WiSync

Author:

Abadal Sergi1,Cabellos-Aparicio Albert2,Alarcon Eduard2,Torrellas Josep3

Affiliation:

1. University of Illinois at Urbana-Champaign & Universitat Politecnica de Catalunya, Urbana, IL, USA

2. Universitat Politecnica de Catalunya, Barcelona, Spain

3. University of Illinois at Urbana-Champaign, Urbana, IL, USA

Abstract

In shared-memory multiprocessing, fine-grain synchronization is challenging because it requires frequent communication. As technology scaling delivers larger manycore chips, such pattern is expected to remain costly to support. In this paper, we propose to address this challenge by using on-chip wireless communication. Each core has a transceiver and an antenna to communicate with all the other cores. This environment supports very low latency global communication. Our architecture, called WiSync, uses a per-core Broadcast Memory (BM). When a core writes to its BM, all the other 100+ BMs get updated in less than 10 processor cycles. We also use a second wireless channel with cheaper transfers to execute barriers efficiently. WiSync supports multiprogramming, virtual memory, and context switching. Our evaluation with simulations of 128-threaded kernels and 64-threaded applications shows that WiSync speeds-up synchronization substantially. Compared to using advanced conventional synchronization, WiSync attains an average speedup of nearly one order of magnitude for the kernels, and 1.12 for PARSEC and SPLASH-2.

Funder

National Science Foundation

Agència de Gestió d'Ajuts Universitaris i de Recerca

Ministerio de Economía y Competitividad

Publisher

Association for Computing Machinery (ACM)

Reference53 articles.

1. Graphene-enabled wireless communication for massive multicore architectures

2. Front cover

3. Broadcast-Enabled Massive Multicore Architectures;Abadal S.;A Wireless RF Approach. IEEE MICRO,2015

4. Efficient Hardware Barrier Synchronization in Many-Core CMPs

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