Iñigo Artundo scite author profile

Abstract-Photonic Networks-On-Chip have emerged as a viable solution for interconnecting multicore computer architectures in a power-efficient manner. Current architectures focus on large messages, however, which are not compatible with the coherence traffic found on chip multiprocessor networks. In this paper, we introduce a reconfigurable optical interconnect in which the topology is adapted automatically to the evolving traffic situation. This allows a large fraction of the (short) coherence messages to use the optical links, making our technique a better match for CMP networks when compared to existing solutions. We also evaluate the performance and power efficiency of our architecture using an assumed physical implementation based on ultra-low power optical switching devices and under realistic traffic load conditions.

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Predicting reconfigurable interconnect performance in distributed shared-memory systems

Heirman

Dambre

Artundo³

et al. 2007

Integration

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Evolution of fabless generic photonic integration

Muñoz

Doménech

Artundo³

et al. 2013

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Iñigo Artundo

[INVITED] Silicon nitride photonic integration for visible light applications

Selective optical broadcast component for reconfigurable multiprocessor interconnects

Low-Power Reconfigurable Network Architecture for On-Chip Photonic Interconnects

Predicting reconfigurable interconnect performance in distributed shared-memory systems

Evolution of fabless generic photonic integration

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