Reducing energy consumption using asynchronous circuits. The elastic clocks approach has been implemented along with a closed-feedback loop in order to achieve a lower energy consumption along with more reliability in integrated circuits
Elasticity in circuits and systems provides tolerance to variations in computation and communication...
Flip-flops are one of the most power-consuming components of digital circuits. Even when there is no...
Synchronization has always been an essential feature in electronic circuits, in which functionality ...
Reducing energy consumption using asynchronous circuits. The elastic clocks approach has been implem...
As complexity increases and gate sizes shrink for monolithic, mixed-signal integrated circuit (IC) t...
Digital circuits operating in the sub-threshold regime are able to perform minimum energy operation ...
The continuous shrinking of process geometries increases variability and demands for conservative ma...
International audienceToday, our digital society exchanges data flows that are incredibly large and ...
Energy recovery clocking has been demonstrated as an effective method for reducing the clock power. ...
In nanometer regime, IC designers are struggling between sig-nificant variation effects and tight po...
Power and performance benefits of scaling are lost to worst case margins as uncertainty of device ch...
International audienceThis article presents the benefits of asynchronous systems versus synchronous ...
A significant fraction of the total power in highly synchronous systems is dissipated over clock net...
Abstract: Power reduction is one of the main reasons for designing asynchronous circuits. Asynchrono...
We have recently designed, fabricated, and successfully tested an experimental chip that validates a...
Elasticity in circuits and systems provides tolerance to variations in computation and communication...
Flip-flops are one of the most power-consuming components of digital circuits. Even when there is no...
Synchronization has always been an essential feature in electronic circuits, in which functionality ...
Reducing energy consumption using asynchronous circuits. The elastic clocks approach has been implem...
As complexity increases and gate sizes shrink for monolithic, mixed-signal integrated circuit (IC) t...
Digital circuits operating in the sub-threshold regime are able to perform minimum energy operation ...
The continuous shrinking of process geometries increases variability and demands for conservative ma...
International audienceToday, our digital society exchanges data flows that are incredibly large and ...
Energy recovery clocking has been demonstrated as an effective method for reducing the clock power. ...
In nanometer regime, IC designers are struggling between sig-nificant variation effects and tight po...
Power and performance benefits of scaling are lost to worst case margins as uncertainty of device ch...
International audienceThis article presents the benefits of asynchronous systems versus synchronous ...
A significant fraction of the total power in highly synchronous systems is dissipated over clock net...
Abstract: Power reduction is one of the main reasons for designing asynchronous circuits. Asynchrono...
We have recently designed, fabricated, and successfully tested an experimental chip that validates a...
Elasticity in circuits and systems provides tolerance to variations in computation and communication...
Flip-flops are one of the most power-consuming components of digital circuits. Even when there is no...
Synchronization has always been an essential feature in electronic circuits, in which functionality ...