Sub-threshold operation has been proven to be very effective to reduce the power consumption of circuits when high performance is not required. Future low power systems on chip are likely to consist of many sub-systems operating at different frequencies and VDDs from super-threshold to sub-threshold region. Synchronizers are therefore needed to interface between these sub-systems. However, VDD scaling rapidly degrades synchronizers performance making them unsuitable for sub-threshold operation. For the first time, we analyze the synchronizer performance at ultra low voltages and propose to apply forward body bias to extend the operation of synchronizers to the sub-threshold region and to make them resilient to process variation. We show tha...
variability in process parameters, such as the threshold voltage, are expected to increase and becom...
Self-Adaptive VDD Scaling (SAVS) technique achieves power/energy reduction by dynamically scaling VD...
This thesis pertains to the design of low-power/ultra low-power high variation-space and wide operat...
\u3cp\u3eSub-threshold operation has been proven to be very effective to reduce the power consumptio...
\u3cp\u3eUltra low voltage operation promises to reduce power dissipation for wireless sensor networ...
Synchronizers are used at the clock domain crossings and at asynchronous interfaces to reduce the pr...
Near-Threshold Circuits achieve ultra-low energy operating with significant performance improvement ...
Abstract: We present ultra low power application, low power supply(vdd) of sub-threshold logic resul...
Technology scaling has paved way for complex systems such as heterogeneous multi core processors, co...
Abstract — Synchronizers play a key role in multi-clock domains systems on chip and their performanc...
Lowering supply voltage is still the most effective technique to reduce dynamic power, and Vdd is be...
For ultra low power application, digital sub-threshold logic design has been explored. Extremely low...
Lowering supply voltage is still the most effective technique to reduce dynamic power, and Vdd is be...
The miniaturisation of electronic circuits allows the potential for new applications, such as smart-...
Digital circuits operating in the sub-threshold regime are able to perform minimum energy operation ...
variability in process parameters, such as the threshold voltage, are expected to increase and becom...
Self-Adaptive VDD Scaling (SAVS) technique achieves power/energy reduction by dynamically scaling VD...
This thesis pertains to the design of low-power/ultra low-power high variation-space and wide operat...
\u3cp\u3eSub-threshold operation has been proven to be very effective to reduce the power consumptio...
\u3cp\u3eUltra low voltage operation promises to reduce power dissipation for wireless sensor networ...
Synchronizers are used at the clock domain crossings and at asynchronous interfaces to reduce the pr...
Near-Threshold Circuits achieve ultra-low energy operating with significant performance improvement ...
Abstract: We present ultra low power application, low power supply(vdd) of sub-threshold logic resul...
Technology scaling has paved way for complex systems such as heterogeneous multi core processors, co...
Abstract — Synchronizers play a key role in multi-clock domains systems on chip and their performanc...
Lowering supply voltage is still the most effective technique to reduce dynamic power, and Vdd is be...
For ultra low power application, digital sub-threshold logic design has been explored. Extremely low...
Lowering supply voltage is still the most effective technique to reduce dynamic power, and Vdd is be...
The miniaturisation of electronic circuits allows the potential for new applications, such as smart-...
Digital circuits operating in the sub-threshold regime are able to perform minimum energy operation ...
variability in process parameters, such as the threshold voltage, are expected to increase and becom...
Self-Adaptive VDD Scaling (SAVS) technique achieves power/energy reduction by dynamically scaling VD...
This thesis pertains to the design of low-power/ultra low-power high variation-space and wide operat...