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引用次数: 9
摘要
本文介绍了一种用于数字音频应用的数字信号处理器(DSP)的结构和设计过程。该DSP具有固定的24位数据结构、6级流水线和125条指令。有些指令是专门为音频信号处理而设计的。几乎指令在一个周期内完成。通过单指令集测试、指令组合测试和实际音频应用,对比了CBS (Cycle based Simulator)和HDL仿真的结果,验证了所设计的DSP的有效性。最后,通过HDL仿真验证了DSP成功实现了ADPCM和MPEG-2 AAC解码算法。DSP核心采用0.18 μ m CMOS工艺,工作频率为120 MHz。
This paper describes the architecture and design procedure of a DSP (Digital Signal Processor) for the digital audio applications. The suggested DSP has fixed 24 bit data structure, 6 stage pipeline, and 125 instructions. Some of the instructions are specially designed for the audio signal processing. Almost instructions are completed within a single cycle. The designed DSP has been verified by comparing the results from CBS (Cycle based Simulator) and those of HDL simulation through the single instruction set test, the instruction combination test, and real audio applications. Finally, we confirm by the HDL simulation that the DSP carried out successfully out ADPCM and MPEG-2 AAC decoding algorithm. The DSP core is implemented in 0.18 mum CMOS process and operates at 120 MHz.
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