A fast carrier acquisition architecture for high-dynamic weak signal based on GPU

Yue Guo, Rongke Liu, Yi Hou, Ling Zhao
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Abstract

In this paper, we present a graphics processing unit (GPU)-based architecture of carrier acquisition for high-dynamic weak signal in deep space communications. To achieve high performance, the carrier acquisition procedure is parallelized by exploiting the GPU's parallel operating characteristics. Based on computer unified device architecture (CUDA), different kernels are designed to map the different phases of carrier acquisition procedure. What's more, the kernels' efficiency are improved by optimizing the internal operation parallelism of kernels and lowering the memory access latency for threads. Besides, multiple CUDA streams are designed to hide the data transfer latency between host and device. Experimental results demonstrate that the proposed GPU-based architecture achieves more than 250.3 times speedup compared to CPU-based platform.
基于GPU的高动态弱信号快速载波采集架构
本文提出了一种基于图形处理器(GPU)的深空高动态弱信号载波采集体系结构。为了实现高性能,利用GPU的并行运行特性,对载波采集过程进行并行化处理。基于计算机统一设备体系结构(CUDA),设计了不同的内核来映射载波采集过程的不同阶段。此外,通过优化内核内部操作并行性和降低线程的内存访问延迟,提高了内核的效率。此外,设计了多个CUDA流来隐藏主机和设备之间的数据传输延迟。实验结果表明,与基于cpu的平台相比,基于gpu的架构实现了250.3倍以上的速度提升。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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