This paper introduces a novel design for a multiple node upset tolerant flip-flop. This design uses the TDICE memory cell that was proposed in the technical literature for memory arrays and applies its principles of operation to a Master Slave flip-flop implemented at 65 nm CMOS technology. It is shown that the proposed design approach is particularly suited for flip-flops targeting highly radioactive environments; simulation validates the multiple node upset tolerance and its viability. A test chip developed for the on-silicon validation is also described
This paper presents the design of hardened translation lookaside buffer based on Spaced Transistor G...
The 21st century is witnessing a tremendous demand for transistors. Life amenities have incorporated...
A flip-flop circuit hardened against soft errors is presented in this paper. This design is an impro...
This paper introduces a novel design for a multiple node upset tolerant flip-flop. This design uses ...
Three layout-hardened Dual Interlocked Storage Cell (DICE) D Flip-Flops (DFFs) were designed and man...
Nanometric CMOS is likely to experience the occurrence of a single event causing a multiple-node ups...
Fully Depleted Silicon on Insulator (FD SOI) technology nodes provide better resistance to single ev...
abstract: ABSTRACT The D flip flop acts as a sequencing element while designing any pipelined system...
Upset hardened dual-interlocked cell (DICE) [1] has found an important place in circuits for space a...
Abstract: A novel Single Event Upset (SEU) tolerant flip-flop design is proposed, which is well suit...
A guard-gate based flip-flop circuit temporally hardened against single-event effects is presented i...
In radioactive environments, particle strikes can induce transient errors in integrated circuits (IC...
Emerging spin-based devices are introduced as an intriguing candidate to alleviate leakage currents ...
In this paper, we present D flip-flop, Quatro, and stacked Quarto flip-flop designs fabricated in a ...
International audienceFirst, this paper proposes a double-node-upset (DNU)-completely-tolerant (DNUC...
This paper presents the design of hardened translation lookaside buffer based on Spaced Transistor G...
The 21st century is witnessing a tremendous demand for transistors. Life amenities have incorporated...
A flip-flop circuit hardened against soft errors is presented in this paper. This design is an impro...
This paper introduces a novel design for a multiple node upset tolerant flip-flop. This design uses ...
Three layout-hardened Dual Interlocked Storage Cell (DICE) D Flip-Flops (DFFs) were designed and man...
Nanometric CMOS is likely to experience the occurrence of a single event causing a multiple-node ups...
Fully Depleted Silicon on Insulator (FD SOI) technology nodes provide better resistance to single ev...
abstract: ABSTRACT The D flip flop acts as a sequencing element while designing any pipelined system...
Upset hardened dual-interlocked cell (DICE) [1] has found an important place in circuits for space a...
Abstract: A novel Single Event Upset (SEU) tolerant flip-flop design is proposed, which is well suit...
A guard-gate based flip-flop circuit temporally hardened against single-event effects is presented i...
In radioactive environments, particle strikes can induce transient errors in integrated circuits (IC...
Emerging spin-based devices are introduced as an intriguing candidate to alleviate leakage currents ...
In this paper, we present D flip-flop, Quatro, and stacked Quarto flip-flop designs fabricated in a ...
International audienceFirst, this paper proposes a double-node-upset (DNU)-completely-tolerant (DNUC...
This paper presents the design of hardened translation lookaside buffer based on Spaced Transistor G...
The 21st century is witnessing a tremendous demand for transistors. Life amenities have incorporated...
A flip-flop circuit hardened against soft errors is presented in this paper. This design is an impro...