Due to semiconductor technology scaling, integrated circuits have become more sensitive to soft errors. To effectively tolerate multi-node-upsets caused by soft errors and reduce the power dissipation and delay of a latch, this paper proposes a novel triple-node-upset (TNU) self-recoverable latch design, namely, a highly robust TNU self-recoverable (HTNURE) latch, with many redundant nodes and cyclic storage based on 32-nm CMOS technology. The proposed latch uses the Muller C-element as a basic module and can recover all nodes after a TNU occurs. It has low power dissipation and delay due to the application of clock gating technology and high-speed transmission path technology. The proposed latch design was verified by simulations, and simu...
This paper presents a set of eight novel configurations for the design of single event soft error (S...
International audienceIn deep nano-scale and high-integration CMOS technologies, storage circuits ha...
In this paper, we analyze the conditions making transient faults (TFs) affecting the nodes of conven...
The charge sharing effect is becoming increasingly severe due to the continuous reduction of semicon...
A high-performance and low power consumption triple-node upset self-recoverable latch (HTNURL) is pr...
International audienceWith the advancement of semiconductor technologies, nano-scale CMOS circuits h...
To avoid soft errors in integrated circuits, this paper presents two high-performance latch designs,...
International audienceFirst, this paper proposes a double-node-upset (DNU)-completely-tolerant (DNUC...
International audienceAs the CMOS technology is continuously scaling down, nano-scale integrated cir...
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...
International audienceThis paper presents a dual-modular-redundancy and dual-level error-interceptio...
International audienceThis paper proposes a 4-node-upset (4NU) recoverable and high-impedance-state ...
International audienceTo meet the requirements of both costeffectiveness and high reliability for lo...
This work was supported in part by the Spanish MCIN/AEI /10.13039/501100011033/ FEDER under Grant PI...
This paper presents a set of eight novel configurations for the design of single event soft error (S...
International audienceIn deep nano-scale and high-integration CMOS technologies, storage circuits ha...
In this paper, we analyze the conditions making transient faults (TFs) affecting the nodes of conven...
The charge sharing effect is becoming increasingly severe due to the continuous reduction of semicon...
A high-performance and low power consumption triple-node upset self-recoverable latch (HTNURL) is pr...
International audienceWith the advancement of semiconductor technologies, nano-scale CMOS circuits h...
To avoid soft errors in integrated circuits, this paper presents two high-performance latch designs,...
International audienceFirst, this paper proposes a double-node-upset (DNU)-completely-tolerant (DNUC...
International audienceAs the CMOS technology is continuously scaling down, nano-scale integrated cir...
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...
International audienceThis paper presents a dual-modular-redundancy and dual-level error-interceptio...
International audienceThis paper proposes a 4-node-upset (4NU) recoverable and high-impedance-state ...
International audienceTo meet the requirements of both costeffectiveness and high reliability for lo...
This work was supported in part by the Spanish MCIN/AEI /10.13039/501100011033/ FEDER under Grant PI...
This paper presents a set of eight novel configurations for the design of single event soft error (S...
International audienceIn deep nano-scale and high-integration CMOS technologies, storage circuits ha...
In this paper, we analyze the conditions making transient faults (TFs) affecting the nodes of conven...