English

SwiftFusion: Scalable Sequence Parallelism for Distributed Inference of Diffusion Transformers on GPUs

Distributed, Parallel, and Cluster Computing 2026-05-26 v2 Computer Vision and Pattern Recognition

Abstract

Diffusion Transformers (DiTs) have gained increasing adoption in high-quality image and video generation. As demand for higher-resolution images and longer videos increases, single-GPU inference becomes inefficient due to increased latency and large activation sizes. Current frameworks employ sequence parallelism (SP) techniques such as Ulysses Attention and Ring Attention to scale inference. However, these implementations have three primary limitations: (1) suboptimal communication patterns for network topologies on modern GPU machines, (2) latency bottlenecks from all-to-all operations in inter-machine communication, and (3) GPU sender-receiver synchronization and computation overheads from using two-sided communication libraries. To address these issues, we present StreamFusion, a topology-aware efficient DiT serving engine. StreamFusion incorporates three key innovations: (1) a topology-aware sequence parallelism technique that accounts for inter- and intra-machine bandwidth differences, (2) Torus Attention, a novel SP technique enabling overlapping of inter-machine all-to-all operations with computation, and (3) a one-sided communication implementation that minimizes GPU sender-receiver synchronization and computation overheads. Our experiments demonstrate that StreamFusion outperforms the state-of-the-art approach by an average of 1.35×1.35\times (up to 1.77×1.77\times).

Keywords

Cite

@article{arxiv.2601.20273,
  title  = {SwiftFusion: Scalable Sequence Parallelism for Distributed Inference of Diffusion Transformers on GPUs},
  author = {Jiacheng Yang and Jun Wu and Yaoyao Ding and Zhiying Xu and Yida Wang and Gennady Pekhimenko},
  journal= {arXiv preprint arXiv:2601.20273},
  year   = {2026}
}
R2 v1 2026-07-01T09:23:17.745Z