In this paper a low-power double-edge triggered static flip-flop (DETSFF) suitable for low-power and high performance applications is presented. The designed DETFF is verified at gpdk 180nm-1.8V CMOS technology. Comparison with some of the latest DETFFs shows that the proposed DETSFF can achieve the lowest power consumption, lowest clock to Q delay and thus Power-delay-product (PDP). Moreover, the proposed DETSFF comprises of only 15 transistors hence require lesser number of transistors and thus requires lesser overall silicon area. Keyword
The increasing demand of portable applications motivates the research on low power and high speed ci...
Edge Triggered Flip Flops are bistable flip-flop circuits in which data is latched at rising and fal...
In this paper, a low voltage dual-pulse-clock double edge triggered D'flip-flop (DPDET) is prop...
This paper enumerates new architecture of low power dual-edge triggered Flip-Flop (DETFF) designed a...
The power consumption of a system is crucial parameter in modern VLSI circuits especially for low po...
In this paper, a novel low-power dual edge-triggered (DET) D-type flip-flop is proposed. This design...
[[abstract]]In this paper, a new low power and high speed CMOS double-edge triggered flip-flop (DETF...
Abstract: Flip-flops are the basic storage elements used extensively in all kinds of controlling uni...
In this paper, a double edge-triggered (DET), static SOI D flip-flop design suitable for low power a...
A low power double edge-triggered (DET) flip-flop using a single latch is presented. In the propos...
Dual edge triggered (DET) techniques are most liked choice for the researchers in the field of digit...
In this work, a new area and power efficient single edge triggered flip-flop has been proposed. The ...
Due to fast growth of portable devices, power consumption and timing delays are the two important de...
A new dual edge-triggered flip-flop that saves power by inhibiting transitions of the nodes that are...
In area of low power VLSI, switching activity of circuit node is of great concerned t...
The increasing demand of portable applications motivates the research on low power and high speed ci...
Edge Triggered Flip Flops are bistable flip-flop circuits in which data is latched at rising and fal...
In this paper, a low voltage dual-pulse-clock double edge triggered D'flip-flop (DPDET) is prop...
This paper enumerates new architecture of low power dual-edge triggered Flip-Flop (DETFF) designed a...
The power consumption of a system is crucial parameter in modern VLSI circuits especially for low po...
In this paper, a novel low-power dual edge-triggered (DET) D-type flip-flop is proposed. This design...
[[abstract]]In this paper, a new low power and high speed CMOS double-edge triggered flip-flop (DETF...
Abstract: Flip-flops are the basic storage elements used extensively in all kinds of controlling uni...
In this paper, a double edge-triggered (DET), static SOI D flip-flop design suitable for low power a...
A low power double edge-triggered (DET) flip-flop using a single latch is presented. In the propos...
Dual edge triggered (DET) techniques are most liked choice for the researchers in the field of digit...
In this work, a new area and power efficient single edge triggered flip-flop has been proposed. The ...
Due to fast growth of portable devices, power consumption and timing delays are the two important de...
A new dual edge-triggered flip-flop that saves power by inhibiting transitions of the nodes that are...
In area of low power VLSI, switching activity of circuit node is of great concerned t...
The increasing demand of portable applications motivates the research on low power and high speed ci...
Edge Triggered Flip Flops are bistable flip-flop circuits in which data is latched at rising and fal...
In this paper, a low voltage dual-pulse-clock double edge triggered D'flip-flop (DPDET) is prop...