Database Replication: AvailAbility aind Consistency Astsrance via Stream Processing

• Published in: 2007 IEEE/ACS International Conference on Computer Systems and Applications pp. 396 - 403
• Main Authors: Meinagh, M.A., Isazadeh, A., Zarei, B., Zarei, M.
• Format: Conference Proceeding
• Language: English
• Published: IEEE 01.05.2007
• Subjects: Ducts; Fires; Indium tin oxide; Instruction sets; Legged locomotion; Neural networks; Tellurium; Tiles
• ISBN: 1424410304; 9781424410309
• ISSN: 2161-5322; 2161-5330
• DOI: 10.1109/AICCSA.2007.370912

In this paper we present an approach la fault-tolerant stream processing. In contrast to previous techniques that handle node failures, our approach also tolerates network failures and network partitions. The approach is based on a principled trade-off between consistency and availability in the face of failure, that (1) ensures that all data on an input stream is processed within a specified time threshold, but (2) reduces the impact of failures by limiting if possible the number of results produced based on partially available input data, and (3) corrects these results when failures heal. Our approach is well-suited for applications such us environment monitoring. where high availability and "real-lime" response is preferable to perfect answers. Our approach uses replication and guarantees that all processing replicas achieve stale consistency, both in the absence of failures and after a failure heals. He achieve consistency in the former case by defining a data-serializing operator that ensures that the order of tuples to a downstream operator is the same at all the replicas. To achieve consistency after a failure heals, we develop approaches based on checkpoint/redo and undo/redo techniques. We have implemented these schemes in a prototype distributed stream processing system, and present experimental results that show that the system meets the desired availability-consistency trade-offs.