A Review on Design a Low Power Flip-Flop based on a Signal Feed-through Scheme
نویسندگان
چکیده
Flip-flops and latches are the most important elements of a design for both a delay and energy point of view. In many electronics design low power consumption is basic need in most of the applications. The energy performance requirements enhance the most designers of next generation system towards the least possible power consumption. The power consumption is basically reduced by scaling of a power supply voltage.Flip flops typically consumes more than 50% of random logic power in the SoC chip, because of redundant transition of internal node. A low power flip flop design featuring pulse triggered structure based on signal feed-through scheme is presented which successfully solves the long discharging path problem in a various pulse triggered flip flop design and achieve a better power performance and better speed. In this paper we have studied all the major techniques to achieve a low power flip flop and presented their comparison.
منابع مشابه
Pulse Triggered Flip-Flop Design with Signal Feed through Scheme using Conditional Pulse Enhancement Technique
A low power pulse triggered flip-flop with signal feed through scheme using Conditional Pulse Enhancement technique is presented in this paper. The proposed design adopts a modified True Single Phase Clock Latch structure and employs a signal feed through scheme to enhance the delay. The long discharging path problem in conventional explicit type pulse triggered flip flops are successfully solv...
متن کاملA new low power high reliability flip-flop robust against process variations
Low scaling technology makes a significant reduction in dimension and supply voltage, and lead to new challenges about power consumption such as increasing nodes sensitivity over radiation-induced soft errors in VLSI circuits. In this area, different design methods have been proposed to low power flip-flops and various research studies have been done to reach a suitable hardened flip-flops. In ...
متن کاملDesign of Low Power Shift Register Using Implcit and Explicit Type Flip Flop
Flip-flops is critical timing elements in digital circuits which have a large impact on the circuit speed and power consumption. The performance of flip-flop is an important element to determine the efficiency of the whole synchronous circuit . In an attempt to reduce power consumption in flip-flops a low-power flip-flop (FF) design featuring an explicit type pulse-triggered structure and a mod...
متن کاملLow Power Area Efficient VLSI Architectures for Shift Register Using Explicit Pulse Triggered Flip Flop Based on Signal Feed-Through Scheme
A register that is designed to allow the bits of its contents to be moved to left or right is known to be a shift register. Shift registers may be implemented by using pulsed latches and flip flops.However,shift register implemented by pulsed latches have power and area problems .So, flip flops are preferred over pulsed latches. In this paper, a VLSI architecture for low power area efficient VL...
متن کاملHigh-performance and Low-power Clock Branch Sharing Pseudo-NMOS Level Converting Flip-flop
Multi-Supply voltage design using Cluster Voltage Scaling (CVS) is an effective way to reduce power consumption without performance degradation. One of the major issues in this method is performance and power overheads due to insertion of Level Converting Flip-Flops (LCFF) at the interface from low-supply to high-supply clusters to simultaneously perform latching and level conversion. In this p...
متن کامل