Implementing System-in-Package with Nanophotonic Interconnect

Nanophotonic Interconnect Architectures for Many-core Microprocessors

Towards Chip-Scale Plasmonic Interconnects

In the multi and many core era, communication is crucial to the system performance. Therefore, network-on-chip (NoC) approaches were proposed to regularize the design of on-chip communication. Nanophotonic interconnects have been proposed in the recent few years as a replacement of global metal interconnect because of their almost distance-independent power consumption and low-latency and high ...

PSPVM: Implementing PVM on a high-speed Interconnect for Workstation Clusters

PSPVM in an implementation of the PVM package on top of ParaStations high-speed interconnent for workstation clusters. The ParaStation system uses user level communication for message exchange and removes the operating system from the critical path of message transmission. ParaStations user interface consists of a user-level socket emu-lation. Thus, we need only minor changes to the standard PV...

PSPVM: Implementing PVM on a High-Speed Interconnect for Worstation Clusters

PSPVM in an implementation of the PVM package on top of ParaStations high-speed interconnent for workstation clusters. The ParaStation system uses user level communication for message exchange and removes the operating system from the critical path of message transmission. ParaStations user interface consists of a user-level socket emulation. Thus, we need only minor changes to the standard PVM...

Optical Interconnect System Integration for Ultra-Short-Reach Applications

It is predicted that the increase in microprocessor clock frequency will create bandwidth limitations for copper interconnects on Printed Circuit Boards (PCB) due to signal attenuation, Electromagnetic Interference (EMI) and crosstalk [1]. Optical interconnects could be a viable solution to these problems. This paper explores the potential and challenges for optical interconnects in UltraShort-...