The design of a low-voltage micropower asynchronous (async) signed truncated multiplier based on a shift–add structure for power-critical applications such as the low-clock-rate ( 4 MHz) hearing aids is described. The emphases of the design are micropower operation and small IC area, and these attributes are achieved in several ways. First, a maximum of three signed power-of-two terms accompanied with sign magnitude data representation is used for the multiplier operand. Second, the least significant partial products are truncated to yield a 16-bit signed product. An error correction methodology is proposed to mitigate, where appropriate, the arising truncation errors. The errors arising from truncation and the effectiveness of the error co...