Abstract — We introduce an analytical framework to understand the path for scaling nanophotonic interconnects to meet the energy and footprint requirements of CMOS global interconnects. We derive the device requirements for sub 100 fJ/cm/bit interconnects including tuning power, serialization-deserialization energy, and optical insertion losses. Using CMOS with integrated nanophotonics as an example platform, we derive the energy/bit, linear and areal bandwidth density of optical interconnects. We also derive the targets for device performance which indicate the need for continued improvements in insertion losses (<8dB), laser efficiency, operational speeds (>40 Gb/s), tuning power (<100 μW/nm), serialization-deserialization (< ...
International audienceNanophotonic is an emerging technology considered as one of the key solutions ...
Chip I/O pins are an increasingly limited resource and significantly affect the performance, power a...
International audienceThe energy consumption of manycore is dominated by data movement, which calls ...
Abstract—We introduce an analytical framework to understand the path for scaling nanophotonic interc...
As technology scales into deep submicron domains, electrical wires start to face critical challenges...
Electrical interconnects are becoming a bottleneck in the way towards meeting future performance req...
Optical communication systems are replacing electrical interconnects on shorter and shorter scales, ...
(NoCs) will be required to support the increasing number of cores in future chip multiprocessors. In...
As the demand for cheaper and faster computing continues to increase, the semiconductor industry has...
The various arguments for introducing optical interconnections to silicon CMOS chips are summarized,...
This dissertation is driven by a vision to continue improvements in system functionality by alleviat...
We review recent progress in nanophotonic devices for compact optical interconnect networks. We focu...
International audienceThe energy consumption of manycore architectures is dominated by data movement...
......Decreasing energy limits for data transport, both for short- and long-reach op-tical communica...
This is the final version of the article. Available from E\PCOS via the URL in this record.Nanophoto...
International audienceNanophotonic is an emerging technology considered as one of the key solutions ...
Chip I/O pins are an increasingly limited resource and significantly affect the performance, power a...
International audienceThe energy consumption of manycore is dominated by data movement, which calls ...
Abstract—We introduce an analytical framework to understand the path for scaling nanophotonic interc...
As technology scales into deep submicron domains, electrical wires start to face critical challenges...
Electrical interconnects are becoming a bottleneck in the way towards meeting future performance req...
Optical communication systems are replacing electrical interconnects on shorter and shorter scales, ...
(NoCs) will be required to support the increasing number of cores in future chip multiprocessors. In...
As the demand for cheaper and faster computing continues to increase, the semiconductor industry has...
The various arguments for introducing optical interconnections to silicon CMOS chips are summarized,...
This dissertation is driven by a vision to continue improvements in system functionality by alleviat...
We review recent progress in nanophotonic devices for compact optical interconnect networks. We focu...
International audienceThe energy consumption of manycore architectures is dominated by data movement...
......Decreasing energy limits for data transport, both for short- and long-reach op-tical communica...
This is the final version of the article. Available from E\PCOS via the URL in this record.Nanophoto...
International audienceNanophotonic is an emerging technology considered as one of the key solutions ...
Chip I/O pins are an increasingly limited resource and significantly affect the performance, power a...
International audienceThe energy consumption of manycore is dominated by data movement, which calls ...