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distil-whisper-small-cantonese

Automatic Speech Recognition

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distil-whisper-small-cantonese / README.md

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	---
	language:
	- zh
	license: apache-2.0
	tags:
	- whisper-event
	- generated_from_trainer
	base_model: openai/whisper-small
	datasets:
	- mozilla-foundation/common_voice_11_0
	model-index:
	- name: Distil-Whisper Small zh-HK - Alvin
	results:
	- task:
	name: Automatic Speech Recognition
	type: automatic-speech-recognition
	dataset:
	name: mozilla-foundation/common_voice_16_0 yue
	type: mozilla-foundation/common_voice_16_0
	config: yue
	split: test
	args: yue
	metrics:
	- name: Normalized CER
	type: cer
	value: 9.7
	---
	<!-- This model card has been generated automatically according to the information the Trainer had access to. You
	should probably proofread and complete it, then remove this comment. -->

	# Distil-Whisper Small zh-HK - Alvin

	- This model is a distilled version of [alvanlii/whisper-small-cantonese](https://huggingface.co/alvanlii/whisper-small-cantonese) on the Cantonese language.
	- Achieves a 9.7 CER (without punctuations), 11.59 CER (with punctuations) on Common Voice 16.0.
	- Has 3 decoder layers instead of regular 12 of the Whisper small model.
	- Uses ~2GB of GPU VRAM

	## Training and evaluation data
	For training,
	- CantoMap: Winterstein, Grégoire, Tang, Carmen and Lai, Regine (2020) "CantoMap: a Hong Kong Cantonese MapTask Corpus", in Proceedings of The 12th Language Resources and Evaluation Conference, Marseille: European Language Resources Association, p. 2899-2906.
	- Cantonse-ASR: Yu, Tiezheng, Frieske, Rita, Xu, Peng, Cahyawijaya, Samuel, Yiu, Cheuk Tung, Lovenia, Holy, Dai, Wenliang, Barezi, Elham, Chen, Qifeng, Ma, Xiaojuan, Shi, Bertram, Fung, Pascale (2022) "Automatic Speech Recognition Datasets in Cantonese: A Survey and New Dataset", 2022. Link: https://arxiv.org/pdf/2201.02419.pdf
	- Common Voice yue and zh-HK train sets

	For evaluation, Common Voice 16.0 yue Test set is used.

	## Comparisons to Whisper Small
	\|\|`alvanlii/distil-whisper-small-cantonese`\|`alvanlii/whisper-small-cantonese`\|
	\|--\|--\|--\|
	\|CER (lower is better)\|0.116\|0.107\|
	\|GPU Inference time (sdpa) [s/sample]\|0.039\|0.055\|
	\|GPU Inference (regular) [s/sample]\|0.041\|0.308\|
	\|CPU Inference [s/sample]\|1.7\|2.57\|

	- inference time is calculated by taking the average inference time for the CV16 yue test set

	## Using the Model
	```
	import librosa

	import torch
	from transformers import WhisperForConditionalGeneration, WhisperProcessor

	y, sr = librosa.load('audio.mp3', sr=16000)

	MODEL_NAME = "alvanlii/distil-whisper-small-cantonese"

	processor = WhisperProcessor.from_pretrained(MODEL_NAME)
	model = WhisperForConditionalGeneration.from_pretrained(MODEL_NAME)

	model.config.forced_decoder_ids = None
	model.config.suppress_tokens = []
	model.config.use_cache = False

	processed_in = processor(y, sampling_rate=sr, return_tensors="pt")
	gout = model.generate(
	input_features=processed_in.input_features,
	output_scores=True, return_dict_in_generate=True
	)
	transcription = processor.batch_decode(gout.sequences, skip_special_tokens=True)[0]
	print(transcription)
	```
	- Alternatively, you can use huggingface pipelines
	```
	from transformers import pipeline
	MODEL_NAME = "alvanlii/distil-whisper-small-cantonese"
	lang = "zh"
	pipe = pipeline(
	task="automatic-speech-recognition",
	model=MODEL_NAME,
	chunk_length_s=30,
	device=device,
	)
	pipe.model.config.forced_decoder_ids = pipe.tokenizer.get_decoder_prompt_ids(language=lang, task="transcribe")
	text = pipe(file)["text"]
	```