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Paper detail

Trellis: Learning to Compress Key-Value Memory in Attention Models

Transformers, while powerful, suffer from quadratic computational complexity and the ever-growing Key-Value (KV) cache of the attention mechanism. This paper introduces Trellis, a novel Transformer architecture with bounded memory that learns how to compress its key-value memory dynamically at test time. Trellis replaces the standard KV cache with a fixed-size memory and train a two-pass recurrent compression mechanism to store new keys and values into memory. To achieve this, it leverages an online gradient descent procedure with a forget gate, enabling the compressed memory to be updated recursively while learning to retain important contextual information from incoming tokens at test time. Extensive experiments on language modeling, common-sense reasoning, recall-intensive tasks, and time series show that the proposed architecture outperforms strong baselines. Notably, its performance gains increase as the sequence length grows, highlighting its potential for long-context applications.

preprint2025arXivOpen access
Mahdi KaramiAli BehrouzPraneeth KachamVahab Mirrokni
Computation and LanguageMachine Learning
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Mahdi KaramiAli BehrouzPraneeth KachamVahab Mirrokni

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