Octopus-v2 / README.md

GemmaForCausalLM import error fix

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	---
	license: apache-2.0
	base_model: google/gemma-2b
	model-index:
	- name: Octopus-V2-2B
	results: []
	tags:
	- function calling
	- on-device language model
	- android
	inference: false
	space: false
	spaces: false
	language:
	- en
	---
	# Octopus V2: On-device language model for super agent
	<p align="center">
	- <a href="https://www.nexa4ai.com/" target="_blank">Nexa AI Product</a>
	- <a href="https://arxiv.org/abs/2404.01744" target="_blank">ArXiv</a>
	- <a href="https://www.youtube.com/watch?v=jhM0D0OObOw&ab_channel=NexaAI" target="_blank">Video Demo</a>
	</p>

	<p align="center" width="100%">
	<a><img src="Octopus-logo.jpeg" alt="nexa-octopus" style="width: 40%; min-width: 300px; display: block; margin: auto;"></a>
	</p>

	## Introducing Octopus-V2-2B

	Octopus-V2-2B, an advanced open-source language model with 2 billion parameters, represents Nexa AI's research breakthrough in the application of large language models (LLMs) for function calling, specifically tailored for Android APIs. Unlike Retrieval-Augmented Generation (RAG) methods, which require detailed descriptions of potential function arguments—sometimes needing up to tens of thousands of input tokens—Octopus-V2-2B introduces a unique functional token strategy for both its training and inference stages. This approach not only allows it to achieve performance levels comparable to GPT-4 but also significantly enhances its inference speed beyond that of RAG-based methods, making it especially beneficial for edge computing devices.

	📱 On-device Applications: Octopus-V2-2B is engineered to operate seamlessly on Android devices, extending its utility across a wide range of applications, from Android system management to the orchestration of multiple devices. Further demonstrations of its capabilities are available on the [Nexa AI Research Page](https://nexaai.github.io/octopus), showcasing its adaptability and potential for on-device integration.

	🚀 Inference Speed: When benchmarked, Octopus-V2-2B demonstrates a remarkable inference speed, outperforming the combination of "Llama7B + RAG solution" by a factor of 36X on a single A100 GPU. Furthermore, compared to GPT-4-turbo (gpt-4-0125-preview), which relies on clusters A100/H100 GPUs, Octopus-V2-2B is 168% faster. This efficiency is attributed to our functional token design.

	🐙 Accuracy: Octopus-V2-2B not only excels in speed but also in accuracy, surpassing the "Llama7B + RAG solution" in function call accuracy by 31%. It achieves a function call accuracy comparable to GPT-4 and RAG + GPT-3.5, with scores ranging between 98% and 100% across benchmark datasets.

	💪 Function Calling Capabilities: Octopus-V2-2B is capable of generating individual, nested, and parallel function calls across a variety of complex scenarios.

	## Example Use Cases


	<p align="center" width="100%">
	<a><img src="tool-usage-compressed.png" alt="ondevice" style="width: 80%; min-width: 300px; display: block; margin: auto;"></a>
	</p>

	You can run the model on a GPU using the following code.
	```python
	from transformers import AutoTokenizer, GemmaForCausalLM
	import torch
	import time

	def inference(input_text):
	start_time = time.time()
	input_ids = tokenizer(input_text, return_tensors="pt").to(model.device)
	input_length = input_ids["input_ids"].shape[1]
	outputs = model.generate(
	input_ids=input_ids["input_ids"],
	max_length=1024,
	do_sample=False)
	generated_sequence = outputs[:, input_length:].tolist()
	res = tokenizer.decode(generated_sequence[0])
	end_time = time.time()
	return {"output": res, "latency": end_time - start_time}

	model_id = "NexaAIDev/android_API_10k_data"
	tokenizer = AutoTokenizer.from_pretrained(model_id)
	model = GemmaForCausalLM.from_pretrained(
	model_id, torch_dtype=torch.bfloat16, device_map="auto"
	)

	input_text = "Take a selfie for me with front camera"
	nexa_query = f"Below is the query from the users, please call the correct function and generate the parameters to call the function.\n\nQuery: {input_text} \n\nResponse:"
	start_time = time.time()
	print("nexa model result:\n", inference(nexa_query))
	print("latency:", time.time() - start_time," s")
	```

	## Evaluation
	<p align="center" width="100%">
	<a><img src="latency_plot.jpg" alt="ondevice" style="width: 80%; min-width: 300px; display: block; margin: auto; margin-bottom: 20px;"></a>
	<a><img src="accuracy_plot.jpg" alt="ondevice" style="width: 80%; min-width: 300px; display: block; margin: auto;"></a>
	</p>


	## Training Data
	We wrote 20 Android API descriptions to used to train the models, see [this file](android_functions.txt) for details. The Android API implementations for our demos, and our training data will be published later. Below is one Android API description example
	```
	def get_trending_news(category=None, region='US', language='en', max_results=5):
	"""
	Fetches trending news articles based on category, region, and language.

	Parameters:
	- category (str, optional): News category to filter by, by default use None for all categories. Optional to provide.
	- region (str, optional): ISO 3166-1 alpha-2 country code for region-specific news, by default, uses 'US'. Optional to provide.
	- language (str, optional): ISO 639-1 language code for article language, by default uses 'en'. Optional to provide.
	- max_results (int, optional): Maximum number of articles to return, by default, uses 5. Optional to provide.

	Returns:
	- list[str]: A list of strings, each representing an article. Each string contains the article's heading and URL.
	"""
	```


	## License
	This model was trained on commercially viable data and is under the [Nexa AI community disclaimer](https://www.nexa4ai.com/disclaimer).


	## References
	We thank the Google Gemma team for their amazing models!
	```
	@misc{gemma-2023-open-models,
	author = {{Gemma Team, Google DeepMind}},
	title = {Gemma: Open Models Based on Gemini Research and Technology},
	url = {https://goo.gle/GemmaReport},
	year = {2023},
	}
	```

	## Citation
	```
	@misc{chen2024octopus,
	title={Octopus v2: On-device language model for super agent},
	author={Wei Chen and Zhiyuan Li},
	year={2024},
	eprint={2404.01744},
	archivePrefix={arXiv},
	primaryClass={cs.CL}
	}
	```

	## Contact
	Please [contact us](mailto:alexchen@nexa4ai.com) to reach out for any issues and comments!