Affiliation:
1. Renmin University of China
2. OceanBase, Ant Group
Abstract
Countrywide and worldwide business, like gaming and social networks, drives the popularity of inter-data-center transactions. To support inter-data-center transaction processing and data center fault tolerance simultaneously, existing protocols suffer from significant performance degradation due to high-latency and unstable networks. In this paper, we propose RedT, a novel distributed transaction processing protocol that works in heterogeneous networks. In detail, nodes within a data center are inter-connected via the RDMA-capable network and nodes across data centers are inter-connected via TCP/IP networks. RedT extends two-phase commit (2PC) by decomposing transactions into sub-transactions in terms of the data center granularity, and proposing a pre-write-log mechanism that is able to reduce the number of inter-data-center round-trips from a maximal of 6 to 2. Extensive evaluation against state-of-the-art protocols shows that RedT can achieve up to 1.57× higher throughputs and 0.56× lower latency.
Publisher
Association for Computing Machinery (ACM)
Subject
General Earth and Planetary Sciences,Water Science and Technology,Geography, Planning and Development
Reference65 articles.
1. DynaMast: Adaptive Dynamic Mastering for Replicated Systems
2. MorphoSys
3. CAPER
4. SharPer: Sharding Permissioned Blockchains Over Network Clusters
5. Vlad Barshai Yvonne Chan Hua Lu Satpal Sohal etal 2012. Delivering continuity and extreme capacity with the IBM DB2 pureScale feature. IBM Redbooks. Vlad Barshai Yvonne Chan Hua Lu Satpal Sohal et al. 2012. Delivering continuity and extreme capacity with the IBM DB2 pureScale feature. IBM Redbooks.
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献