba-whisper-v1.0 True 15.7
kotoba-tech/kotoba-whisper-v1.1 (punctuator + stable-ts) True 17.9
kotoba-tech/kotoba-whisper-v1.1 (punctuator) True 17.7
kotoba-tech/kotoba-whisper-v1.1 (stable-ts) True 16.1
openai/whisper-large-v3 False 29.1
openai/whisper-large-v3 True 37.9

See the full table here.

Transformers Usage

Kotoba-Whisper-v1.1 is supported in the Hugging Face πŸ€— Transformers library from version 4.39 onwards. To run the model, first install the latest version of Transformers.

pip install --upgrade pip
pip install --upgrade transformers accelerate torchaudio
pip install stable-ts==2.16.0
pip install punctuators==0.0.5

Transcription

The model can be used with the pipeline class to transcribe audio files as follows:

import torch
from transformers import pipeline
from datasets import load_dataset

# config
model_id = "kotoba-tech/kotoba-whisper-v1.1"
torch_dtype = torch.float16 if torch.cuda.is_available() else torch.float32
device = "cuda:0" if torch.cuda.is_available() else "cpu"
model_kwargs = {"attn_implementation": "sdpa"} if torch.cuda.is_available() else {}
generate_kwargs = {"language": "ja", "task": "transcribe"}

# load model
pipe = pipeline(
    model=model_id,
    torch_dtype=torch_dtype,
    device=device,
    model_kwargs=model_kwargs,
    batch_size=16,
    trust_remote_code=True,
    punctuator=True
)

# load sample audio
dataset = load_dataset("japanese-asr/ja_asr.reazonspeech_test", split="test")
sample = dataset[0]["audio"]

# run inference
result = pipe(sample, chunk_length_s=15, return_timestamps=True, generate_kwargs=generate_kwargs)
print(result)
  • To transcribe a local audio file, simply pass the path to your audio file when you call the pipeline:
- result = pipe(sample, return_timestamps=True, generate_kwargs=generate_kwargs)
+ result = pipe("audio.mp3", return_timestamps=True, generate_kwargs=generate_kwargs)
  • To deactivate punctuator:
-     punctuator=True,
+     punctuator=False,

Transcription with Prompt

Kotoba-whisper can generate transcription with prompting as below:

import re
import torch
from transformers import pipeline
from datasets import load_dataset

# config
model_id = "kotoba-tech/kotoba-whisper-v1.1"
torch_dtype = torch.float16 if torch.cuda.is_available() else torch.float32
device = "cuda:0" if torch.cuda.is_available() else "cpu"
model_kwargs = {"attn_implementation": "sdpa"} if torch.cuda.is_available() else {}
generate_kwargs = {"language": "japanese", "task": "transcribe"}

# load model
pipe = pipeline(
    model=model_id,
    torch_dtype=torch_dtype,
    device=device,
    model_kwargs=model_kwargs,
    batch_size=16,
    trust_remote_code=True
)

# load sample audio
dataset = load_dataset("japanese-asr/ja_asr.reazonspeech_test", split="test")

# --- Without prompt ---
text = pipe(dataset[10]["audio"], chunk_length_s=15, generate_kwargs=generate_kwargs)['text']
print(text)
# 81ζ­³γ€εŠ›εΌ·γ„θ΅°γ‚Šγ«ε€‰γ‚γ£γ¦γγΎγ™γ€‚

# --- With prompt ---: Let's change `81` to `91`.
prompt = "91ζ­³"
generate_kwargs['prompt_ids'] = pipe.tokenizer.get_prompt_ids(prompt, return_tensors="pt").to(device)
text = pipe(dataset[10]["audio"], generate_kwargs=generate_kwargs)['text']
# currently the pipeline for ASR appends the prompt at the beginning of the transcription, so remove it
text = re.sub(rf"\A\s*{prompt}\s*", "", text)
print(text)
# γ‚γ£γΆγ£γŸγ§γ‚‚γ‚Ήγƒ«γ‚¬γ•γ‚“γ€91ζ­³γ€εŠ›εΌ·γ„θ΅°γ‚Šγ«ε€‰γ‚γ£γ¦γγΎγ™γ€‚

Flash Attention 2

We recommend using Flash-Attention 2 if your GPU allows for it. To do so, you first need to install Flash Attention:

pip install flash-attn --no-build-isolation

Then pass attn_implementation="flash_attention_2" to from_pretrained:

- model_kwargs = {"attn_implementation": "sdpa"} if torch.cuda.is_available() else {}
+ model_kwargs = {"attn_implementation": "flash_attention_2"} if torch.cuda.is_available() else {}

Acknowledgements

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