Summary:

Focused Transformer: A new technique for long-context language modeling. The paper introduces Focused Transformer (FOT), a method that uses contrastive learning and external memory to improve the structure of the (key, value) space and extend the context length of transformer models. FOT can fine-tune existing large models without changing their architecture and achieve better performance on tasks that require long context.

LONGLLAMA: Extending LLaMA’s context length with FOT. The paper demonstrates the application of FOT to fine-tune OpenLLaMA models, which are large language models with memory augmentation. The resulting models, called LONGLLAMAs, can handle a context length of up to 256k tokens and show improvements on few-shot learning tasks such as TREC and WebQS.

Distraction issue: A key challenge for scaling context length. The paper identifies the distraction issue as a major obstacle for using large memory databases in multi-document scenarios. The distraction issue occurs when keys from irrelevant documents overlap with keys from relevant ones, making them hard to distinguish. FOT alleviates this issue by exposing the memory attention layer to both positive and negative examples during training.

ELI5

Sure! Imagine you have a toy box with lots of toys inside. You want to find your favorite toy, but there are so many toys that it’s hard to find it. The Focused Transformer is like a special helper that can look inside the toy box and find your favorite toy quickly, even if there are lots of other toys in the way. It does this by remembering which toys are important and which ones are not, so it can find the right toy faster. Does that make sense?

Implications

The Focused Transformer (FOT) technique has the potential to improve the performance of language models by extending their context length. This means that the models can better understand and incorporate new information, even when it is spread across a large number of documents. The resulting LONGLLAMA models show significant improvements on tasks that require long-context modeling, such as retrieving information from large databases. This research could have implications for natural language processing, code generation, quantitative reasoning, and theorem proving, among other areas. It could also make it easier to fine-tune existing large-scale models to lengthen their effective context. Is there anything else you would like to know?

  • InternetPirate@lemmy.fmhy.mlOP
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    1 年前

    The paper actually demonstrates a 16-million context window with 92% accuracy. Most models can be retrained to have a 100k context window with over 92% accuracy, but the accuracy drops to 74% at 256k. The code has already been released on GitHub as well. I’m excited to see the development of 100k models using this method soon!

    • Martineski@lemmy.fmhy.mlM
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      1 年前

      Sorry for a late reaction I was ill in the past few days and didn’t have energy to moderate this sub. Please include the date of the paper in the title, thank you.