Multi-core processors are likely to be a point of no return to meet the unending demand for increasing computational power. Nevertheless, the physical interconnection of many cores might currently represent the bottleneck toward kilo-core architectures. Optical wireless networks on-chip are therefore being considered as promising solutions to overcome the technological limits of wired interconnects. In this work, the spatial properties of the on-chip wireless channel are investigated through a ray tracing approach applied to a layered representation of the chip structure, highlighting the relationship between path loss, antenna positions and radiation properties.
Ray tracing modeling of electromagnetic propagation for on-chip wireless optical communications / Fuschini, Franco; Barbiroli, Marina; Zoli, Marco; Bellanca, Gaetano; Calò, Giovanna; Bassi, Paolo; Petruzzelli, Vincenzo. - In: JOURNAL OF LOW POWER ELECTRONICS AND APPLICATIONS. - ISSN 2079-9268. - ELETTRONICO. - 8:4(2018). [10.3390/jlpea8040039]
Ray tracing modeling of electromagnetic propagation for on-chip wireless optical communications
Calò, Giovanna;Petruzzelli, Vincenzo
2018-01-01
Abstract
Multi-core processors are likely to be a point of no return to meet the unending demand for increasing computational power. Nevertheless, the physical interconnection of many cores might currently represent the bottleneck toward kilo-core architectures. Optical wireless networks on-chip are therefore being considered as promising solutions to overcome the technological limits of wired interconnects. In this work, the spatial properties of the on-chip wireless channel are investigated through a ray tracing approach applied to a layered representation of the chip structure, highlighting the relationship between path loss, antenna positions and radiation properties.| File | Dimensione | Formato | |
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