Rawasee k. yousif; Ivan A. Hashim; Bassam H. Abd
Abstract
This paper presents the implementations of the hyperbolic sine and cosine functions, which are essential in many digital systems. In the previous eras, these functions were only implemented ...
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This paper presents the implementations of the hyperbolic sine and cosine functions, which are essential in many digital systems. In the previous eras, these functions were only implemented in software; however, hardware implementations have recently become more significant due to the performance advantages of hardware systems over software implementations. Therefore, these functions can be hardware implemented using various methods such as the CORDIC algorithm, Taylor series, polynomial approximation technique, and LUT approach. This paper focuses on reducing area utilization (logic components), low latency, and reducing power consumption. Five designs are proposed based on different techniques, in which the ROM approach achieved the best results compared to the other four proposed designs. It also achieved low area utilization, high speed and low power consumption compared to the related works where the ROM approach consumes the resource utilization are as follows: zero flip-flops, (26) occupied slices, and (43) look-up tables. The total power consumed is about (56 mW), and there is a high execution speed of one clock cycle.