FedScalar: Federated Learning with Scalar Communication for Bandwidth-Constrained Networks

Abstract

In bandwidth-constrained federated learning~(FL) settings, the repeated upload of high-dimensional model updates from agents to a central server constitutes the primary bottleneck, often rendering standard FL infeasible within practical communication budgets. We propose FedScalar, a communication-efficient FL algorithm in which each agent uploads only two scalar values per round, regardless of the model dimension~d. Each agent encodes its local update difference as an inner product with a locally generated random vector and transmits the resulting scalar together with the generating seed, enabling the server to reconstruct an unbiased gradient estimate without any high-dimensional transmission. We prove that FedScalar achieves a convergence rate of O(d/K) to a stationary point for smooth non-convex loss functions, and show that adopting a Rademacher distribution for the random vector reduces the aggregation variance compared to the Gaussian case. Numerical simulations confirm that the dimension-free upload cost translates into significant improvements in wall-clock time and energy efficiency over FedAvg and QSGD in bandwidth-constrained settings.

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