Silicon photonics is gaining momentum as a candidate technology platform for future intra- and inter-chip communications. However, its industrial uptake depends not only on technology maturity, but also on the capability to bridge the abstraction gap between technology developers and system designers. This paper presents an early-stage cross-layer refinement methodology of wavelength-routed optical network-on-chip topologies, linking logic topology synthesis to the physical implementation steps.

Wavelength-Routed Optical Networks-on-Chip: Design Methods and Tools to Bridge the Gap Between Logic Topologies and Physical Ones in 3D Architectures

Bertozzi Davide
Primo
Investigation
;
Marco Gavanelli
Secondo
Methodology
;
Maddalena Nonato
Ultimo
Methodology
2018

Abstract

Silicon photonics is gaining momentum as a candidate technology platform for future intra- and inter-chip communications. However, its industrial uptake depends not only on technology maturity, but also on the capability to bridge the abstraction gap between technology developers and system designers. This paper presents an early-stage cross-layer refinement methodology of wavelength-routed optical network-on-chip topologies, linking logic topology synthesis to the physical implementation steps.
2018
9781450357241
Design technology; Optical network-on-chip; Synthesis methodology; Wavelength routing
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/2395566
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