International audienceIn this paper, we propose a novel TFET Flip-Flop (TFET-FF) designed to address the requirements of ULP (Ultra-Low-Power) applications, like IoT (Internet of Things), while maintaining high performance. The performance of the proposed design in terms of power, area and speed is compared with different flip-flop designs present in literature for MOSFETs, TFETs and FinFETs. The proposed flip-flop supports voltage scaling and works for supply voltages from 0.3V to 0.6V. Leakage is improved by 4 to 7 decades in comparison to state-of-the-art TFET, FinFET and MOSFET designs. With neither feedback for latch implementation nor device stacking, the TFET-FF speed is comparable or exceeds the speed of High-Performance FinFET impl...
In this paper, we first reconstruct a novel planar static contention-free single-phase-clocked flip-...
The aggressive CMOS technology shrinking driven by cost reduction, performance improvement and power...
Among the various building blocks in digital designs, the most complex and power consuming is the fl...
International audienceIn this paper, we propose a novel TFET Flip-Flop (TFET-FF) designed to address...
The paper proposed a new design of static SET flip-flop for low power applications. In this work, co...
Miniaturization and portable devices have reshaped the electronic device landscape, emphasizing the ...
In this thesis 4 different ultra low voltage (ULV) flip-flops are presented. Floating gates has been...
Abstract: In this paper, implementations of the flip-flops are presented which are level triggered a...
The paper proposes a higher speed i.e., a lesser delay TCFF with almost exactly the same power reduc...
International audienceThis paper presents a hybrid TFET/CMOS SRAM architecture designed to address t...
The increasing demand of portable applications motivates the research on low power and high speed ci...
In this paper, a novel TFET design, called Pocket-mSTFET (PMS-TFET), is proposed and experimentally ...
With the vast advancement in VLSI technology, tens of millions of transistors are integrated on a si...
FF are elementary memory principles and are used to store information. They're used in construction ...
Abstract: Power consumption is considered as one of the important challenge in modern VLSI design al...
In this paper, we first reconstruct a novel planar static contention-free single-phase-clocked flip-...
The aggressive CMOS technology shrinking driven by cost reduction, performance improvement and power...
Among the various building blocks in digital designs, the most complex and power consuming is the fl...
International audienceIn this paper, we propose a novel TFET Flip-Flop (TFET-FF) designed to address...
The paper proposed a new design of static SET flip-flop for low power applications. In this work, co...
Miniaturization and portable devices have reshaped the electronic device landscape, emphasizing the ...
In this thesis 4 different ultra low voltage (ULV) flip-flops are presented. Floating gates has been...
Abstract: In this paper, implementations of the flip-flops are presented which are level triggered a...
The paper proposes a higher speed i.e., a lesser delay TCFF with almost exactly the same power reduc...
International audienceThis paper presents a hybrid TFET/CMOS SRAM architecture designed to address t...
The increasing demand of portable applications motivates the research on low power and high speed ci...
In this paper, a novel TFET design, called Pocket-mSTFET (PMS-TFET), is proposed and experimentally ...
With the vast advancement in VLSI technology, tens of millions of transistors are integrated on a si...
FF are elementary memory principles and are used to store information. They're used in construction ...
Abstract: Power consumption is considered as one of the important challenge in modern VLSI design al...
In this paper, we first reconstruct a novel planar static contention-free single-phase-clocked flip-...
The aggressive CMOS technology shrinking driven by cost reduction, performance improvement and power...
Among the various building blocks in digital designs, the most complex and power consuming is the fl...