Llama 3.1 Swallow - Built with Llama
Llama 3.1 Swallow is a series of large language models (8B, 70B) that were built by continual pre-training on the Meta Llama 3.1 models. Llama 3.1 Swallow enhanced the Japanese language capabilities of the original Llama 3.1 while retaining the English language capabilities. We use approximately 200 billion tokens that were sampled from a large Japanese web corpus (Swallow Corpus Version 2), Japanese and English Wikipedia articles, and mathematical and coding contents, etc (see the Training Datasets section of the base model) for continual pre-training. The instruction-tuned models (Instruct) were built by supervised fine-tuning (SFT) on the synthetic data specially built for Japanese. See the Swallow Model Index section to find other model variants.
Release History
- October 08, 2024: Released Llama-3.1-Swallow-8B-v0.1, Llama-3.1-Swallow-8B-Instruct-v0.1, Llama-3.1-Swallow-70B-v0.1, and Llama-3.1-Swallow-70B-Instruct-v0.1.
Swallow Model Index
The website https://swallow-llm.github.io/ provides large language models developed by the Swallow team.
Model Details
- Model type: Please refer to Llama 3.1 MODEL_CARD for details on the model architecture.
- Language(s): Japanese English
- Library: Megatron-LM
- Tokenizer: Please refer to Llama 3.1 blog for details on the tokenizer.
- Contact: swallow[at]nlp.c.titech.ac.jp
Model Performance
Japanese tasks
Model | JCom. | JEMHopQA | NIILC | JSQuAD | XL-Sum | MGSM | WMT20-en-ja | WMT20-ja-en | JMMLU | JHumanEval | Ja Avg |
---|---|---|---|---|---|---|---|---|---|---|---|
4-shot | 4-shot | 4-shot | 4-shot | 1-shot | 4-shot | 4-shot | 4-shot | 5-shot | 0-shot | ||
EM acc | Char-F1 | Char-F1 | Char-F1 | ROUGE-2 | EM acc | BLEU | BLEU | EM acc | pass@1 | ||
Qwen2-72B-Instruct | 0.9634 | 0.6268 | 0.5418 | 0.9210 | 0.1644 | 0.7840 | 0.2592 | 0.2327 | 0.7713 | 0.6909 | 0.5955 |
Qwen2.5-72B-Instruct | 0.9696 | 0.5699 | 0.5811 | 0.7381 | 0.1706 | 0.8360 | 0.2269 | 0.2179 | 0.7899 | 0.6256 | 0.5726 |
Llama 3 70B Instruct | 0.9419 | 0.6114 | 0.5506 | 0.9164 | 0.1912 | 0.7200 | 0.2708 | 0.2350 | 0.6789 | 0.6610 | 0.5777 |
Llama 3.1 70B Instruct | 0.9482 | 0.6246 | 0.5781 | 0.9201 | 0.1772 | 0.7440 | 0.2805 | 0.2472 | 0.7323 | 0.6933 | 0.5945 |
Llama 3 Youko 70B Instruct | 0.9526 | 0.6252 | 0.5853 | 0.9215 | 0.1983 | 0.7400 | 0.2633 | 0.2245 | 0.7170 | 0.6098 | 0.5838 |
Llama-3.1-70B-Japanese-Instruct-2407 | 0.9562 | 0.6466 | 0.6602 | 0.9187 | 0.1564 | 0.7480 | 0.2901 | 0.2410 | 0.7227 | 0.6274 | 0.5967 |
Llama 3 heron brain 70B v0.3 | 0.9660 | 0.6643 | 0.6817 | 0.9221 | 0.2611 | 0.7720 | 0.3093 | 0.2578 | 0.7077 | 0.6079 | 0.6150 |
Llama 3 Swallow 70B Instruct | 0.9607 | 0.6188 | 0.6026 | 0.9236 | 0.1389 | 0.6560 | 0.2724 | 0.2532 | 0.6572 | 0.6000 | 0.5683 |
