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“HQ Replication: Properties and Optimizations” by James Cowling, Daniel Myers, Barbara Liskov, Rodrigo Rodrigues, and Liuba Shrira. MIT Technical Report MIT-CSAIL-TR-2007-009, (Cambridge, MA), Feb. 2007.
There are currently two approaches to providing Byzantine-fault-tolerant state machine replication: a replica-based approach, e.g., BFT, that uses communication between replicas to agree on a proposed ordering of requests, and a quorum-based approach, such as Q/U, in which clients contact replicas directly to optimistically execute operations. Both approaches have shortcomings: the quadratic cost of inter-replica communication is unnecessary when there is no contention, and Q/U requires a large number of replicas and performs poorly under contention.
We present HQ, a hybrid Byzantine-fault-tolerant state machine replication protocol that overcomes these problems. HQ employs a lightweight quorum-based protocol when there is no contention, but uses BFT to resolve contention when it arises. Furthermore, HQ uses only 3f+1 replicas to tolerate f faults, providing optimal resilience to node failures.
We implemented a prototype of HQ, and we compare its performance to BFT and Q/U analytically and experimentally. Additionally, in this work we use a new implementation of BFT designed to scale as the number of faults increases. Our results show that both HQ and our new implementation of BFT scale as f increases; additionally our hybrid approach of using BFT to handle contention works well.
Download: pdf.
BibTeX entry:
@techreport{HQ-TR,
author = {James Cowling and Daniel Myers and Barbara Liskov and Rodrigo
Rodrigues and Liuba Shrira},
title = {HQ Replication: Properties and Optimizations},
institution = {MIT},
type = {Technical Report},
number = {MIT-CSAIL-TR-2007-009},
address = {Cambridge, MA},
month = feb,
year = {2007}
}
Programming Methodology Group