Performance enhancement of efficient process based on Carry-Skip Adder for IoT applications

IoT provides a platform for every device to be connected by means of a stable internet connection. The interoperability of the devices helps to communicate and exchange data between one another and increases the power consumption of devices. When creating a new IoT system or rebuilding the existing ones, the low power circuit design is considered as an essential factor. In the low power circuit design, the most challenging aspect to overcome is to reduce the leakage power, because the battery-operated devices are fast in draining energy when left long in the standby mode. Reducing the delay of a ripple carry adder can be only accomplished with Carry-Skip Adder (CSA) with minimal effort when compared to other techniques like a carry-look ahead adder. The carry skip adder belongs to the family of bypass adders, and its main aim is to improve the worst-case delay of the IoT device based on its area and power consumption. The CSA used in the proposed method for the IoT processor helps to increase the performance of the system relative to average power dissipation, leakage power, power delay product, and propagation delay.