Abstract
In this paper, we analyse division algorithms for use on chips and propose the implementation of an optimal divider for these chips. By “optimal”, we refer to an algorithm that meets the following criteria: space efficiency – which involves minimizing resource utilization on the IC’s die area; speed efficiency – the algorithm's processing time (measured in n clock cycles); power efficiency – power consumption of the divider; implementation time – time for implementation of the algorithm using HDL. The chosen algorithm should strike a balance between space efficiency and processing speed, ensuring the efficient use of hardware resources while delivering swift computational results. The ultimate goal is to create a division module that aligns seamlessly with the integrated circuit's architecture, catering to computational efficiency and resource constraints.
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