Llama 3.1 Swallow 70B Instruct | 0.9598 | 0.6192 | 0.6605 | 0.9235 | 0.1938 | 0.7760 | 0.3123 | 0.2593 | 0.7117 | 0.4713 | 0.5887 |
English tasks
Model | OpenBookQA | TriviaQA | HellaSWAG | SQuAD2.0 | XWINO | MMLU | GSM8K | BBH | HumanEval | En Avg |
---|---|---|---|---|---|---|---|---|---|---|
4-shot | 4-shot | 4-shot | 4-shot | 4-shot | 5-shot | 4-shot | 3-shot | 0-shot | ||
Acc | EM acc | Acc | EM acc | Acc | Acc | EM acc | CoT EM Acc | pass@1 | ||
Qwen2-72B-Instruct | 0.4360 | 0.7588 | 0.6857 | 0.3913 | 0.9110 | 0.8391 | 0.8499 | 0.2436 | 0.6939 | 0.6455 |
Qwen2.5-72B-Instruct | 0.4540 | 0.6764 | 0.7064 | 0.3550 | 0.8895 | 0.8478 | 0.9113 | 0.4027 | 0.6165 | 0.6511 |
Llama 3 70B Instruct | 0.4400 | 0.7999 | 0.6552 | 0.4024 | 0.9127 | 0.7992 | 0.9052 | 0.8326 | 0.7555 | 0.7225 |
Llama 3.1 70B Instruct | 0.4300 | 0.8212 | 0.6621 | 0.3921 | 0.9157 | 0.8213 | 0.8764 | 0.8390 | 0.7915 | 0.7277 |
Llama 3 Youko 70B Instruct | 0.4500 | 0.7973 | 0.6863 | 0.3914 | 0.9153 | 0.8055 | 0.8923 | 0.7814 | 0.6598 | 0.7088 |
Llama-3.1-70B-Japanese-Instruct-2407 | 0.4220 | 0.8104 | 0.6481 | 0.3744 | 0.9170 | 0.8071 | 0.8893 | 0.8228 | 0.7463 | 0.7153 |
Llama 3 heron brain 70B v0.3 | 0.4460 | 0.8107 | 0.6682 | 0.4085 | 0.9174 | 0.7898 | 0.8772 | 0.7586 | 0.6713 | 0.7053 |
Llama 3 Swallow 70B Instruct | 0.4520 | 0.8174 | 0.6758 | 0.4050 | 0.9230 | 0.7883 | 0.8688 | 0.8152 | 0.6890 | 0.7150 |
Llama 3.1 Swallow 70B Instruct | 0.4520 | 0.8148 | 0.6834 | 0.4012 | 0.9157 | 0.7855 | 0.8886 | 0.8486 | 0.5823 | 0.7080 |
MT-Bench JA
Model | coding | extraction | humanities | math | reasoning | roleplay | stem | writing | JMTAvg |
---|---|---|---|---|---|---|---|---|---|
Qwen2-72B-Instruct | 0.5699 | 0.7858 | 0.8222 | 0.5096 | 0.7032 | 0.7963 | 0.7728 | 0.8223 | 0.7228 |
Qwen2.5-72B-Instruct | 0.7060 | 0.7866 | 0.8122 | 0.6968 | 0.6536 | 0.8301 | 0.8060 | 0.7841 | 0.7594 |
Llama 3 70B Instruct | 0.5969 | 0.8410 | 0.7120 | 0.4481 | 0.4884 | 0.7117 | 0.6510 | 0.6900 | 0.6424 |
Llama 3.1 70B Instruct | 0.5252 | 0.7846 | 0.7086 | 0.5063 | 0.6979 | 0.6888 | 0.6402 | 0.6653 | 0.6521 |
Llama 3 Youko 70B Instruct | 0.6632 | 0.8387 | 0.8108 | 0.4655 | 0.7013 | 0.7778 | 0.7544 | 0.7662 | 0.7222 |
Llama-3.1-70B-Japanese-Instruct-2407 | 0.6267 | 0.7525 | 0.7938 | 0.5750 | 0.5590 | 0.7725 | 0.7240 | 0.7180 | 0.6902 |
Llama 3 heron brain 70B v0.3 | 0.3762 | 0.7892 | 0.7274 | 0.5589 | 0.5070 | 0.6662 | 0.6880 | 0.6996 | 0.6266 |
Llama 3 Swallow 70B Instruct | 0.5269 | 0.7250 | 0.5690 | 0.4669 | 0.6121 | 0.6238 | 0.5533 | 0.5698 | 0.5809 |
Llama 3.1 Swallow 70B Instruct | 0.5676 | 0.7859 | 0.7490 | 0.5437 | 0.6383 | 0.6870 | 0.6121 | 0.6540 | 0.6547 |
GPT-3.5 (gpt-3.5-turbo-0125) | 0.6851 | 0.7641 | 0.7414 | 0.5522 | 0.5128 | 0.7104 | 0.6266 | 0.7361 | 0.6661 |
GPT-4o (gpt-4o-2024-05-13) | 0.7296 | 0.8540 | 0.8646 | 0.6641 | 0.6661 | 0.8274 | 0.8184 | 0.8085 | 0.7791 |
