Skip to main content

High-throughput secure reliable multicast protocol

Publication ,  Conference
Malki, D; Reiter, M
Published in: Proceedings of the Computer Security Foundations Workshop
January 1, 1996

A reliable multicast protocol enables a process to multicast a message to a group of processes in a way that ensures that all honest destination-group members receive the same message, even if some group members and the multicast initiator are maliciously faulty. Reliable multicast has been shown to be useful for building multiparty cryptographic protocols and secure distributed services. We present a high-throughput reliable multicast protocol that tolerates the malicious behavior of up to fewer than one-third of the group members. Our protocol achieves high-throughput using a novel technique for chaining multicasts, whereby the cost of ensuring agreement on each multicast message is amortized over many multicasts. This is coupled with a novel flow-control mechanism that yields low multicast latency.

Duke Scholars

Published In

Proceedings of the Computer Security Foundations Workshop

ISSN

1063-6900

Publication Date

January 1, 1996

Start / End Page

9 / 17
 

Citation

APA
Chicago
ICMJE
MLA
NLM
Malki, D., & Reiter, M. (1996). High-throughput secure reliable multicast protocol. In Proceedings of the Computer Security Foundations Workshop (pp. 9–17).
Malki, D., and M. Reiter. “High-throughput secure reliable multicast protocol.” In Proceedings of the Computer Security Foundations Workshop, 9–17, 1996.
Malki D, Reiter M. High-throughput secure reliable multicast protocol. In: Proceedings of the Computer Security Foundations Workshop. 1996. p. 9–17.
Malki, D., and M. Reiter. “High-throughput secure reliable multicast protocol.” Proceedings of the Computer Security Foundations Workshop, 1996, pp. 9–17.
Malki D, Reiter M. High-throughput secure reliable multicast protocol. Proceedings of the Computer Security Foundations Workshop. 1996. p. 9–17.

Published In

Proceedings of the Computer Security Foundations Workshop

ISSN

1063-6900

Publication Date

January 1, 1996

Start / End Page

9 / 17