Parametrizable Architecture for Function Recursive Evaluation

Abstract

This paper presents a function evaluation method developed under the scope of recursive expression of function convolution. This approach is based on a unique parametrizable formula capable of providing function points by successive iteration. When tackling design level, it also shows suitable for developing architectural schemes capable of dealing with different speed and precision issues. An architecture for reconfigurable FPGA based in serial distributed arithmetic implements the design for fast prototyping. The case of combined trigonometric functions involved in rotation is analyzed under this scope. Compared with others methods, our proposal offers a good balance between speed and precision.