基于静态分割近似乘法器的低功耗边缘检测器设计

2023 7th International Conference on Computing Methodologies and Communication (ICCMC) Pub Date : 2023-02-23 DOI:10.1109/ICCMC56507.2023.10083930

K. Sivanandam, R. Jagadheesh, S. N. Kavi Bharath, S. Manoj

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引用次数: 0

摘要

为了避免缩短分量带来的进位，本研究建议采用基于截断的近似乘法器，并通过选择k-map调整创建补偿电路。输出误差减少和硬件微调同时完成。为了纠错，基于近似乘法器的16x16截断乘法器使用流线型NAND门电路创建。改进了计算过程，降低了计算功率，利用原有的签名SSM分割方法，为验证乘子提供了一种简单、硬件效率高的校正技术。本设计采用Verilog HDL实现，Modelsim 6.4 c进行仿真。合成过程由Xilinx工具完成，以测量性能。

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Low Power Design of Edge Detector using Static Segmented Approximate Multipliers

To avoid the carry resulting from the shortened component, this study suggests a truncation-based approximate multiplier with a compensation circuit created by selected k-map adjustments. Output error reduction and hardware trimming are accomplished concurrently. For error correction, 16x16 truncated multipliers based on approximate multipliers are created using streamlined NAND gate circuits. The computation process is enhanced to reduce the power, the original segmentation method for signed SSM is utilized and offer a simple, hardware-efficient corrective technique for verified multipliers. Verilog HDL is used to implement this design and Modelsim 6.4 c is used to simulate it. The synthesis process is done by Xilinx tool to measure the performance.

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2023 7th International Conference on Computing Methodologies and Communication (ICCMC)

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