Lanxi Duan scite author profile

Glitch at the input can increase the power consumption of flip-flop greatly. To solve this problem effectively, a Low-Power Anti-Glitch Double-Edge Triggered Flip-Flop Based on Robust C-Elements (LARC) is proposed in this paper. The proposed Latch Multiplexer-A Double-edge Triggered Flip-flop (LARC-DET) can effectively block the glitch at the input and prevent the redundant transition at internal nodes. As a result, the extra power consumption caused by the glitch at the input is effectively reduced. The simulation was performed using HSPICE under 32[Formula: see text]nm complementary metal oxide semiconductor (CMOS) process. The simulation results show that, compared with 12 double edge flip-flops, the proposed LARC-DET is the lowest in terms of power consumption and power delay product. Process voltage temperature (PVT) variation analysis shows its insensitivity to voltage variation, temperature variation and process variation.

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SP resonance angle and Q-factor of metals in ultraviolet band

Shi¹,

Duan²,

Qin³

et al. 2019

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A high-speed quadruple-node-upset-tolerant latch in 22 nm CMOS technology

Huang

Zhang

et al. 2023

Microelectronics Reliability

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Lanxi Duan

A Soft-Error-Immune Quadruple-Node-Upset Tolerant Latch

Low-Power Anti-Glitch Double-Edge Triggered Flip-Flop Based on Robust C-Elements

SP resonance angle and Q-factor of metals in ultraviolet band

A high-speed quadruple-node-upset-tolerant latch in 22 nm CMOS technology

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