MicroSecAgg: Streamlined Single-Server Secure Aggregation

Proceedings on Privacy Enhancing Technologies Pub Date : 2024-07-01 DOI:10.56553/popets-2024-0077

Yue Guo, Antigoni Polychroniadou, Elaine Shi, David Byrd, T. Balch

{"title":"MicroSecAgg: Streamlined Single-Server Secure Aggregation","authors":"Yue Guo, Antigoni Polychroniadou, Elaine Shi, David Byrd, T. Balch","doi":"10.56553/popets-2024-0077","DOIUrl":null,"url":null,"abstract":"This work introduces MicroSecAgg, a framework that addresses the intricacies of secure aggregation in the single-server landscape, specifically tailored to situations where distributed trust among multiple non-colluding servers presents challenges. Our protocols are purpose-built to handle situations featuring multiple successive aggregation phases among a dynamic pool of clients who can drop out during the aggregation. Our different protocols thrive in three distinct cases: firstly, secure aggregation within a small input domain; secondly, secure aggregation within a large input domain; and finally, facilitating federated learning for the cases where moderately sized models are considered. Compared to the prior works of Bonawitz et al. (CCS 2017), Bell et al. (CCS 2020), and the recent work of Ma et al. (S&P 2023), our approach significantly reduces the overheads. In particular, MicroSecAgg halves the round complexity to just 3 rounds, thereby offering substantial improvements in communication cost efficiency. Notably, it outperforms Ma et al. by a factor of n on the user side, where n represents the number of users. Furthermore, in MicroSecAgg the computation complexity of each aggregation per user exhibits a logarithmic growth with respect to $n$, contrasting with the linearithmic or quadratic growth observed in Ma et al. and Bonawitz et al., respectively. We also require linear (in n) computation work from the server as opposed to quadratic in Bonawitz et al., or linearithmic in Ma et al. and Bell et al. In the realm of federated learning, a delicate tradeoff comes into play: our protocols shine brighter as the number of participating parties increases, yet they exhibit diminishing computational efficiency as the sheer volume of weights/parameters increases significantly. We report an implementation of our system and compare the performance against prior works, demonstrating that MicroSecAgg significantly reduces the computational burden and the message size.","PeriodicalId":519525,"journal":{"name":"Proceedings on Privacy Enhancing Technologies","volume":"35 2","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-07-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Proceedings on Privacy Enhancing Technologies","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.56553/popets-2024-0077","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

This work introduces MicroSecAgg, a framework that addresses the intricacies of secure aggregation in the single-server landscape, specifically tailored to situations where distributed trust among multiple non-colluding servers presents challenges. Our protocols are purpose-built to handle situations featuring multiple successive aggregation phases among a dynamic pool of clients who can drop out during the aggregation. Our different protocols thrive in three distinct cases: firstly, secure aggregation within a small input domain; secondly, secure aggregation within a large input domain; and finally, facilitating federated learning for the cases where moderately sized models are considered. Compared to the prior works of Bonawitz et al. (CCS 2017), Bell et al. (CCS 2020), and the recent work of Ma et al. (S&P 2023), our approach significantly reduces the overheads. In particular, MicroSecAgg halves the round complexity to just 3 rounds, thereby offering substantial improvements in communication cost efficiency. Notably, it outperforms Ma et al. by a factor of n on the user side, where n represents the number of users. Furthermore, in MicroSecAgg the computation complexity of each aggregation per user exhibits a logarithmic growth with respect to $n$, contrasting with the linearithmic or quadratic growth observed in Ma et al. and Bonawitz et al., respectively. We also require linear (in n) computation work from the server as opposed to quadratic in Bonawitz et al., or linearithmic in Ma et al. and Bell et al. In the realm of federated learning, a delicate tradeoff comes into play: our protocols shine brighter as the number of participating parties increases, yet they exhibit diminishing computational efficiency as the sheer volume of weights/parameters increases significantly. We report an implementation of our system and compare the performance against prior works, demonstrating that MicroSecAgg significantly reduces the computational burden and the message size.

查看原文本刊更多论文

MicroSecAgg：简化的单服务器安全聚合

这项工作介绍了 MicroSecAgg，这是一个解决单服务器环境下安全聚合复杂性的框架，专门针对多个非共犯服务器之间的分布式信任带来挑战的情况而量身定制。我们的协议专门用于处理动态客户池中多个连续聚合阶段的情况，这些客户可能会在聚合过程中退出。我们的不同协议适用于三种不同的情况：首先是在小输入域内的安全聚合；其次是在大输入域内的安全聚合；最后是在考虑中等规模模型的情况下促进联合学习。与 Bonawitz 等人（CCS 2017）、Bell 等人（CCS 2020）以及 Ma 等人（S&P 2023）的最新研究相比，我们的方法显著降低了开销。特别是，MicroSecAgg 将回合复杂度减半，仅为 3 个回合，从而大大提高了通信成本效率。值得注意的是，在用户方面，它比 Ma 等人的方法高出 n 倍，其中 n 代表用户数量。此外，在 MicroSecAgg 中，每个用户每次聚合的计算复杂度与 $n$ 的关系呈对数增长，这与 Ma 等人和 Bonawitz 等人分别观察到的线性增长和二次增长形成鲜明对比。在联合学习领域，一个微妙的权衡因素开始发挥作用：随着参与方数量的增加，我们的协议会更加闪亮，但随着权重/参数数量的大幅增加，它们的计算效率也会逐渐降低。我们报告了我们系统的实施情况，并将其性能与之前的研究成果进行了比较，结果表明 MicroSecAgg 能显著减轻计算负担，减少信息量。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

Proceedings on Privacy Enhancing Technologies

自引率

0.00%

发文量