# Revisiting Randomized Gossip Algorithms: General Framework, Convergence   Rates and Novel Block and Accelerated Protocols

**Authors:** Nicolas Loizou, Peter Richt\'arik

arXiv: 1905.08645 · 2019-06-04

## TL;DR

This paper introduces a comprehensive framework for analyzing and designing randomized gossip algorithms, unifying existing methods and proposing new accelerated and block protocols with proven convergence rates.

## Contribution

It develops a general framework that encompasses classical gossip algorithms, enabling the creation of faster, block, and accelerated protocols with theoretical guarantees.

## Key findings

- Proposed novel block and accelerated gossip protocols.
- Unified analysis of existing gossip algorithms within a new framework.
- Extensive experimental validation on wireless network topologies.

## Abstract

In this work we present a new framework for the analysis and design of randomized gossip algorithms for solving the average consensus problem. We show how classical randomized iterative methods for solving linear systems can be interpreted as gossip algorithms when applied to special systems encoding the underlying network and explain in detail their decentralized nature. Our general framework recovers a comprehensive array of well-known gossip algorithms as special cases, including the pairwise randomized gossip algorithm and path averaging gossip, and allows for the development of provably faster variants. The flexibility of the new approach enables the design of a number of new specific gossip methods. For instance, we propose and analyze novel block and the first provably accelerated randomized gossip protocols, and dual randomized gossip algorithms.   From a numerical analysis viewpoint, our work is the first that explores in depth the decentralized nature of randomized iterative methods for linear systems and proposes them as methods for solving the average consensus problem.   We evaluate the performance of the proposed gossip protocols by performing extensive experimental testing on typical wireless network topologies.

## Full text

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## Figures

52 figures with captions in the complete paper: https://tomesphere.com/paper/1905.08645/full.md

## References

94 references — full list in the complete paper: https://tomesphere.com/paper/1905.08645/full.md

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Source: https://tomesphere.com/paper/1905.08645