International audienceTo meet the requirements of both costeffectiveness and high reliability for low-orbit aerospace applications, this paper first presents a radiation hardened latch design, namely HLCRT. The latch mainly consists of a single-node-upset self-recoverable cell, a 3input C-element, and an inverter. If any two inputs of the C-element suffer from a double-node-upset (DNU), or if one node inside the cell together with another node outside the cell suffer from a DNU, the latch still has a correct value on its output node, i.e., the latch is effectively DNU hardened. Based on the latch, this paper also presents a flip-flop, namely HLCRT-FF that can tolerate SNUs and DNUs. Simulation results demonstrate the SNU/DNU tolerance capab...
International audienceWith the reduction of technology nodes now reaching 2nm, circuits become incre...
International audienceWith the aggressive reduction of CMOS transistor feature sizes, the soft error...
Numerous radiation-hardened-by-design (RHBD) flip-flops have been developed to increase the dependab...
International audienceIn space, the impact of radiative particles, such as neutrons and heavy ions, ...
To avoid soft errors in integrated circuits, this paper presents two high-performance latch designs,...
International audienceAs the CMOS technology is continuously scaling down, nano-scale integrated cir...
International audienceWith the advancement of semiconductor technologies, nano-scale CMOS circuits h...
A high-performance and low power consumption triple-node upset self-recoverable latch (HTNURL) is pr...
The charge sharing effect is becoming increasingly severe due to the continuous reduction of semicon...
abstract: ABSTRACT The D flip flop acts as a sequencing element while designing any pipelined system...
Due to semiconductor technology scaling, integrated circuits have become more sensitive to soft erro...
International audienceFirst, this paper proposes a double-node-upset (DNU)-completely-tolerant (DNUC...
International audienceThis paper proposes a 4-node-upset (4NU) recoverable and high-impedance-state ...
Single event double upsets (SEDUs) caused by charge sharing have been an important contributor to th...
As CMOS technology keeps scaling down, circuit designers face variety of challenges. Due to the scal...
International audienceWith the reduction of technology nodes now reaching 2nm, circuits become incre...
International audienceWith the aggressive reduction of CMOS transistor feature sizes, the soft error...
Numerous radiation-hardened-by-design (RHBD) flip-flops have been developed to increase the dependab...
International audienceIn space, the impact of radiative particles, such as neutrons and heavy ions, ...
To avoid soft errors in integrated circuits, this paper presents two high-performance latch designs,...
International audienceAs the CMOS technology is continuously scaling down, nano-scale integrated cir...
International audienceWith the advancement of semiconductor technologies, nano-scale CMOS circuits h...
A high-performance and low power consumption triple-node upset self-recoverable latch (HTNURL) is pr...
The charge sharing effect is becoming increasingly severe due to the continuous reduction of semicon...
abstract: ABSTRACT The D flip flop acts as a sequencing element while designing any pipelined system...
Due to semiconductor technology scaling, integrated circuits have become more sensitive to soft erro...
International audienceFirst, this paper proposes a double-node-upset (DNU)-completely-tolerant (DNUC...
International audienceThis paper proposes a 4-node-upset (4NU) recoverable and high-impedance-state ...
Single event double upsets (SEDUs) caused by charge sharing have been an important contributor to th...
As CMOS technology keeps scaling down, circuit designers face variety of challenges. Due to the scal...
International audienceWith the reduction of technology nodes now reaching 2nm, circuits become incre...
International audienceWith the aggressive reduction of CMOS transistor feature sizes, the soft error...
Numerous radiation-hardened-by-design (RHBD) flip-flops have been developed to increase the dependab...