Inexact Designs For Approximate Low Power Addition By Cell Replacement

This paper proposes three designs of an inexact adder cell for approximate computing. These cells require a substantially smaller number of transistors compared to an exact full adder cell as well as known inexact designs. These inexact cells are simulated at 45 nm and compared with respect to circuit based metrics (such as energy consumption, delay, complexity and energy delay product) as well as error metrics (such as error rate). The replacement of exact cells with inexact cells such as the ones proposed in this manuscript in a ripple carry adder is evaluated to assess by exhaustive simulation different metrics for approximate computing; image addition is then pursued as application. These results show that among existing inexact cells found in the technical literature, the proposed designs consume the least power and have superior performance in terms of delay, switching capacitance and error measures for image quality and processing.