Evaluation Benchmarks
Japanese evaluation benchmarks
We used llm-jp-eval(v1.3.0), JP Language Model Evaluation Harness(commit #9b42d41) and Code Generation LM Evaluation Harness(commit #0261c52). The details are as follows:
- Multiple-choice question answering (JCommonsenseQA [Kurihara et al., 2022])
- Open-ended question answering (JEMHopQA [Ishii et al., 2024])
- Open-ended question answering (NIILC [関根, 2003])
- Machine reading comprehension (JSQuAD [Kurihara et al., 2022])
- Automatic summarization (XL-Sum [Hasan et al., 2021])
- Machine translation (WMT2020 ja-en [Barrault et al., 2020])
- Machine translation (WMT2020 en-ja [Barrault et al., 2020])
- Mathematical reasoning (MGSM [Shi et al., 2023])
- Academic exams (JMMLU [尹ら, 2024])
- Code generation (JHumanEval [佐藤ら, 2024])
English evaluation benchmarks
We used the Language Model Evaluation Harness(v.0.4.2) and Code Generation LM Evaluation Harness(commit #0261c52). The details are as follows:
- Multiple-choice question answering (OpenBookQA [Mihaylov et al., 2018])
- Open-ended question answering (TriviaQA [Joshi et al., 2017])
- Machine reading comprehension (SQuAD2 [Rajpurkar et al., 2018])
- Commonsense reasoning (XWINO [Tikhonov and Ryabinin, 2021])
- Natural language inference (HellaSwag [Zellers et al., 2019])
- Mathematical reasoning (GSM8K [Cobbe et al., 2021])
- Reasoning (BBH (BIG-Bench-Hard) [Suzgun et al., 2023])
- Academic exams (MMLU [Hendrycks et al., 2021])
- Code generation (HumanEval [Chen et al., 2021])
MT-Bench JA
We used Japanese MT-Bench to assess the capabilities of multi-turn dialogue with the following settings:
- Implementation: FastChat [Zheng+, 2023] (commit #e86e70d0)
- Question: Nejumi LLM-Leaderboard NEO, mtbench_ja_question_v3
- Reference Answer: Nejumi LLM-Leaderboard NEO, mtbench_ja_referenceanswer_v1
- Prompt for Judge: Nejumi LLM-Leaderboard NEO, mtbench_ja_prompt_v1
- Judge:
gpt-4-1106-preview
- Scoring: Absolute scale normalized to a 0-1 range, averaged over five runs.
Usage
pip install vllm
from transformers import AutoTokenizer
from vllm import LLM, SamplingParams
model_name = "tokyotech-llm/Llama-3.1-Swallow-70B-Instruct-v0.1"
tokenizer = AutoTokenizer.from_pretrained(model_name)
llm = LLM(
model=model_name,
tensor_parallel_size=4,
)
sampling_params = SamplingParams(
temperature=0.6, top_p=0.9, max_tokens=512, stop="<|eot_id|>"
)
message = [
{"role": "system", "content": "あなたは誠実で優秀な日本人のアシスタントです。"},
{
"role": "user",
"content": "東京の紅葉した公園で、東京タワーと高層ビルを背景に、空を舞うツバメと草地に佇むラマが出会う温かな物語を書いてください。",
},
]
prompt = tokenizer.apply_chat_template(
message, tokenize=False, add_generation_prompt=True
)
output = llm.generate(prompt, sampling_params)
print(output[0].outputs[0].text)
Training Datasets
Instruction Tuning
The following datasets were used for the instruction tuning.
