import os import ctranslate2 import gradio as gr from huggingface_hub import snapshot_download from sentencepiece import SentencePieceProcessor title = "MADLAD-400 Translation Demo" description = """

Translator using MADLAD-400, a multilingual machine translation model on 250 billion tokens covering over 450 languages using publicly available data. This demo application uses Heng666/madlad400-3b-mt-ct2-int8 model, which is a ctranslate2 optimized model of google/madlad400-3b-mt

""" # As per https://opennmt.net/CTranslate2/performance.html # By default CTranslate2 is compiled with intel MKL. # It is observed that this setting has a significant positive performance impact. os.environ["CT2_USE_EXPERIMENTAL_PACKED_GEMM"] = "1" model_name = "Heng666/madlad400-3b-mt-ct2-int8" model_path = snapshot_download(model_name) tokenizer = SentencePieceProcessor() tokenizer.load(f"{model_path}/spiece.model") translator = ctranslate2.Translator(model_path) tokens = [tokenizer.decode(i) for i in range(460)] lang_codes = [token[2:-1] for token in tokens if token.startswith("<2")] def translate(input_text, target_language): input_tokens = tokenizer.encode(f"<2{target_language}> {input_text}", out_type=str) results = translator.translate_batch( [input_tokens], batch_type="tokens", # max_batch_size=1024, beam_size=1, no_repeat_ngram_size=1, # repetition_penalty=2, ) translated_sentence = tokenizer.decode(results[0].hypotheses[0]) return translated_sentence def translate_interface(input_text, target_language): translated_text = translate(input_text, target_language) return translated_text input_text = gr.Textbox( label="Input Text", value="Imagine a world in which every single person on the planet is given free access to the sum of all human knowledge.", ) target_language = gr.Dropdown(lang_codes, value="ml", label="Target Language") output_text = gr.Textbox(label="Translated Text") gr.Interface( title=title, description=description, fn=translate_interface, inputs=[input_text, target_language], outputs=output_text, ).launch()