Speed and power is the major constraint in modern digital design so it is required to design the high speed, less number of transistors as a prime consideration. The low power carry look ahead adder using static CMOS transmission gate logic that overcomes the limitation of series connected pass transistors in the carry propagation path. In this approach it is required to find the longest critical paths in the multi-bit adders and then shortening the path to reduce the total critical path delay. The design simulation on microwind layout tool shows the worst-case delay in ns and total power consumption in microwatt range
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
Addition is the basic operation in many modern electronic applications. As the fastest adder,...
Speed and power is the major constraint in modern digital design. We have to design the high speed, ...
Speed and power is the major constraint in modern digital design so it is required to design the hig...
Abstract- Speed and power is the major constraint in modern digital design. We have to design the hi...
Speed of operation depends on the longest critical paths in the multi-bit adders and also the MOSFET...
Adders are the critical parts of processor circuits. The performance of processors increases by impr...
Abstract- A wide assortment of carry propagate adders offer varying areadelay tradeoff % Wiring and ...
Adders are the critical parts of processor circuits. The performance of processors increases by impr...
In this paper, a high-speed low-power full adder design using multiplexer based pass transistor logi...
In this paper, a high-speed low-power 18T CMOS full adder design featuring full-swing output is prop...
In this paper, we present a full-static carry-skip adder designed to achieve low power dissipation a...
In this paper a modified Constant Delay Logic is been proposed to provide improved performance. Cont...
Addition is the basic operation in many modern electronic applications. As the fastest adder,...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
Addition is the basic operation in many modern electronic applications. As the fastest adder,...
Speed and power is the major constraint in modern digital design. We have to design the high speed, ...
Speed and power is the major constraint in modern digital design so it is required to design the hig...
Abstract- Speed and power is the major constraint in modern digital design. We have to design the hi...
Speed of operation depends on the longest critical paths in the multi-bit adders and also the MOSFET...
Adders are the critical parts of processor circuits. The performance of processors increases by impr...
Abstract- A wide assortment of carry propagate adders offer varying areadelay tradeoff % Wiring and ...
Adders are the critical parts of processor circuits. The performance of processors increases by impr...
In this paper, a high-speed low-power full adder design using multiplexer based pass transistor logi...
In this paper, a high-speed low-power 18T CMOS full adder design featuring full-swing output is prop...
In this paper, we present a full-static carry-skip adder designed to achieve low power dissipation a...
In this paper a modified Constant Delay Logic is been proposed to provide improved performance. Cont...
Addition is the basic operation in many modern electronic applications. As the fastest adder,...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
With the increase in device integration level and the growth in complexity of Integrated circuits, s...
Addition is the basic operation in many modern electronic applications. As the fastest adder,...