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The domain of inexact circuit design, in which accuracy of the circuit can be exchanged for substantial cost (energy, delay, and/or area) savings, has been gathering increasing prominence of late owing to a growing desire for reducing energy consumption of the systems, particularly in the domain of embedded and (portable) multimedia applications. Most of the previous approaches to realizing inexact circuits relied on scaling of circuit parameters (such as supply voltage) taking advantage of an application’s error tolerance to achieve the cost and accuracy trade-offs, thus suffering from acute drawbacks of considerable implementation overheads that significantly reduced the gains. In this article, two novel design approaches called Probabilistic Pruning and Probabilistic Logic Minimization are proposed to realize inexact circuits with zero hardware overhead.Extensive simulations on various architectures of critical …