Area Optimized FPGA Implementation of Slant Range Calculation Using Haversine Formula

机译：面积优化FPGA使用Haversine公式计算倾斜范围计算

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In this study, the implementation of slant range calculation between two points on Xilinx Zynq series FPGA is shown. Although the calculation does not include very dense signal processing (DSP) blocks, it utilizes 28% memory (LUT) and 14% DSP blocks. With the time-division multiplexing (TDM) technique, more than one process was run on the same hardware blocks (resource sharing). Mathematical calculations were performed sequentially on the same hardware. In this way, the use of LUT was reduced to 18% and the use of DSP block was reduced to 5%. A reduction of nearly 40% has been achieved in the use of resources. The latency increase due to the ability of FPGAs to reach very high speeds does not prevent the calculation to be realtime. Truncation and rounding errors caused by fixed-point operations were kept below 1%.

机译：在本研究中，示出了Xilinx Zynq系列FPGA上的两点之间的倾斜范围计算的实现。虽然计算不包括非常密集的信号处理（DSP）块，但它利用28％的内存（LUT）和14％DSP块。利用时分复用（TDM）技术，在相同的硬件块（资源共享）上运行多于一个进程。在相同的硬件上顺序执行数学计算。通过这种方式，使用LUT降至18％，使用DSP块的使用降低至5％。在使用资源时，已经实现了近40％的减少。由于FPGA达到非常高速的能力而导致的延迟增加不会阻止计算实时。由定点操作造成的截断和舍入错误保持低于1％。

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《Signal Processing and Communications Applications Conference》|2021年|1-4|共4页
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Berker Işik;
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Field programmable gate arrays; Table lookup; Radar; Resource management; Computer architecture; Conferences; Art;

机译：现场可编程门阵列;表查找;雷达;资源管理;计算机架构;会议;艺术;

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Area Optimized FPGA Implementation of Slant Range Calculation Using Haversine Formula

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