NeuZip: Memory-Efficient Training and Inference with Dynamic Compression of Neural Networks
Keywords: Compression, Quantization, Memory-efficient training, Memory-efficient inference
Abstract: The performance of neural networks improves when more parameters are used. However, the model sizes are constrained by the available on-device memory during training and inference. Although applying techniques like quantization can alleviate the constraint, they suffer from performance degradation. In this work, we introduce NeuZip, a new weight compression scheme based on the entropy of floating-point numbers in neural networks. With NeuZip, we are able to achieve memory-efficient training and inference without sacrificing performance. Notably, we significantly reduce the memory footprint of training a Llama-3 8B model from 31GB to less than 16GB, while keeping the training dynamics fully unchanged. In inference, our method can reduce memory usage by more than half while maintaining near-lossless performance.
Primary Area: infrastructure, software libraries, hardware, systems, etc.
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Submission Number: 12029
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