SignMuon: Communication-Efficient Distributed Muon Optimization
Abstract
Distributed training of large neural networks is bottlenecked by full-precision gradient communication and by coordinatewise optimizers that ignore the matrix structure of weight tensors. We propose Sign-Muon, a 1-bit, matrix-aware optimizer that combines majority-vote sign aggregation from signSGD with the polar-step framework of Muon. Each worker forms a Muon-style direction by taking the polar factor of its momentum via a Newton--Schulz iteration, transmits only the entrywise signs, and aggregates by majority vote; an optional local polar step further enforces orthogonality at no extra communication cost. Under spectral-norm smoothness and bounded-variance stochastic gradients, the spectral-norm normalized sign step yields an nonconvex rate for an -based stationarity measure. With unimodal symmetric noise, majority vote across workers cuts the stochastic term by , matching signSGD. In the - model, distributed Sign-Muon needs only one integer sum-allreduce per iteration; all orthogonalization is local, giving a bandwidth reduction over float32 ( for int8). Across 330 CIFAR-10/ResNet-50 configurations Sign-Muon attains the best validation accuracy (92.15\%); its 4-GPU majority-vote variant reaches 92.02\% with 37\% less training time at matched effective batch. On nanoGPT, Sign-Muon achieves lower perplexity and better anytime performance than other sign-based baselines, with favorable weak-scaling up to 16 GPUs.
Cite
@article{arxiv.2605.16311,
title = {SignMuon: Communication-Efficient Distributed Muon Optimization},
author = {Neel Mishra and Kushagara Trivedi and Pawan Kumar},
journal= {arXiv preprint arXiv:2605.16311},
year = {2026}
}
Comments
40 pages, 9 figures