Asynchronous adiabatic logic (AAL) is a novel lowpower design technique which combines the energy saving benefits of asynchronous systems with adiabatic benefits. In this paper, energy efficient full adder using double pass transistor with asynchronous adiabatic logic (DPTAAL) is used to design a low power multiplier. Asynchronous adiabatic circuits are very low power circuits to preserve energy for reuse, which reduces the amount of energy drawn directly from the power supply. In this work, an 8×8 multiplier using DPTAAL is designed and simulated, which exhibits low power and reliable logical operations. To improve the circuit performance at reduced voltage level, double pass transistor logic (DPL) is introduced. The power results of the proposed multiplier design are compared with the conventional CMOS implementation. Simulation results show significant improvement in power for clock rates ranging from 100 MHz to 300 MHz.
A WSN (wireless sensor network) consists of lakhs of sensor nodes with low level energy, memory management, and computation routing capability. The real time world applications of WSN in some extreme perceive environment arrange sensor nodes complex to exchange once they use up the resource. Hence, lots of researchers in this field going towards on how to design a property routing protocol with extension route procedures to safety of transmission with prolong the life span of the network. The classical hybrid protocols such as LEACH and GPSR have better performance in saving the power consumption. However, the choosing formula eliminates the change of nodes' Route will make the nodes acting as cluster heads too many times die of route with power early expressions to the consumption of too much Power and saves the route path. In this paper, we present WSN network route extension with supporting of cloud architecture of the state-of-the-art routing techniques in WSNs. Our Proposed Research belongs overcome of GPSR (Greedy Perimeter Stateless Routing) to EC-GPSR (Efficient Coverage-GPSR), ERA (Efficient Route Autonomous) and IC-GPSR (Isolated Coverage-GPSR) with solving of Route problems due to Route extension with help of cloud to store availability of routes and improve the scalability with compare AODV.
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