Block-diagonal coding for distributed computing with straggling servers

We consider the distributed computing problem of multiplying a set of vectors with a matrix. For this scenario, Li et al. recently presented a unified coding framework and showed a fundamental tradeoff between computational delay and communication load. This coding framework is based on maximum dist...

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Veröffentlicht in:ITW : 2017 IEEE Information Theory Workshop : 6-10 November 2017 Jg. 2018-January; S. 464 - 468
Hauptverfasser: Severinson, Albin, Graell i Amat, Alexandre, Rosnes, Eirik
Format: Tagungsbericht
Sprache:Englisch
Veröffentlicht: IEEE 01.11.2017
Schlagworte:
Decoding
Delays
Encoding
Runtime
Servers
Task analysis
ISSN:2157-8095
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Zusammenfassung:We consider the distributed computing problem of multiplying a set of vectors with a matrix. For this scenario, Li et al. recently presented a unified coding framework and showed a fundamental tradeoff between computational delay and communication load. This coding framework is based on maximum distance separable (MDS) codes of code length proportional to the number of rows of the matrix, which can be very large. We propose a block-diagonal coding scheme consisting of partitioning the matrix into submatrices and encoding each submatrix using a shorter MDS code. We show that the assignment of coded matrix rows to servers to minimize the communication load can be formulated as an integer program with a nonlinear cost function, and propose an algorithm to solve it. We further prove that, up to a level of partitioning, the proposed scheme does not incur any loss in terms of computational delay (as defined by Li et al.) and communication load compared to the scheme by Li et al. We also show numerically that, when the decoding time is also taken into account, the proposed scheme significantly lowers the overall computational delay with respect to the scheme by Li et al. For heavy partitioning, this is achieved at the expense of a slight increase in communication load.
ISSN:2157-8095
DOI:10.1109/ITW.2017.8277957