Abstract—In chip-multiprocessors (CMPs) the network-on-chip (NoC) carries cache coherence and data messages. These messages may be classified into critical and non-critical messages. Hence, instead of having one interconnect plane to serve all traffic, power can be saved if the NoC is split into two planes: a fast plane dedicated to the critical messages and a slower, more power-efficient plane dedicated only to the non-critical messages. This split, however, can be beneficial to save energy only if system performance is not significantly degraded by the slower plane. In this work we first motivate the need for a timely delivery of the “non-critical ” messages. Second, we propose Déja ̀ Vu switching, a simple algorithm that enables reducin...
Abstract-Network-on-chip (NoC) has emerged as a imperative aspect that determines the performance an...
The scaling of MOS transistors into the nanometer regime opens the possibility for creating large Ne...
Chip Multi-Processors are quickly growing to dozens and potentially hundreds of cores, and as such t...
Chip multiprocessors with few to tens of processing cores are already commercially available. Increa...
The disparity between memory and CPU have been ameliorated by the introduction of Network-on-Chip-ba...
The disparity between memory and CPU have been ameliorated by the introduction of Network-on-Chip-ba...
In this paper we present a data encoding scheme to reduce the power dissipation and the energy consu...
Networks on Chip presents a variety of topics, problems and approaches with the common theme to syst...
Chip multiprocessors (CMPs) are expected to be the building blocks for future computer systems. Whil...
Network-on-Chip (NoC) is emerging as a critical shared architecture for CMPs (Chip Multi-/Many-Core ...
The demand for high performance and energy efficient computing has increased the trend of integratin...
A Network-on-Chip (NoC) is an energy-efficient on-chip communication architecture forMulti-Processor...
With the advent of multicore processors and system-on-chip designs, intra-chip communication demands...
Virtual channels are an appealing flow control technique for on-chip interconnection networks (NoCs)...
The Network-on-Chip (NoC) paradigm has been heralded as the solution to the communication limitation...
Abstract-Network-on-chip (NoC) has emerged as a imperative aspect that determines the performance an...
The scaling of MOS transistors into the nanometer regime opens the possibility for creating large Ne...
Chip Multi-Processors are quickly growing to dozens and potentially hundreds of cores, and as such t...
Chip multiprocessors with few to tens of processing cores are already commercially available. Increa...
The disparity between memory and CPU have been ameliorated by the introduction of Network-on-Chip-ba...
The disparity between memory and CPU have been ameliorated by the introduction of Network-on-Chip-ba...
In this paper we present a data encoding scheme to reduce the power dissipation and the energy consu...
Networks on Chip presents a variety of topics, problems and approaches with the common theme to syst...
Chip multiprocessors (CMPs) are expected to be the building blocks for future computer systems. Whil...
Network-on-Chip (NoC) is emerging as a critical shared architecture for CMPs (Chip Multi-/Many-Core ...
The demand for high performance and energy efficient computing has increased the trend of integratin...
A Network-on-Chip (NoC) is an energy-efficient on-chip communication architecture forMulti-Processor...
With the advent of multicore processors and system-on-chip designs, intra-chip communication demands...
Virtual channels are an appealing flow control technique for on-chip interconnection networks (NoCs)...
The Network-on-Chip (NoC) paradigm has been heralded as the solution to the communication limitation...
Abstract-Network-on-chip (NoC) has emerged as a imperative aspect that determines the performance an...
The scaling of MOS transistors into the nanometer regime opens the possibility for creating large Ne...
Chip Multi-Processors are quickly growing to dozens and potentially hundreds of cores, and as such t...