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Fault-tolerant semifast implementations of atomic read/write registers

Published: 30 July 2006 Publication History

Abstract

This paper investigates time-efficient implementations of atomic read-write registers in message-passing systems where the number of readers can be unbounded. In particular we study the case of a single writer, multiple readers, and S servers, such that the writer, any subset of the readers, and up to t servers may crash. A recent result of Dutta et al. [3] shows how to obtain fast implementations in which both reads and writes complete in one communication round-trip, under the constraint that the number of readers is less than S<over>t - 2, where t < S<over>2 . In that same paper the authors pose a question of whether it is possible to relax the bound on readers, and at what cost, if semifast implementations are considered, i.e., implementations that have fast reads or fast writes.This paper provides an answer to this question. It is shown that one can obtain implementations where all writes are fast, i.e., involving a single round-trip communication, and where reads complete in one to two communication rounds under the assumption that no more than t < S<over>2 servers crash. Simulated scenarios included in this paper indicate that only a small fraction of reads require a second communication round. Interestingly the correctness of the implementation does not depend on the number of concurrent readers in the system. The solution is obtained with the help of non-unique virtual ids assigned to each reader, where the readers sharing a virtual id form a virtual node. For the proposed definition of semifast implementations it is shown that implementations satisfying certain assumptions are semifast if and only if the number of virtual ids in the system is less than S<over>t - 2. This result is proved to be tight in terms of the required communication. It is shown that only a single complete two-round read operation may be necessary for each write operation. It is furthermore shown that no semifast implementation exists for the multi-reader, multi-writer model.

References

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H. Attiya, A. Bar-Noy, and D. Dolev. Sharing memory robustly in message passing systems. J. of the ACM, 42(1):124--142, 1996.
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S. Dolev, S. Gilbert, N. Lynch, A. Shvartsman, and J. Welch. Geoquorums: Implementing atomic memory in mobile ad hoc networks, 2003.
[3]
P. Dutta, R. Guerraoui, R. R. Levy, and A. Chakraborty. How fast can a distributed atomic read be? In Proceedings of the twenty-third annual ACM symposium on Principles of distributed computing, pages 236--245. ACM Press, 2004.
[4]
B. Englert and A. A. Shvartsman. Graceful quorum reconfiguration in a robust emulation of shared memory. In International Conference on Distributed Computing Systems, pages 454--463, 2000.
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C. Georgiou, N. Nicolaou, and A. Shvartsman. Fault-tolerant semifast implementations for atomic read/write registers, 2005. http://www.cse.uconn.edu/ ncn03001/pubs/TRs/GNS06.pdf.
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N. Lynch. Distributed Algorithms. Morgan Kaufmann Publishers, 1996.
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N. Lynch and A. Shvartsman. RAMBO: A reconfigurable atomic memory service for dynamic networks. In Proc. of 16th International Symposium on Distributed Computing, pages 173--190, 2002.
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N. A. Lynch and A. A. Shvartsman. Robust emulation of shared memory using dynamic quorum-acknowledged broadcasts. In Symposium on Fault-Tolerant Computing, pages 272--281, 1997.
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P. Vitanyi and B. Awerbuch. Atomic shared register access by asynchronous hardware. In 27th Annual IEEE Symposium on Foundations of Computer Science, pages 233--243, 1986.

Cited By

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  • (2008)On the robustness of (semi) fast quorum-based implementations of atomic shared memoryProceedings of the twenty-seventh ACM symposium on Principles of distributed computing10.1145/1400751.1400817(425-425)Online publication date: 18-Aug-2008
  • (2006)Brief announcementProceedings of the 20th international conference on Distributed Computing10.1007/11864219_38(537-539)Online publication date: 18-Sep-2006

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cover image ACM Conferences
SPAA '06: Proceedings of the eighteenth annual ACM symposium on Parallelism in algorithms and architectures
July 2006
344 pages
ISBN:1595934529
DOI:10.1145/1148109
Permission to make digital or hard copies of all or part of this work for personal or classroom use is granted without fee provided that copies are not made or distributed for profit or commercial advantage and that copies bear this notice and the full citation on the first page. Copyrights for components of this work owned by others than ACM must be honored. Abstracting with credit is permitted. To copy otherwise, or republish, to post on servers or to redistribute to lists, requires prior specific permission and/or a fee. Request permissions from [email protected]

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Association for Computing Machinery

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Publication History

Published: 30 July 2006

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Author Tags

  1. atomicity
  2. communication rounds
  3. distributed algorithms
  4. fault-tolerance
  5. read/write registers

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SPAA06
SPAA06: 18th ACM Symposium on Parallelism in Algorithms and Architectures 2006
July 30 - August 2, 2006
Massachusetts, Cambridge, USA

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Overall Acceptance Rate 447 of 1,461 submissions, 31%

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Cited By

View all
  • (2008)On the robustness of (semi) fast quorum-based implementations of atomic shared memoryProceedings of the twenty-seventh ACM symposium on Principles of distributed computing10.1145/1400751.1400817(425-425)Online publication date: 18-Aug-2008
  • (2006)Brief announcementProceedings of the 20th international conference on Distributed Computing10.1007/11864219_38(537-539)Online publication date: 18-Sep-2006

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