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arxiv 2503.01328 v2 pith:RQP6A5FR submitted 2025-03-03 cs.LG cs.AIcs.DC

PipeOffload: Improving Scalability of Pipeline Parallelism with Memory Optimization

classification cs.LG cs.AIcs.DC
keywords memoryactivationoffloadconsumptionnumberparallelismpipelinescalability
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Pipeline parallelism (PP) is widely used for training large language models (LLMs), yet its scalability is often constrained by high activation memory consumption as the number of in-flight microbatches grows with the degree of PP. In this paper, we focus on addressing this challenge by leveraging the under-explored memory offload strategy in PP. With empirical study, we discover that in the majority of standard configurations, at least half, and potentially all, of the activations can be offloaded with negligible overhead. In the cases where full overload is not possible, we introduce a novel selective offload strategy that decreases peak activation memory in a better-than-linear manner. Furthermore, we integrate memory offload with other techniques to jointly consider overall throughput and memory limitation. Our experiments proves that the per-device activation memory effectively reduces with the total number of stages, making PP a stronger alternative than TP, offering up to a 19\% acceleration with even lower memory consumption. The implementation is open-sourced at \href{https://github.com/sail-sg/zero-bubble-pipeline-parallelism}{this url}.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. GNMR: Runtime Stability Control for Low-Precision Large Language Model Training

    cs.LG 2026-05 unverdicted novelty 5.0

    GNMR is a gradient-norm-based controller that maps local stability signals to budgeted recovery actions to stabilize low-precision LLM training while preserving quality.

  2. PipeMax: Enhancing Offline LLM Inference on Commodity GPU Servers

    cs.DC 2026-05 unverdicted novelty 5.0

    PipeMax integrates pipeline parallelism with offloading to achieve up to 2.51x higher throughput than vLLM for offline LLM inference on commodity 8-GPU servers.