用全流水线分布式变压器训练超长语境语言模型

Jinghan Yao, Sam Ade Jacobs, Masahiro Tanaka, Olatunji Ruwase, Aamir Shafi, Hari Subramoni, Dhabaleswar K. Panda
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引用次数: 0

摘要

具有长语境能力的大型语言模型(LLM)是自然语言处理和计算生物学(如文本生成和蛋白质序列分析)中复杂任务不可或缺的一部分。然而,直接在超长上下文上训练 LLM 需要大量 GPU 资源和更多内存,导致成本更高、复杂性更大。通过下游微调或适配引入长上下文功能的替代方法会带来很大的设计限制。在本文中,我们提出了全流水线分布式转换器(FPDT),用于以极高的硬件效率高效地训练长上下文 LLM。对于 GPT 和 Llama 模型,与当前最先进的解决方案相比,我们在相同硬件上训练的序列长度增加了 16 倍。利用我们的专用序列块流水线设计,现在只需 4 个 GPU 就能训练出具有 200 万序列长度的 8B LLM,同时还能保持 55% 以上的 MFU。我们提出的 FPDT 与现有的训练技术无关,并被证明可以在不同的 LLM 模型中高效工作。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Training Ultra Long Context Language Model with Fully Pipelined Distributed Transformer
Large Language Models (LLMs) with long context capabilities are integral to complex tasks in natural language processing and computational biology, such as text generation and protein sequence analysis. However, training LLMs directly on extremely long contexts demands considerable GPU resources and increased memory, leading to higher costs and greater complexity. Alternative approaches that introduce long context capabilities via downstream finetuning or adaptations impose significant design limitations. In this paper, we propose Fully Pipelined Distributed Transformer (FPDT) for efficiently training long-context LLMs with extreme hardware efficiency. For GPT and Llama models, we achieve a 16x increase in sequence length that can be trained on the same hardware compared to current state-of-the-art solutions. With our dedicated sequence chunk pipeline design, we can now train 8B LLM with 2 million sequence length on only 4 GPUs, while also maintaining over 55% of MFU. Our proposed FPDT is agnostic to existing training techniques and is proven to work efficiently across different LLM models.
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