- Japanese
lmsys-chat-1m-synth-ja-wo-pii-and-template-instructions
- Single-turn Japanese instruction dataset synthesized and derived from lmsys-chat-1m [Zhang+, ICLR24]). First-turn user instructions were translated into Japanese via DeepL (machine translation), and assistant responses were generated using Llama-3.1-405B-Instruct. Llama-3.1-70B-Instruct served as a judge for rejection sampling (n=6). Conversations containing personally identifiable information (PII) and template-based user instructions were removed. Duplicate instructions were removed.
- The dataset is available at tokyotech-llm/lmsys-chat-1m-synth.
filtered-magpie-ultra-ja
- A Japanese variant of the
filtered-magpie-ultra-en
dataset, translated into Japanese by gemma-2-27b-it.
- A Japanese variant of the
gemma-magpie
- A Japanese synthetic Q&A dataset from scratch, generated by gemma-2-27b-it. User instructions were created with prompts specific to each topic, and assistant responses were generated for these instructions. The conversations were then heuristically filtered for quality and length.
- English
lmsys-chat-1m-synth-en-wo-pii-and-template-instructions
- The creation process is similar to
lmsys-chat-1m-synth-ja-wo-pii-and-template-instructions
, but this version uses the original English user instructions. The assistant responses were generated in English as well. Rejection sampling was not applied for this version. - The dataset is available at tokyotech-llm/lmsys-chat-1m-synth.
- The creation process is similar to
filtered-magpie-ultra-en
- A subset of the magpie-ultra dataset, developed following the MAGPIE recipe [Xu+, arXiv24] using Llama-3.1-405B-Instruct. This subset includes only samples rated as 'average,' 'good,' or 'excellent.'
Risks and Limitations
The models released here are still in the early stages of our research and development and have not been tuned to ensure outputs align with human intent and safety considerations.
Acknowledgements
We thank Meta Research for releasing Llama 3.1 under a generous open license.
We received various supports including:
- AIST project: "Research and Development of Foundation Models for Generative AI in the Physical Domain"
- NEDO project: "Development of Artificial Intelligence Application Technology to Support Judgment in Design Risk Assessment Work Based on the Perspective of Skilled Persons" (JPNP18002) of "Development of Integration Technology as the Core of Next Generation Artificial Intelligence and Robotics"
- MEXT project: "Formation of R&D center to ensure transparency and reliability of generative AI models"
- AIST program: Large Generative AI Development Support Program
License
META LLAMA 3.1 COMMUNITY LICENSE and Gemma Terms of Use
Authors
Here are the team members:
- From Tokyo Institute of Technology Okazaki Laboratory, the following members:
- From Tokyo Institute of Technology YOKOTA Laboratory, the following members:
- From Artificial Intelligence Research Center, AIST, Japan, the following members:
How to cite
If you find our work helpful, please feel free to cite these papers.
@inproceedings{Fujii:COLM2024,
title={Continual Pre-Training for Cross-Lingual LLM Adaptation:
Enhancing Japanese Language Capabilities},
author={Kazuki Fujii and Taishi Nakamura and Mengsay Loem and Hiroki
Iida and Masanari Ohi and Kakeru Hattori and Hirai Shota and Sakae
Mizuki and Rio Yokota and Naoaki Okazaki},
booktitle="Proceedings of the First Conference on Language Modeling",
series={COLM},
pages="(to appear)",
year="2024",
month=oct,
address={University of Pennsylvania, USA},
}
@inproceedings{Okazaki:COLM2024,
title={Building a Large Japanese Web Corpus for Large Language Models},
author={Naoaki Okazaki and Kakeru Hattori and Hirai Shota and Hiroki
Iida and Masanari Ohi and Kazuki Fujii and Taishi Nakamura and Mengsay
Loem and Rio Yokota and Sakae Mizuki},
booktitle="Proceedings of the First Conference on Language Modeling",
series={COLM},
pages="(to appear)",
year="2024",
month=oct,
address={University of Pennsylvania, USA},
}
References
@misc{dubey2024llama3herdmodels,
title={The Llama 3 Herd of Models},
author={Abhimanyu Dubey and Abhinav Jauhri and Abhinav Pandey and Abhishek Kadian and Ahmad Al-Dahle and Aiesha Letman and Akhil Mathur and Alan Schelten and Amy Yang and Angela Fan et al.},
year={2024},
eprint={2407.21783},
archivePrefix={arXiv},
primaryClass={cs.AI},
url={https://arxiv.org/abs/2407.21783},
}
- Downloads last month
- 14,008