Add to ORKGA large part of today's multi-core chips is interconnect. Increasing communication complexity has made essential new strategies for interconnects, such as Network on Chip. Power dissipation in interconnects has become a substantial part of the total power dissipation. Techniques to reduce interconnect power have thus become a necessity. In this paper, we present a design methodology that gives values of bus width for interconnect links, frequency of operation for routers, in Network on Chip scenario that satisfy required throughput and dissipate minimal switching power. We develop closed form analytical expressions for the power dissipation, with bus width and frequency as variables and then use Lagrange multiplier method to arrive at the ...
Abstract—With an increasing number of processing elements being integrated on a single die, networks...
This paper describes a low-power design methodology for a bus architecture based on hybrid current/v...
The growth of computer performance by Moore's law is currently limited by power consumption and wast...
A large part of today's multi-core chips is interconnect. Increasing communication complexity has ma...
In recent years, both Networks-on-Chip, as an architectural solution for high-speed interconnect, an...
The design of more complex systems becomes an increasingly difficult task because of different is...
Abstract—This paper addresses the critical problem of global wire optimization for nanometer scale v...
Abstract: The width of an interconnect line affects the total power consumed by a circuit. A trade o...
textThe aggressive scaling of the semiconductor technology following the Moore’s Law has delivered t...
Network-on-chip(NoC) is an emerging revolutionary method to integrate numerous cores in a single Sys...
As technology scales, interconnect planning has been widely regarded as one of the most critical fac...
The Network-on-Chip (NoC) paradigm has been heralded as the solution to the communication limitation...
Interconnects (wires, buffers, clock distribution networks, multiplexers and busses) consume a signi...
The advent of new technologies brings revolutions in the fields of VLSI design and high performance ...
Interconnects (wires, buffers, clock distribution networks, multiplexers and busses) consume a signi...
Abstract—With an increasing number of processing elements being integrated on a single die, networks...
This paper describes a low-power design methodology for a bus architecture based on hybrid current/v...
The growth of computer performance by Moore's law is currently limited by power consumption and wast...
A large part of today's multi-core chips is interconnect. Increasing communication complexity has ma...
In recent years, both Networks-on-Chip, as an architectural solution for high-speed interconnect, an...
The design of more complex systems becomes an increasingly difficult task because of different is...
Abstract—This paper addresses the critical problem of global wire optimization for nanometer scale v...
Abstract: The width of an interconnect line affects the total power consumed by a circuit. A trade o...
textThe aggressive scaling of the semiconductor technology following the Moore’s Law has delivered t...
Network-on-chip(NoC) is an emerging revolutionary method to integrate numerous cores in a single Sys...
As technology scales, interconnect planning has been widely regarded as one of the most critical fac...
The Network-on-Chip (NoC) paradigm has been heralded as the solution to the communication limitation...
Interconnects (wires, buffers, clock distribution networks, multiplexers and busses) consume a signi...
The advent of new technologies brings revolutions in the fields of VLSI design and high performance ...
Interconnects (wires, buffers, clock distribution networks, multiplexers and busses) consume a signi...
Abstract—With an increasing number of processing elements being integrated on a single die, networks...
This paper describes a low-power design methodology for a bus architecture based on hybrid current/v...
The growth of computer performance by Moore's law is currently limited by power consumption and wast...