Today, many-core and ultra-performing parallel architectures like Chip-Multiprocessors (CMPs) and Multi-Processor Systems-on-chips (MPSoCs) utilize Networks-on-Chips (NoCs) as their inter-tile communication infrastructure. NoCs are the preferable communication medium since they are able to overcome scalability and performance limitations that are common shortcomings in point-to-point connections, such as dedicated wires, and bus-based communication systems. Though the miniaturization of transistors has made the design and construction of CMP and MPSoC systems feasible, this technology scaling has come at the cost of increased vulnerability to wear-out, compromising the operational reliability of these systems. Physical effects such as Elec...
As the feature size scales down to deep nanometer regimes, it has enabled the designers to fabricate...
A fault-tolerant adaptive wormhole routing function for Networks-on-Chips (NoCs) is presented. The n...
This paper proposes a look-ahead, fault-tolerant and congestion-aware routing algorithm for Networks...
Networks-on-Chips (NoCs) are experiencing escalating susceptibility to wear-out and reduced reliabil...
The aggressive semiconductor technology scaling provides the means for doubling the amount of transi...
International audienceNoCs (Networks-on-Chip) are an attractive alternative to communication buses f...
Silicon technology scaling is continuously enabling denser integration capabilities. However, this c...
Downscaled complementary metal-oxide semiconductor (CMOS) technology feature sizes have enabled mass...
As silicon continues to scale, transistor reliability is becoming a major concern. At the same time,...
International audienceAn online fault tolerant routing algorithm for 2D Mesh and Torus Networks-on-C...
Rapid scaling of transistor gate sizes has increased the density of on-chip integration and paved th...
Due to the faults in system fabrication and run time, designing an efficient fault-tolerant routing ...
Abstract—Fault-tolerant routing is the ability to survive failure of individual components and usual...
As silicon features approach the atomic scale, the Networks-on-Chip (NoCs) are becoming more suscept...
With the rapid shrinking of technology and growing integration capacity, the probability of failures...
As the feature size scales down to deep nanometer regimes, it has enabled the designers to fabricate...
A fault-tolerant adaptive wormhole routing function for Networks-on-Chips (NoCs) is presented. The n...
This paper proposes a look-ahead, fault-tolerant and congestion-aware routing algorithm for Networks...
Networks-on-Chips (NoCs) are experiencing escalating susceptibility to wear-out and reduced reliabil...
The aggressive semiconductor technology scaling provides the means for doubling the amount of transi...
International audienceNoCs (Networks-on-Chip) are an attractive alternative to communication buses f...
Silicon technology scaling is continuously enabling denser integration capabilities. However, this c...
Downscaled complementary metal-oxide semiconductor (CMOS) technology feature sizes have enabled mass...
As silicon continues to scale, transistor reliability is becoming a major concern. At the same time,...
International audienceAn online fault tolerant routing algorithm for 2D Mesh and Torus Networks-on-C...
Rapid scaling of transistor gate sizes has increased the density of on-chip integration and paved th...
Due to the faults in system fabrication and run time, designing an efficient fault-tolerant routing ...
Abstract—Fault-tolerant routing is the ability to survive failure of individual components and usual...
As silicon features approach the atomic scale, the Networks-on-Chip (NoCs) are becoming more suscept...
With the rapid shrinking of technology and growing integration capacity, the probability of failures...
As the feature size scales down to deep nanometer regimes, it has enabled the designers to fabricate...
A fault-tolerant adaptive wormhole routing function for Networks-on-Chips (NoCs) is presented. The n...
This paper proposes a look-ahead, fault-tolerant and congestion-aware routing algorithm for Networks...