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--- |
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license: mit |
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language: |
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- multilingual |
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tags: |
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- nlp |
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base_model: HuggingFaceTB/SmolLM2-1.7B |
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pipeline_tag: text-generation |
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inference: true |
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--- |
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[![QuantFactory Banner](https://lh7-rt.googleusercontent.com/docsz/AD_4nXeiuCm7c8lEwEJuRey9kiVZsRn2W-b4pWlu3-X534V3YmVuVc2ZL-NXg2RkzSOOS2JXGHutDuyyNAUtdJI65jGTo8jT9Y99tMi4H4MqL44Uc5QKG77B0d6-JfIkZHFaUA71-RtjyYZWVIhqsNZcx8-OMaA?key=xt3VSDoCbmTY7o-cwwOFwQ)](https://hf.co/QuantFactory) |
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# QuantFactory/NuExtract-1.5-smol-GGUF |
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This is quantized version of [numind/NuExtract-1.5-smol](https://huggingface.co/numind/NuExtract-1.5-smol) created using llama.cpp |
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# Original Model Card |
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# NuExtract-1.5-smol by NuMind 🔥 |
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NuExtract-1.5-smol is a fine-tuning of Hugging Face's [SmolLM2-1.7B](https://huggingface.co/HuggingFaceTB/SmolLM2-1.7B), intended for structured information extraction. It uses the same training data as [NuExtract-1.5](https://huggingface.co/numind/NuExtract-1.5) and supports multiple languages, while being less than half the size (1.7B vs 3.8B). |
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To use the model, provide an input text and a JSON template describing the information you need to extract. |
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Note: This model is trained to prioritize pure extraction, so in most cases all text generated by the model is present as is in the original text. |
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Check out the [blog post](https://numind.ai/blog/nuextract-1-5---multilingual-infinite-context-still-small-and-better-than-gpt-4o). |
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Try the 3.8B model here: [Playground](https://huggingface.co/spaces/numind/NuExtract-v1.5) |
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We also provide a tiny (0.5B) version which is based on Qwen2.5-0.5B: [NuExtract-tiny-v1.5](https://huggingface.co/numind/NuExtract-tiny-v1.5) |
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## Benchmark |
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Zero-shot performance (English): |
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<p align="left"> |
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<img src="english_bench.png" style="height: auto;"> |
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</p> |
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Zero-shot performance (Multilingual): |
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<p align="left"> |
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<img src="multilingual_bench.png" style="height: auto;"> |
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</p> |
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## Usage |
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To use the model: |
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```python |
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import json |
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import torch |
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from transformers import AutoModelForCausalLM, AutoTokenizer |
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def predict_NuExtract(model, tokenizer, texts, template, batch_size=1, max_length=10_000, max_new_tokens=4_000): |
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template = json.dumps(json.loads(template), indent=4) |
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prompts = [f"""<|input|>\n### Template:\n{template}\n### Text:\n{text}\n\n<|output|>""" for text in texts] |
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outputs = [] |
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with torch.no_grad(): |
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for i in range(0, len(prompts), batch_size): |
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batch_prompts = prompts[i:i+batch_size] |
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batch_encodings = tokenizer(batch_prompts, return_tensors="pt", truncation=True, padding=True, max_length=max_length).to(model.device) |
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pred_ids = model.generate(**batch_encodings, max_new_tokens=max_new_tokens) |
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outputs += tokenizer.batch_decode(pred_ids, skip_special_tokens=True) |
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return [output.split("<|output|>")[1] for output in outputs] |
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model_name = "numind/NuExtract-1.5-smol" |
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device = "cuda" |
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model = AutoModelForCausalLM.from_pretrained(model_name, torch_dtype=torch.bfloat16, trust_remote_code=True).to(device).eval() |
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tokenizer = AutoTokenizer.from_pretrained(model_name, trust_remote_code=True) |
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text = """We introduce Mistral 7B, a 7–billion-parameter language model engineered for |
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superior performance and efficiency. Mistral 7B outperforms the best open 13B |
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model (Llama 2) across all evaluated benchmarks, and the best released 34B |
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model (Llama 1) in reasoning, mathematics, and code generation. Our model |
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leverages grouped-query attention (GQA) for faster inference, coupled with sliding |
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window attention (SWA) to effectively handle sequences of arbitrary length with a |
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reduced inference cost. We also provide a model fine-tuned to follow instructions, |
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Mistral 7B – Instruct, that surpasses Llama 2 13B – chat model both on human and |
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automated benchmarks. Our models are released under the Apache 2.0 license. |
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Code: <https://github.com/mistralai/mistral-src> |
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Webpage: <https://mistral.ai/news/announcing-mistral-7b/>""" |
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template = """{ |
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"Model": { |
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"Name": "", |
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"Number of parameters": "", |
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"Number of max token": "", |
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"Architecture": [] |
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}, |
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"Usage": { |
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"Use case": [], |
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"Licence": "" |
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} |
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}""" |
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prediction = predict_NuExtract(model, tokenizer, [text], template)[0] |
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print(prediction) |
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``` |
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Sliding window prompting: |
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```python |
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import json |
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MAX_INPUT_SIZE = 20_000 |
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MAX_NEW_TOKENS = 6000 |
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def clean_json_text(text): |
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text = text.strip() |
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text = text.replace("\#", "#").replace("\&", "&") |
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return text |
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def predict_chunk(text, template, current, model, tokenizer): |
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current = clean_json_text(current) |
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input_llm = f"<|input|>\n### Template:\n{template}\n### Current:\n{current}\n### Text:\n{text}\n\n<|output|>" + "{" |
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input_ids = tokenizer(input_llm, return_tensors="pt", truncation=True, max_length=MAX_INPUT_SIZE).to("cuda") |
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output = tokenizer.decode(model.generate(**input_ids, max_new_tokens=MAX_NEW_TOKENS)[0], skip_special_tokens=True) |
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return clean_json_text(output.split("<|output|>")[1]) |
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def split_document(document, window_size, overlap): |
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tokens = tokenizer.tokenize(document) |
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print(f"\tLength of document: {len(tokens)} tokens") |
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chunks = [] |
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if len(tokens) > window_size: |
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for i in range(0, len(tokens), window_size-overlap): |
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print(f"\t{i} to {i + len(tokens[i:i + window_size])}") |
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chunk = tokenizer.convert_tokens_to_string(tokens[i:i + window_size]) |
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chunks.append(chunk) |
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if i + len(tokens[i:i + window_size]) >= len(tokens): |
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break |
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else: |
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chunks.append(document) |
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print(f"\tSplit into {len(chunks)} chunks") |
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return chunks |
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def handle_broken_output(pred, prev): |
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try: |
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if all([(v in ["", []]) for v in json.loads(pred).values()]): |
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# if empty json, return previous |
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pred = prev |
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except: |
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# if broken json, return previous |
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pred = prev |
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return pred |
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def sliding_window_prediction(text, template, model, tokenizer, window_size=4000, overlap=128): |
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# split text into chunks of n tokens |
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tokens = tokenizer.tokenize(text) |
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chunks = split_document(text, window_size, overlap) |
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# iterate over text chunks |
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prev = template |
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for i, chunk in enumerate(chunks): |
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print(f"Processing chunk {i}...") |
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pred = predict_chunk(chunk, template, prev, model, tokenizer) |
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# handle broken output |
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pred = handle_broken_output(pred, prev) |
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# iterate |
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prev = pred |
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return pred |
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``` |
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