International audienceThe energy consumption of manycore architectures is dominated by data movement, which calls for energy-efficient and high-bandwidth interconnects. To overcome the bandwidth limitation of electrical interconnects, integrated optics appear as a promising technology. However, it suffers from high power overhead related to low laser efficiency, which calls for the use of techniques and methods to improve its energy costs. Besides, approximate computing is emerging as an efficient method to reduce energy consumption and improve execution speed of embedded computing systems. It relies on allowing accuracy reduction on data at the cost of tolerable application output error. In this context, the work presented in this article ...
Abstract—In the last decade, the field of microprocessor architecture has seen the rise of multicore...
As technology scales into deep submicron domains, electrical wires start to face critical challenges...
In recent years, Optical Networks on Chip (ONoC) became an attractive solution to overcome the limit...
International audienceThe energy consumption of manycore architectures is dominated by data movement...
International audienceThe energy consumption of manycore is dominated by data movement, which calls ...
Over the years, System-on-Chip (SoC) has evolved from a single processor in a chip to multi/many pro...
Over the years, System-on-Chip (SoC) has evolved from a single processor in a chip to multi/many pro...
International audienceNanophotonic is an emerging technology considered as one of the key solutions ...
Optical communication systems are replacing electrical interconnects on shorter and shorter scales, ...
International audienceOptical interconnects are considered to be one of the key solutions for future...
Abstract — We introduce an analytical framework to understand the path for scaling nanophotonic inte...
Silicon photonics have emerged as a promising solution to meet the growing demand for high-bandwidth...
Abstract—We introduce an analytical framework to understand the path for scaling nanophotonic interc...
Abstract—Short-reach nanophotonic interconnects are promising to solve the communication bottleneck ...
Abstract—In the last decade, the field of microprocessor architecture has seen the rise of multicore...
As technology scales into deep submicron domains, electrical wires start to face critical challenges...
In recent years, Optical Networks on Chip (ONoC) became an attractive solution to overcome the limit...
International audienceThe energy consumption of manycore architectures is dominated by data movement...
International audienceThe energy consumption of manycore is dominated by data movement, which calls ...
Over the years, System-on-Chip (SoC) has evolved from a single processor in a chip to multi/many pro...
Over the years, System-on-Chip (SoC) has evolved from a single processor in a chip to multi/many pro...
International audienceNanophotonic is an emerging technology considered as one of the key solutions ...
Optical communication systems are replacing electrical interconnects on shorter and shorter scales, ...
International audienceOptical interconnects are considered to be one of the key solutions for future...
Abstract — We introduce an analytical framework to understand the path for scaling nanophotonic inte...
Silicon photonics have emerged as a promising solution to meet the growing demand for high-bandwidth...
Abstract—We introduce an analytical framework to understand the path for scaling nanophotonic interc...
Abstract—Short-reach nanophotonic interconnects are promising to solve the communication bottleneck ...
Abstract—In the last decade, the field of microprocessor architecture has seen the rise of multicore...
As technology scales into deep submicron domains, electrical wires start to face critical challenges...
In recent years, Optical Networks on Chip (ONoC) became an attractive solution to overcome the limit...