Abstract — We present a design technique for implementing asynchronous ALUs with CMOS domino logic and delay insensitive dual rail four-phase logic. It ensures economy in silicon area and potentially for low power consumption. The design has been described and implemented to achieve high performance in comparison with the synchronous and available asynchronous design. The experimental result shows significant reduction in the number of transistors as well as delay. I
Abstract Conventional synchronous design circuits cannot only satisfy the timing requirement of the ...
asynchronous circuits an increasingly practical alternative. These challenges include the increasing...
Dual-rail domino gates are restricted to create a reliable critical data path. According to this cri...
Designing high-speed low-power circuits with CMOS technology has been a major research problem for m...
Domino logic has proved to be a powerful alternative to conventional CMOS in high-performance IC des...
In this paper, we propose a low-power true single-phase-clock (TSPC) based domino logic circuit desi...
Abstract: Reduction of propagation delay is very important for high speed applications. This paper g...
AbstractIn this paper, we propose a low-power true single-phase-clock (TSPC) based domino logic circ...
The tremendous success of the low-power designs of VLSI circuits over the past 50 years has signific...
In this paper, a new technique of power reduction in CMOS domino logic is proposed. The proposed tec...
ABSTRACT Dynamic domino logic circuits are widely used in modern digital VLSI circuits. These dynami...
Leakage power and propagation delay are the two major challenges in designing CMOS VLSI circuits, in...
Abstract — A significant amount of the total power in highly synchronous systems gets dissipated ove...
Abstract: This paper discusses the various design techniques of Energy efficient and High Speed Domi...
[[abstract]]New CMOS differential logic circuits, called asynchronous latched CMOS differential logi...
Abstract Conventional synchronous design circuits cannot only satisfy the timing requirement of the ...
asynchronous circuits an increasingly practical alternative. These challenges include the increasing...
Dual-rail domino gates are restricted to create a reliable critical data path. According to this cri...
Designing high-speed low-power circuits with CMOS technology has been a major research problem for m...
Domino logic has proved to be a powerful alternative to conventional CMOS in high-performance IC des...
In this paper, we propose a low-power true single-phase-clock (TSPC) based domino logic circuit desi...
Abstract: Reduction of propagation delay is very important for high speed applications. This paper g...
AbstractIn this paper, we propose a low-power true single-phase-clock (TSPC) based domino logic circ...
The tremendous success of the low-power designs of VLSI circuits over the past 50 years has signific...
In this paper, a new technique of power reduction in CMOS domino logic is proposed. The proposed tec...
ABSTRACT Dynamic domino logic circuits are widely used in modern digital VLSI circuits. These dynami...
Leakage power and propagation delay are the two major challenges in designing CMOS VLSI circuits, in...
Abstract — A significant amount of the total power in highly synchronous systems gets dissipated ove...
Abstract: This paper discusses the various design techniques of Energy efficient and High Speed Domi...
[[abstract]]New CMOS differential logic circuits, called asynchronous latched CMOS differential logi...
Abstract Conventional synchronous design circuits cannot only satisfy the timing requirement of the ...
asynchronous circuits an increasingly practical alternative. These challenges include the increasing...
Dual-rail domino gates are restricted to create a reliable critical data path. According to this cri...