Buses and crossbars have traditionally served as the communication fabrics of computer systems, network switches and routers, and other digital systems. However, demand for communication bandwidth is overwhelming the limits of these fabrics, and interconnection networks, historically used in high-end multiprocessor systems, 1-3 have surfaced as an alternative. In recent years, interconnection network fabrics have been deployed in high-speed network switches 4 and high-bandwidth core Internet routers. 5 These interconnection networks ’ performance critically depends on the performance of the routers from which they are constructed
The interconnection network is the switching fabric responsible for providing communication between ...
The drive for performance in the face of increasing wire delay blurs the line between microprocessor...
[[abstract]]This paper addresses the interconnection synthesis problem in microarchitecture-level de...
This paper considers various physical constraints which influence the design of interconnection netw...
The performance evaluation of multiprocessor interconnects cannot be divorced from issues of traffic...
Abstract — Deep submicron technology scaling has two major ramifications on the design process. Firs...
New multiprocessor architectures are needed to support modern broadband applications, because tradit...
Abstract-- A new class of interconnection networks is proposed for processor to memory communication...
High-performance routers constitute the basic building blocks of the Internet. The wide majority of ...
This article provides background information about interconnection networks, an analysis of previous...
The exponential growth of the Internet is driving a demand for routers that operate at increasing bi...
Evolving semiconductor and circuit technology has greatly increased the pin bandwidth available to a...
The Internet is a mesh of routers core router access router enterprise router Computer Network Desig...
Interconnection networks are one of the fundamental components of a supercomputing facility, and one...
Why is it hard to build high-speed routers? Because high-speed routers are like marriages; they are ...
The interconnection network is the switching fabric responsible for providing communication between ...
The drive for performance in the face of increasing wire delay blurs the line between microprocessor...
[[abstract]]This paper addresses the interconnection synthesis problem in microarchitecture-level de...
This paper considers various physical constraints which influence the design of interconnection netw...
The performance evaluation of multiprocessor interconnects cannot be divorced from issues of traffic...
Abstract — Deep submicron technology scaling has two major ramifications on the design process. Firs...
New multiprocessor architectures are needed to support modern broadband applications, because tradit...
Abstract-- A new class of interconnection networks is proposed for processor to memory communication...
High-performance routers constitute the basic building blocks of the Internet. The wide majority of ...
This article provides background information about interconnection networks, an analysis of previous...
The exponential growth of the Internet is driving a demand for routers that operate at increasing bi...
Evolving semiconductor and circuit technology has greatly increased the pin bandwidth available to a...
The Internet is a mesh of routers core router access router enterprise router Computer Network Desig...
Interconnection networks are one of the fundamental components of a supercomputing facility, and one...
Why is it hard to build high-speed routers? Because high-speed routers are like marriages; they are ...
The interconnection network is the switching fabric responsible for providing communication between ...
The drive for performance in the face of increasing wire delay blurs the line between microprocessor...
[[abstract]]This paper addresses the interconnection synthesis problem in microarchitecture-level de...