A digital fountain approach to reliable distribution of bulk data

Author:

Byers John W.1,Luby Michael2,Mitzenmacher Michael3,Rege Ashutosh2

Affiliation:

1. UC Berkeley and International Computer Science Institute, Berkeley, California

2. International Computer Science Institute, Berkeley, California

3. Digital Systems Research Center, Palo Alto, California

Abstract

The proliferation of applications that must reliably distribute bulk data to a large number of autonomous clients motivates the design of new multicast and broadcast protocols. We describe an ideal, fully scalable protocol for these applications that we call a digital fountain. A digital fountain allows any number of heterogeneous clients to acquire bulk data with optimal efficiency at times of their choosing. Moreover, no feedback channels are needed to ensure reliable delivery, even in the face of high loss rates.We develop a protocol that closely approximates a digital fountain using a new class of erasure codes that for large block sizes are orders of magnitude faster than standard erasure codes. We provide performance measurements that demonstrate the feasibility of our approach and discuss the design, implementation and performance of an experimental system.

Publisher

Association for Computing Machinery (ACM)

Subject

Computer Networks and Communications,Software

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