Fast Hub Floating-Point Adder for FPGA
Objective
During this paper, we tend to present a HUB floating-point adder for FPGA that greatly improves the speed of previous proposed HUB designs for these devices.
Abstract
Several previous publications have shown the area and delay reduction when implementing real number computation using HUB formats for both floating-point and fixed-point. In this paper, we present a HUB floating-point adder for FPGA which greatly improves the speed of previous proposed HUB designs for these devices. Our architecture is based on the double path technique which reduces the execution time since each path works in parallel. We also deal with the implementation of unbiased rounding in the proposed adder. Experimental results are presented showing the goodness of the new HUB adder for FPGA.
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