Minimum energy per operation is typically achieved in the subthreshold region where low speed and low robustness are two challenging problems. This paper studies the impact of back biasing (BB) schemes on these features for 28 nm FDSOI technology at three levels of abstraction: gate, library and IP. We show that forward BB (FBB) can help cover a wider design space in terms of the optimal frequency of operation while keeping minimum energy. Asymmetric BB between NMOS and PMOS can mitigate the effect of systematic mismatch on the minimum energy point (MEP) and robustness. With optimal asymmetric BB, we achieve either a MEP reduction up to 18% or a 36× speedup at the MEP. At the IP level, we confirm the MEP configurability with BB with synthe...
International audienceUltra-Thin-Body and Back-oxide Fully-Depleted Silicon-On-Insulator (UTBB-FDSOI...
International audienceEnergy-quality scalable systems are a promising solution to cope with the smal...
In this paper, the minimum operating voltage of master-slave flip-flops made in advanced fully-deple...
Minimum energy per operation is typically achieved in the subthreshold region where low speed and lo...
Short-channel effects and variability in bulk technolo-gies limit the interest of CMOS technology sc...
Compared to BULK CMOS, FDSOI (Fully-Depleted Silicon-On-Insulator) introduces an ultra-thin buried o...
Sensitivity to process, voltage, and temperature (PVT) variations constitutes a serious obstacle in ...
The deployment of the Internet-of-Things ubiquitous sensing paradigm is constrained by the developme...
Advanced Ultra-Low Power (ULP) computing platforms can be affected by large performance variations. ...
Near-threshold circuits operating at ultra-low voltage (ULV) have matured with integration in commer...
In the present day microelectronics, supply voltage scaling has received an intense attention as an ...
The gate level body biasing (GLBB) is assessed in the context of ultra-low-voltage logic designs. To...
The technique of Body Bias to control threshold voltage is especially suited for FDSOI technology. G...
This paper demonstrates a wide supply range multiply-accumulate datapath block in 28nm UTBB FD-SOI t...
We present a design methodology towards minimum-area maximum-performance designs in sub-/ near-thres...
International audienceUltra-Thin-Body and Back-oxide Fully-Depleted Silicon-On-Insulator (UTBB-FDSOI...
International audienceEnergy-quality scalable systems are a promising solution to cope with the smal...
In this paper, the minimum operating voltage of master-slave flip-flops made in advanced fully-deple...
Minimum energy per operation is typically achieved in the subthreshold region where low speed and lo...
Short-channel effects and variability in bulk technolo-gies limit the interest of CMOS technology sc...
Compared to BULK CMOS, FDSOI (Fully-Depleted Silicon-On-Insulator) introduces an ultra-thin buried o...
Sensitivity to process, voltage, and temperature (PVT) variations constitutes a serious obstacle in ...
The deployment of the Internet-of-Things ubiquitous sensing paradigm is constrained by the developme...
Advanced Ultra-Low Power (ULP) computing platforms can be affected by large performance variations. ...
Near-threshold circuits operating at ultra-low voltage (ULV) have matured with integration in commer...
In the present day microelectronics, supply voltage scaling has received an intense attention as an ...
The gate level body biasing (GLBB) is assessed in the context of ultra-low-voltage logic designs. To...
The technique of Body Bias to control threshold voltage is especially suited for FDSOI technology. G...
This paper demonstrates a wide supply range multiply-accumulate datapath block in 28nm UTBB FD-SOI t...
We present a design methodology towards minimum-area maximum-performance designs in sub-/ near-thres...
International audienceUltra-Thin-Body and Back-oxide Fully-Depleted Silicon-On-Insulator (UTBB-FDSOI...
International audienceEnergy-quality scalable systems are a promising solution to cope with the smal...
In this paper, the minimum operating voltage of master-slave flip-flops made in advanced fully-deple...