Intrinsic parameter fluctuations steadily increases with CMOS technology scaling. Around the 90nm technology node, such fluctuations will eliminate much of the available noise margin in SRAM based on conventional MOSFETs. Ultra thin body (UTB) SOI MOSFETs are expected to replace conventional MOSFETs for integrated memory applications due to superior electrostatic integrity and better resistant to some of the sources of intrinsic parameter fluctuations. To fully realise the performance benefits of UTB SOI based SRAM cells a statistical circuit simulation methodology which can fully capture intrinsic parameter fluctuation information into the compact model is developed. The impact on 6T SRAM static noise margin characteristics of discrete ran...
This paper presents an evaluation of 14-nm SOI FinFET CMOS SRAM codesign techniques in the presence ...
session: SOI Circuit DesignInternational audienceThis work investigates the impact of Random Telegra...
Several emerging devices have been proposed to continue the CMOS scaling. To assess scalability, dev...
The CMOS scaling increases the impact of intrinsic parameter fluctuation on the yield and functional...
As CMOS device dimensions are being aggressively scaled, the device characteristic must be assessed ...
Based on 3D statistical device simulation, the impacts of key statistical variability (SV) sources (...
The SRAM has a very constrained cell area and is consequently sensitive to the intrinsic parameter f...
It has been shown that sub 100nm SRAM is particularly sensitive to stochastic device variability. In...
An ‘atomistic’ circuit simulation methodology is developed to investigate intrinsic parameter fluctu...
Simulations of up to 10000 fully depleted thin-body silicon-on-insulator MOSFETs show that the stand...
Robust SRAM design is one of the key challenges of process technology scaling. The steady pace of pr...
Variability is a critical concern for the stability and yield of SRAM with minimized size. We prese...
The MOS transistors of minimal gate length, universally favoured for the design of digital integrate...
session A7L-E: Advanced CMOSInternational audienceThis work investigates the impact of Random Telegr...
International audienceThis paper describes a design approach based on optimization of embedded SRAMs...
This paper presents an evaluation of 14-nm SOI FinFET CMOS SRAM codesign techniques in the presence ...
session: SOI Circuit DesignInternational audienceThis work investigates the impact of Random Telegra...
Several emerging devices have been proposed to continue the CMOS scaling. To assess scalability, dev...
The CMOS scaling increases the impact of intrinsic parameter fluctuation on the yield and functional...
As CMOS device dimensions are being aggressively scaled, the device characteristic must be assessed ...
Based on 3D statistical device simulation, the impacts of key statistical variability (SV) sources (...
The SRAM has a very constrained cell area and is consequently sensitive to the intrinsic parameter f...
It has been shown that sub 100nm SRAM is particularly sensitive to stochastic device variability. In...
An ‘atomistic’ circuit simulation methodology is developed to investigate intrinsic parameter fluctu...
Simulations of up to 10000 fully depleted thin-body silicon-on-insulator MOSFETs show that the stand...
Robust SRAM design is one of the key challenges of process technology scaling. The steady pace of pr...
Variability is a critical concern for the stability and yield of SRAM with minimized size. We prese...
The MOS transistors of minimal gate length, universally favoured for the design of digital integrate...
session A7L-E: Advanced CMOSInternational audienceThis work investigates the impact of Random Telegr...
International audienceThis paper describes a design approach based on optimization of embedded SRAMs...
This paper presents an evaluation of 14-nm SOI FinFET CMOS SRAM codesign techniques in the presence ...
session: SOI Circuit DesignInternational audienceThis work investigates the impact of Random Telegra...
Several emerging devices have been proposed to continue the CMOS scaling. To assess scalability, dev...