International audienceThe use of fault-tolerant mechanism is essential to ensure the correct functionality of integrated circuits after manufacturing due to the massive number of faults that may occur during the process. In this work, we propose a set of fault-tolerant techniques to cope with faulty wires in Network-on-Chip (NoC). The most appropriate technique is chosen by taking into account the number of faulty wires and their location in the NoC. The goal is to combine different techniques to reduce overheads in area, delay and power. The use of testing and diagnosis can minimize costs associated with embedded fault-tolerant mechanisms once the architecture adapts itself to work in different faulty scenarios. The proposed fault-tolerant...
International audienceDue to transistor shrinking and core number increasing in System-on-Chip (SoC)...
The demands of future computing, as well as the challenges of nanometer-era VLSI design, will requir...
Downscaled complementary metal-oxide semiconductor (CMOS) technology feature sizes have enabled mass...
Abstract—The structural redundancy inherent to on-chip interconnection networks [networks on chip (N...
With reducing feature size of transistors and increasing number of cores on a single chip, system-on...
In this work, we propose a fault-tolerant framework for Network on Chips (NoC) to achieve maximum pe...
The aggressive semiconductor technology scaling provides the means for doubling the amount of transi...
With reducing feature size of transistors and increasing number of cores on a single chip, system-on...
In this paper we propose a distributed routing algorithm for networks-on-chip (NoCs) that can dynami...
Silicon technology scaling is continuously enabling denser integration capabilities. However, this c...
Rapid scaling of transistor gate sizes has increased the density of on-chip integration and paved th...
The advent of deep sub-micron technology has exacerbated reliability issues in on-chip interconnects...
Fault tolerance and adaptive capabilities are challenges for modern Networks-on-Chip (NoC) due to th...
Network on Chip (NoC) is a communication subsystem, which has the logic for sending and receiving th...
As technology scales, fault tolerance is becoming a key concern in on-chip communication. Consequent...
International audienceDue to transistor shrinking and core number increasing in System-on-Chip (SoC)...
The demands of future computing, as well as the challenges of nanometer-era VLSI design, will requir...
Downscaled complementary metal-oxide semiconductor (CMOS) technology feature sizes have enabled mass...
Abstract—The structural redundancy inherent to on-chip interconnection networks [networks on chip (N...
With reducing feature size of transistors and increasing number of cores on a single chip, system-on...
In this work, we propose a fault-tolerant framework for Network on Chips (NoC) to achieve maximum pe...
The aggressive semiconductor technology scaling provides the means for doubling the amount of transi...
With reducing feature size of transistors and increasing number of cores on a single chip, system-on...
In this paper we propose a distributed routing algorithm for networks-on-chip (NoCs) that can dynami...
Silicon technology scaling is continuously enabling denser integration capabilities. However, this c...
Rapid scaling of transistor gate sizes has increased the density of on-chip integration and paved th...
The advent of deep sub-micron technology has exacerbated reliability issues in on-chip interconnects...
Fault tolerance and adaptive capabilities are challenges for modern Networks-on-Chip (NoC) due to th...
Network on Chip (NoC) is a communication subsystem, which has the logic for sending and receiving th...
As technology scales, fault tolerance is becoming a key concern in on-chip communication. Consequent...
International audienceDue to transistor shrinking and core number increasing in System-on-Chip (SoC)...
The demands of future computing, as well as the challenges of nanometer-era VLSI design, will requir...
Downscaled complementary metal-oxide semiconductor (CMOS) technology feature sizes have enabled mass...