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  4. Low-Power Pulse-Triggered Flip-Flop Design Based on a Signal Feed-Through Scheme
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Category: MTech VLSI Projects
By MTech Projects
MTech Projects
01.Jun
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Low-Power Pulse-Triggered Flip-Flop Design Based on a Signal Feed-Through Scheme

PROJECT TITLE :

Low-Power Pulse-Triggered Flip-Flop Design Based on a Signal Feed-Through Scheme (2014)

ABSTRACT :

In this brief, a low-power flip-flop (FF) design featuring an explicit type pulse-triggered structure and a modified true single phase clock latch based on a signal feed-through scheme is presented. The proposed design successfully solves the long discharging path problem in conventional explicit type pulse-triggered FF (P-FF) designs and achieves better speed and power performance. Based on post-layout simulation results using TSMC CMOS 90-nm technology, the proposed design outperforms the conventional P-FF design data-close-to-output (ep-DCO) by 8.2% in data-to-Q delay. In the mean time, the performance edges on power and power- delay-product metrics are 22.7% and 29.7%, respectively.

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  • An Efficient VLSI Architecture of a Reconfigurable Pulse-Shaping FIR Interpolation Filter for Multistandard DUC - 2015
  • Designing Tunable Subthreshold Logic Circuits Using Adaptive Feedback Equalization - 2015
  • A Bit plane Decomposition Matrix Based VLSI Integer Transform Architecture for HEVC - 2017
  • Two-Extra-Column Trellis Min–Max Decoder Architecture for Nonbinary LDPC Codes - 2017
  • A Low-Power Configurable Adder for Approximate Applications - 2018
  • Design of Efficient Programmable Test-per-Scan Logic BIST Modules - 2017
  • A High-Speed and Power-Efficient Voltage Level Shifter for Dual-Supply Applications - 2017
  • A Novel Coding Scheme for Secure Communications in Distributed RFID Systems - 2016
  • Efficient Integer DCT Architectures for HEVC - 2014
  • Design of Efficient BCD Adders in Quantum Dot Cellular Automata - 2016
Previous article: Statistical Analysis of MUX-Based Physical Unclonable Functions Statistical Analysis of MUX-Based Physical Unclonable Functions Next article: Bit-Level Optimization of Adder-Trees for Multiple Constant Multiplications for Efficient FIR Filter Implementation Bit-Level Optimization of Adder-Trees for Multiple Constant Multiplications for Efficient FIR Filter Implementation
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