We present a design methodology towards minimum-area maximum-performance designs in sub-/ near-threshold operation. Our methodology is based on a new metric called performance-per-area. Unlike conventional gate sizing, we use forward body biasing at synthesis time to render faster, smaller and more energy-efficient circuits. Our theory introduces body biasing into delay and energy models in the form of nonlinear derating functions that can easily be fitted to a technology node. The methodology is validated using an industrial microprocessor consisting of approximately 31 K gates and 3.7 K flip-flops in CMOS 90 nm. We obtain 4.2x better EDP, 3.8x higher speed and 9% smaller area than the non-body-biased counterpart
This paper presents the practical application of body biasing control of ultra-deep submicron FD-SOI...
Nanometer CMOS scaling has resulted in greatly increased circuit variability, with extremely adverse...
A primary design goal for VLSI systems is to achieve low energy consumption while maintaining high p...
We present a design methodology towards minimum-area maximum-performance designs in sub-/ near-thres...
Worst-case design uses extreme process corner conditions which rarely occur. This limits maximum spe...
Worst-case design uses extreme process corner conditions which rarely occur. This costs additional p...
The ever expanding market of ultra portable electronic products is compelling the designer to invest...
Nanometer CMOS scaling has resulted in greatly increased circuit variability, with extremely adverse...
Minimum energy per operation is typically achieved in the subthreshold region where low speed and lo...
Abstract — Over the last decade, the design of ultra-low-power digital circuits in subthreshold regi...
The continuous shrinking size of transistors have resulted in faster devices and there is never endi...
Abstract — In recent years, sub-threshold logic and body bias technique provides ultra low power and...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
The gate level body biasing (GLBB) is assessed in the context of ultra-low-voltage logic designs. To...
Technology being ever-changing holds large demand for ultra-low power circuits. Transistors operatin...
This paper presents the practical application of body biasing control of ultra-deep submicron FD-SOI...
Nanometer CMOS scaling has resulted in greatly increased circuit variability, with extremely adverse...
A primary design goal for VLSI systems is to achieve low energy consumption while maintaining high p...
We present a design methodology towards minimum-area maximum-performance designs in sub-/ near-thres...
Worst-case design uses extreme process corner conditions which rarely occur. This limits maximum spe...
Worst-case design uses extreme process corner conditions which rarely occur. This costs additional p...
The ever expanding market of ultra portable electronic products is compelling the designer to invest...
Nanometer CMOS scaling has resulted in greatly increased circuit variability, with extremely adverse...
Minimum energy per operation is typically achieved in the subthreshold region where low speed and lo...
Abstract — Over the last decade, the design of ultra-low-power digital circuits in subthreshold regi...
The continuous shrinking size of transistors have resulted in faster devices and there is never endi...
Abstract — In recent years, sub-threshold logic and body bias technique provides ultra low power and...
Successful CMOS process scaling has been the key driving force behind the powerful role played by th...
The gate level body biasing (GLBB) is assessed in the context of ultra-low-voltage logic designs. To...
Technology being ever-changing holds large demand for ultra-low power circuits. Transistors operatin...
This paper presents the practical application of body biasing control of ultra-deep submicron FD-SOI...
Nanometer CMOS scaling has resulted in greatly increased circuit variability, with extremely adverse...
A primary design goal for VLSI systems is to achieve low energy consumption while maintaining high p...