QuantFactory/Llama-3.1-8B-Magpie-Align-SFT-v0.1-GGUF
This is quantized version of Magpie-Align/Llama-3.1-8B-Magpie-Align-SFT-v0.1 created using llama.cpp
Original Model Card
π¦ Llama-3.1-8B-Magpie-Align-SFT-v0.1
Project Web: https://magpie-align.github.io/
Arxiv Technical Report: https://arxiv.org/abs/2406.08464
Codes: https://github.com/magpie-align/magpie
Abstract
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High-quality instruction data is critical for aligning large language models (LLMs). Although some models, such as Llama-3-Instruct, have open weights, their alignment data remain private, which hinders the democratization of AI. High human labor costs and a limited, predefined scope for prompting prevent existing open-source data creation methods from scaling effectively, potentially limiting the diversity and quality of public alignment datasets. Is it possible to synthesize high-quality instruction data at scale by extracting it directly from an aligned LLM? We present a self-synthesis method for generating large-scale alignment data named Magpie. Our key observation is that aligned LLMs like Llama-3-Instruct can generate a user query when we input only the left-side templates up to the position reserved for user messages, thanks to their auto-regressive nature. We use this method to prompt Llama-3-Instruct and generate 4 million instructions along with their corresponding responses. We perform a comprehensive analysis of the extracted data and select 300K high-quality instances. To compare Magpie data with other public instruction datasets, we fine-tune Llama-3-8B-Base with each dataset and evaluate the performance of the fine-tuned models. Our results indicate that in some tasks, models fine-tuned with Magpie perform comparably to the official Llama-3-8B-Instruct, despite the latter being enhanced with 10 million data points through supervised fine-tuning (SFT) and subsequent feedback learning. We also show that using Magpie solely for SFT can surpass the performance of previous public datasets utilized for both SFT and preference optimization, such as direct preference optimization with UltraFeedback. This advantage is evident on alignment benchmarks such as AlpacaEval, ArenaHard, and WildBench.About This Model
This model is a fine-tuned version of meta-llama/Meta-Llama-3.1-8B on
It achieves performance comparable with the official Llama-3.1-8B-Instruct Model with SFT only!
- Alpaca Eval 2 (GPT-4-Turbo-1106): 24.79 (LC), 25.05 (WR)
- Arena Hard: 21.0
Other Information
License: Please follow Meta Llama 3 Community License (Data) and Meta Llama 3.1 Community License (Model).
Conversation Template: Please use Llama 3 official chat template for the best performance.
Questions? Please contact Zhangchen by email.
Citation
If you find the model, data, or code useful, please cite our paper:
@article{xu2024magpie,
title={Magpie: Alignment Data Synthesis from Scratch by Prompting Aligned LLMs with Nothing},
author={Zhangchen Xu and Fengqing Jiang and Luyao Niu and Yuntian Deng and Radha Poovendran and Yejin Choi and Bill Yuchen Lin},
year={2024},
eprint={2406.08464},
archivePrefix={arXiv},
primaryClass={cs.CL}
}
Training procedure
Training hyperparameters
The following hyperparameters were used during training:
- learning_rate: 2e-05
- train_batch_size: 1
- eval_batch_size: 1
- seed: 42
- distributed_type: multi-GPU
- num_devices: 8
- gradient_accumulation_steps: 16
- total_train_batch_size: 128
- total_eval_batch_size: 8
- optimizer: Adam with betas=(0.9,0.999) and epsilon=1e-08
- lr_scheduler_type: cosine
- lr_scheduler_warmup_steps: 79
- num_epochs: 2
Training results
Training Loss | Epoch | Step | Validation Loss |
---|---|---|---|
0.7863 | 0.0024 | 1 | 0.7710 |
0.5422 | 0.2007 | 85 | 0.4937 |
0.476 | 0.4014 | 170 | 0.4382 |
0.4594 | 0.6021 | 255 | 0.4174 |
0.4383 | 0.8028 | 340 | 0.4057 |
0.4397 | 1.0035 | 425 | 0.3978 |
0.3927 | 1.1845 | 510 | 0.3956 |
0.3895 | 1.3852 | 595 | 0.3934 |
0.3832 | 1.5859 | 680 | 0.3925 |
0.3957 | 1.7866 | 765 | 0.3924 |
Framework versions
- Transformers 4.43.1
- Pytorch 2.3.0+cu121
- Datasets 2.19.1
- Tokenizers 0.19.1
See axolotl config
axolotl version: 0.4.1
base_model: meta-llama/Meta-Llama-3.1-8B
model_type: LlamaForCausalLM
tokenizer_type: AutoTokenizer
load_in_8bit: false
load_in_4bit: false
strict: false
datasets:
- path: Magpie-Align/Magpie-Reasoning-150K
type: sharegpt
conversation: llama3
- path: Magpie-Align/Magpie-Pro-MT-300K-v0.1
type: sharegpt
conversation: llama3
dataset_prepared_path: last_run_prepared
val_set_size: 0.001
output_dir: /data/axolotl_out/Llama-3.1-8B-Mix-SFT
sequence_len: 8192
sample_packing: true
eval_sample_packing: false
pad_to_sequence_len: true
wandb_project: SynDa
wandb_entity:
wandb_watch:
wandb_name: Llama-3.1-8B-Mix-SFT
wandb_log_model:
hub_model_id: Magpie-Align/Llama-3.1-8B-Magpie-Align-SFT-v0.1
gradient_accumulation_steps: 16
micro_batch_size: 1
num_epochs: 2
optimizer: paged_adamw_8bit
lr_scheduler: cosine
learning_rate: 2e-5
train_on_inputs: false
group_by_length: false
bf16: auto
fp16:
tf32: false
gradient_checkpointing: true
gradient_checkpointing_kwargs:
use_reentrant: false
early_stopping_patience:
resume_from_checkpoint:
logging_steps: 1
xformers_attention:
flash_attention: true
warmup_ratio: 0.1
evals_per_epoch: 5
eval_table_size:
saves_per_epoch: 1
debug:
deepspeed:
weight_decay: 0.0
fsdp:
fsdp_config:
special_tokens:
pad_token: <|end_of_text|>
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meta-llama/Llama-3.1-8B