Number of cores in many-core architectures are scaling to unprecedented levels requiring ever increasing communication capacity. Traditionally, architects follow the path of higher throughput at the expense of latency. This trend has evolved into being problematic for performance in many-core architectures. Moreover, the trends of power consumption is increasing with system scaling mandating nontraditional solutions. Nanophotonics can address these problems, offering benefits in the three frontiers of many-core processor design: Latency, bandwidth, and power. Nanophotonics leverage circuit-switching flow control allowing low latency; in addition, the power consumption of optical links is significantly lower compared to their electrical coun...
Abstract—To meet energy-efficient performance demands, the computing industry has moved to parallel ...
Nanophotonics promises to solve the scalability problems of current electrical interconnects thanks ...
Many crossbenchmarking results reported in the open literature provide optimistic expectations on th...
Many crossbenchmarking results reported in the open literature raise optimistic expectations on the ...
As technology scales into deep submicron domains, electrical wires start to face critical challenges...
Abstract: We explore silicon photonics and 3D stacked technology to implement a photonic network-on-...
efficient communication between processing cores has never been more critical. Rapidly increasing ap...
Nanophotonic is a promising solution for interconnections in future chip multiprocessors (CMPs) due ...
Nanophotonic is a promising solution for interconnections in future chip multiprocessors (CMPs) due ...
Abstract—With technology scaling, growing wire delays and excess power dissipation of current metall...
Future many-core processors will require high-performance yet energy-efficient on-chip networks to p...
Abstract Silicon nanophotonics holds the promise of dra-matically advancing the state of the art in ...
As communication-centric computing paradigm gathers mo-mentum due to increased wire delays and exces...
To meet energy-efficient performance demands, the computing industry has moved to parallel computer ...
Silicon photonics has emerged in recent years as one of the most promising solutions to overcome the...
Abstract—To meet energy-efficient performance demands, the computing industry has moved to parallel ...
Nanophotonics promises to solve the scalability problems of current electrical interconnects thanks ...
Many crossbenchmarking results reported in the open literature provide optimistic expectations on th...
Many crossbenchmarking results reported in the open literature raise optimistic expectations on the ...
As technology scales into deep submicron domains, electrical wires start to face critical challenges...
Abstract: We explore silicon photonics and 3D stacked technology to implement a photonic network-on-...
efficient communication between processing cores has never been more critical. Rapidly increasing ap...
Nanophotonic is a promising solution for interconnections in future chip multiprocessors (CMPs) due ...
Nanophotonic is a promising solution for interconnections in future chip multiprocessors (CMPs) due ...
Abstract—With technology scaling, growing wire delays and excess power dissipation of current metall...
Future many-core processors will require high-performance yet energy-efficient on-chip networks to p...
Abstract Silicon nanophotonics holds the promise of dra-matically advancing the state of the art in ...
As communication-centric computing paradigm gathers mo-mentum due to increased wire delays and exces...
To meet energy-efficient performance demands, the computing industry has moved to parallel computer ...
Silicon photonics has emerged in recent years as one of the most promising solutions to overcome the...
Abstract—To meet energy-efficient performance demands, the computing industry has moved to parallel ...
Nanophotonics promises to solve the scalability problems of current electrical interconnects thanks ...
Many crossbenchmarking results reported in the open literature provide optimistic expectations on th...