High Speed and Low Power Consumption Carry Skip Adder using Binary to Excess-One Converter

Arithmetic and Logic Unit (ALU) is a vital component of any CPU. In ALU, adders play a major role not only in addition but also in performing many other basic arithmetic operations like subtraction, multiplication, etc. Thus realizing an efficient adder is required for better performance of an ALU and therefore the processor. For the optimization of speed in adders, the most important factor is carry generation. For the implementation of a fast adder, the generated carry should be driven to the output as fast as possible, thereby reducing the worst path delay which determines the ultimate speed of the digital structure. In conventional carry skip adder the multiplexer is used as a skip logic that provides a better performance and performs an efficient operation with the minimum circuitry. Even though, it affords a significant advantages there may be a large critical path delay revealed by the multiplexer that leads to increase of area usage and power consumption. The basic idea of this paper is to use Binary to Excess-1 Converters (BEC) to achieve lower area and power consumption.