With shrinking transistors and growth in parametric variability, statically managing die yield is no longer possible. Design for Manufacturing (DFM) techniques use increasingly bigger guard-bandsthat waste area, power, and performance, impeding Moore's Law of semiconductor device scaling. Process Voltage Temperature (PVT) variations can turn a nominally homogeneous many-core die into a set of cores with heterogeneous performance.Network-on-Chip provides an effective and scalable way to integrate hundreds of heterogeneous cores without forcing each to give up its own PVT-induced operating point for the chip-wide common worst case. As with asynchronous logic, a NoC of regular, redundant, many-CLK/VDD cores can deliver the average rather than ...
International audienceThe use of fault-tolerant mechanism is essential to ensure the correct functio...
For most of the history of computing, transistors have been expensive while wires have been cheap. C...
In the past decades, device scaling along the Moore's Law trajectory has been the major focus of tec...
Technology scaling improves the energy, performance, and area of the digital circuits. With further ...
On-chip networks are especially vulnerable to within-die pa-rameter variations. Since they connect d...
Digital VLSI IC design and manufacturing margins continue to increase in light of process variabilit...
As integrated-circuit technology continues to scale, process variation is becoming an issue that can...
This book describes in detail the impact of process variations on Network-on-Chip (NoC) performance....
Continued technology scaling has enabled the tremendous growth that semi-conductor industry has witn...
Networks-on-Chip (NoCs) are prone to within-die process variation as they span the whole chip. To to...
[EN] Current integration scales allow designing chip multiprocessors (CMP), where cores are intercon...
Die-to-die and within-die variations impact the frequency and power of fabricated dies, affecting fu...
Process Variation (PV) is increasingly threatening the reliability of Networks-on-Chips. Thus, vario...
The tremendous advancement in the field of integrated circuit manufacturing achieved in the past dec...
Continued scaling of semiconductor technology has greatly increased the complexity of the manufactur...
International audienceThe use of fault-tolerant mechanism is essential to ensure the correct functio...
For most of the history of computing, transistors have been expensive while wires have been cheap. C...
In the past decades, device scaling along the Moore's Law trajectory has been the major focus of tec...
Technology scaling improves the energy, performance, and area of the digital circuits. With further ...
On-chip networks are especially vulnerable to within-die pa-rameter variations. Since they connect d...
Digital VLSI IC design and manufacturing margins continue to increase in light of process variabilit...
As integrated-circuit technology continues to scale, process variation is becoming an issue that can...
This book describes in detail the impact of process variations on Network-on-Chip (NoC) performance....
Continued technology scaling has enabled the tremendous growth that semi-conductor industry has witn...
Networks-on-Chip (NoCs) are prone to within-die process variation as they span the whole chip. To to...
[EN] Current integration scales allow designing chip multiprocessors (CMP), where cores are intercon...
Die-to-die and within-die variations impact the frequency and power of fabricated dies, affecting fu...
Process Variation (PV) is increasingly threatening the reliability of Networks-on-Chips. Thus, vario...
The tremendous advancement in the field of integrated circuit manufacturing achieved in the past dec...
Continued scaling of semiconductor technology has greatly increased the complexity of the manufactur...
International audienceThe use of fault-tolerant mechanism is essential to ensure the correct functio...
For most of the history of computing, transistors have been expensive while wires have been cheap. C...
In the past decades, device scaling along the Moore's Law trajectory has been the major focus of tec...