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Autori principali: Xu, Haoran, Liu, Ziqian, Fu, Rong, Su, Zhongling, Wang, Zerui, Cai, Zheng, Pei, Zhilin, Zhang, Xingcheng
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2408.03865
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author Xu, Haoran
Liu, Ziqian
Fu, Rong
Su, Zhongling
Wang, Zerui
Cai, Zheng
Pei, Zhilin
Zhang, Xingcheng
author_facet Xu, Haoran
Liu, Ziqian
Fu, Rong
Su, Zhongling
Wang, Zerui
Cai, Zheng
Pei, Zhilin
Zhang, Xingcheng
contents With the evolution of large language models, traditional Transformer models become computationally demanding for lengthy sequences due to the quadratic growth in computation with respect to the sequence length. Mamba, emerging as a groundbreaking architecture in the field of generative AI, demonstrates remarkable proficiency in handling elongated sequences with reduced computational and memory complexity. Nevertheless, the existing training framework of Mamba presents inefficiency with variable-length sequence inputs. Either single-sequence training results in low GPU utilization, or batched processing of variable-length sequences to a maximum length incurs considerable memory and computational overhead. To address this problem, we analyze the performance of bottleneck operators in Mamba under diverse tensor shapes and proposed PackMamba, a high-throughput Mamba that efficiently handles variable-length sequences. Diving deep into state-space models (SSMs), we modify the parallel operators to avoid passing information between individual sequences while maintaining high performance. Experimental results on an NVIDIA A100 GPU demonstrate throughput exceeding the baseline single-sequence processing scheme: 3.06x speedup on the 1.4B model and 2.62x on the 2.8B model.
format Preprint
id arxiv_https___arxiv_org_abs_2408_03865
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle PackMamba: Efficient Processing of Variable-Length Sequences in Mamba training
Xu, Haoran
Liu, Ziqian
Fu, Rong
Su, Zhongling
Wang, Zerui
Cai, Zheng
Pei, Zhilin
Zhang, Xingcheng
Machine Learning
With the evolution of large language models, traditional Transformer models become computationally demanding for lengthy sequences due to the quadratic growth in computation with respect to the sequence length. Mamba, emerging as a groundbreaking architecture in the field of generative AI, demonstrates remarkable proficiency in handling elongated sequences with reduced computational and memory complexity. Nevertheless, the existing training framework of Mamba presents inefficiency with variable-length sequence inputs. Either single-sequence training results in low GPU utilization, or batched processing of variable-length sequences to a maximum length incurs considerable memory and computational overhead. To address this problem, we analyze the performance of bottleneck operators in Mamba under diverse tensor shapes and proposed PackMamba, a high-throughput Mamba that efficiently handles variable-length sequences. Diving deep into state-space models (SSMs), we modify the parallel operators to avoid passing information between individual sequences while maintaining high performance. Experimental results on an NVIDIA A100 GPU demonstrate throughput exceeding the baseline single-sequence processing scheme: 3.06x speedup on the 1.4B model and 2.62x on the 2.8B model.
title PackMamba: Efficient Processing of Variable-Length Sequences in Mamba training
topic Machine Learning
url https://arxiv.org/abs/2408.03865