International audienceSeveral Through-Silicon-Vias (TSVs) may present resistive and open defects due to 3D manufacture variability. This paper advocates the use of 3D Network-on-Chip (NoC) with asynchronous communication interfaces to cope with significant variations in TSV propagation delays. The technique uses serial communication in the vertical channels to reduce the number of TSVs. Based on a representative delay distribution, we compare the average performance considering a non-defective 3D NoC, one with resistive defective TSVs and one with resistive and open defective TSVs. Results show that it is better to adapt the interfaces to cope with large margins of delay than to avoid TSVs by using adaptive routing
Three-dimensional Network-On-Chips (3D NOC) are the most efficient communication structures for comp...
Recently three-dimensional Networks-on-Chips (3D NoCs) rang-ing from regular to highly irregular top...
International audience3D integration opens up new opportunities for future multiprocessor chips by e...
International audienceSeveral Through-Silicon-Vias (TSVs) may present resistive and open defects due...
3D integration is an emerging technology that overcomes 2D integration process limitations. The use ...
2D Network-on-Chips (NoCs) have been the mainstream interconnection technology for multi-core system...
The use of short Through-Silicon Vias (TSVs) in 3D integration Technology introduces a significant r...
Through silicon vias (TSVs) provide an efficient way to support vertical communication among differe...
Design Constraints imposed by global interconnect de-lays as well as limitations in integration of d...
International audienceThree-dimensional networks on chip (3D-NoCs) have been proposed as an enormous...
Communication plays a crucial role in the design of high performance Multiprocessor Systems-on-Chip ...
Three-dimensional die stacking integration provides the ability to stack multiple layers of processe...
International audience3D integration opens up new opportunities for future multiprocessor chips by e...
The physical performance of a 3-Dimensional Network-on-Chip (NoC) mesh architecture employing throug...
3D ICs can take advantage of a scalable communication platform, commonly referred to as the Networks...
Three-dimensional Network-On-Chips (3D NOC) are the most efficient communication structures for comp...
Recently three-dimensional Networks-on-Chips (3D NoCs) rang-ing from regular to highly irregular top...
International audience3D integration opens up new opportunities for future multiprocessor chips by e...
International audienceSeveral Through-Silicon-Vias (TSVs) may present resistive and open defects due...
3D integration is an emerging technology that overcomes 2D integration process limitations. The use ...
2D Network-on-Chips (NoCs) have been the mainstream interconnection technology for multi-core system...
The use of short Through-Silicon Vias (TSVs) in 3D integration Technology introduces a significant r...
Through silicon vias (TSVs) provide an efficient way to support vertical communication among differe...
Design Constraints imposed by global interconnect de-lays as well as limitations in integration of d...
International audienceThree-dimensional networks on chip (3D-NoCs) have been proposed as an enormous...
Communication plays a crucial role in the design of high performance Multiprocessor Systems-on-Chip ...
Three-dimensional die stacking integration provides the ability to stack multiple layers of processe...
International audience3D integration opens up new opportunities for future multiprocessor chips by e...
The physical performance of a 3-Dimensional Network-on-Chip (NoC) mesh architecture employing throug...
3D ICs can take advantage of a scalable communication platform, commonly referred to as the Networks...
Three-dimensional Network-On-Chips (3D NOC) are the most efficient communication structures for comp...
Recently three-dimensional Networks-on-Chips (3D NoCs) rang-ing from regular to highly irregular top...
International audience3D integration opens up new opportunities for future multiprocessor chips by e...