Abstract: Monolithically integrated dense WDM photonic network topologies optimized for loss and power footprint of optical components can achieve up to 4x better energy-efficiency and throughput than electrical interconnects in core-to-core, and 10x in core-to-DRAM networks. ©2009 Optical Society of America OCIS codes: (200.4650) Optical interconnects; (250.5300) Photonic integrated circuits
Integrated photonics is a promising technology for next-generation computing because of the essentia...
High-performance systems are increasingly bottlenecked by the growing energy and communications cost...
Silicon photonic single mode links employing dense wavelength-division multiplexing (WDM) offer a la...
Monolithically integrated dense WDM photonic network topologies optimized for loss and power footpri...
This paper presents a monolithically integrated dense WDM photonic network for manycore processors, ...
Abstract: This paper presents a monolithically integrated dense WDM photonic network for manycore pr...
Abstract: This paper presents an overview of advances in highly-integrated photonic networks for em...
We present a new monolithic silicon photonics technol-ogy suited for integration with standard bulk ...
Silicon photonics is a promising technology for addressing memory bandwidth limitations in future ma...
This paper presents an overview of advances in highly-integrated photonic networks for emerging man...
Today's conventional cloud computing and mobile platforms have been challenged by the advent of Mach...
Manycore processor system is becoming an attractive platform for applications seeking both high perf...
The relentless improvement of silicon photonics is making optical interconnects and networks appeali...
Future many core processors will require energy-efficient, high-throughput on-chip networks. Silicon...
The tutorial aims to address electrical communications link limitations by developing chipscale, int...
Integrated photonics is a promising technology for next-generation computing because of the essentia...
High-performance systems are increasingly bottlenecked by the growing energy and communications cost...
Silicon photonic single mode links employing dense wavelength-division multiplexing (WDM) offer a la...
Monolithically integrated dense WDM photonic network topologies optimized for loss and power footpri...
This paper presents a monolithically integrated dense WDM photonic network for manycore processors, ...
Abstract: This paper presents a monolithically integrated dense WDM photonic network for manycore pr...
Abstract: This paper presents an overview of advances in highly-integrated photonic networks for em...
We present a new monolithic silicon photonics technol-ogy suited for integration with standard bulk ...
Silicon photonics is a promising technology for addressing memory bandwidth limitations in future ma...
This paper presents an overview of advances in highly-integrated photonic networks for emerging man...
Today's conventional cloud computing and mobile platforms have been challenged by the advent of Mach...
Manycore processor system is becoming an attractive platform for applications seeking both high perf...
The relentless improvement of silicon photonics is making optical interconnects and networks appeali...
Future many core processors will require energy-efficient, high-throughput on-chip networks. Silicon...
The tutorial aims to address electrical communications link limitations by developing chipscale, int...
Integrated photonics is a promising technology for next-generation computing because of the essentia...
High-performance systems are increasingly bottlenecked by the growing energy and communications cost...
Silicon photonic single mode links employing dense wavelength-division multiplexing (WDM) offer a la...