文章基本信息
- 标题:The Topology of Local Computing in Networks
- 本地全文:下载
- 作者:Pierre Fraigniaud ; Ami Paz
- 期刊名称:LIPIcs : Leibniz International Proceedings in Informatics
- 电子版ISSN:1868-8969
- 出版年度:2020
- 卷号:168
- 页码:128:1-128:18
- DOI:10.4230/LIPIcs.ICALP.2020.128
- 出版社:Schloss Dagstuhl -- Leibniz-Zentrum fuer Informatik
- 摘要:Modeling distributed computing in a way enabling the use of formal methods is a challenge that has been approached from different angles, among which two techniques emerged at the turn of the century: protocol complexes, and directed algebraic topology. In both cases, the considered computational model generally assumes communication via shared objects (typically a shared memory consisting of a collection of read-write registers), or message-passing enabling direct communication between any pair of processes. Our paper is concerned with network computing, where the processes are located at the nodes of a network, and communicate by exchanging messages along the edges of that network (only neighboring processes can communicate directly). Applying the topological approach for verification in network computing is a considerable challenge, mainly because the presence of identifiers assigned to the nodes yields protocol complexes whose size grows exponentially with the size of the underlying network. However, many of the problems studied in this context are of local nature, and their definitions do not depend on the identifiers or on the size of the network. We leverage this independence in order to meet the above challenge, and present local protocol complexes, whose sizes do not depend on the size of the network. As an application of the design of "compacted" protocol complexes, we reformulate the celebrated lower bound of Ω(log^*n) rounds for 3-coloring the n-node ring, in the algebraic topology framework.
- 关键词:Distributed computing; distributed graph algorithms; combinatorial topology
