Next-generation consumer audio application specific embedded processor

2010 IEEE 8th Symposium on Application Specific Processors (SASP) Pub Date : 2010-06-13 DOI:10.1109/SASP.2010.5521155

Ji Kong, Peilin Liu, Xianmin Chen, Jin Wang, Xingguang Pan, Jun Wang, He-D. Xiao, Zhenqi Wei, R. Ying

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引用次数: 7

Abstract

For next-generation audio applications, the dominant trends are much higher sample rate, larger word length and more audio channels for playback audio data. Traditional DSPs or embedded processors are inefficient for such kinds of applications because of their non-specific or limited computing capabilities as well as the on-chip memory architectures. In this paper, an embedded audio processor aiming at next-generation audio applications has been proposed. The audio specific instruction set architecture is based on the analysis of the requirements for next-generation audio processing. Besides, a novel tightly coupled audio memory has been proposed to support extremely high audio data throughputs and flexible audio data transfers with main memories. To evaluate the performance of the proposed audio processor, a set of benchmarks have been used based on the analysis of next-generation audio applications. The implementation and evaluation results lead to the conclusion that the proposed audio processor is of outstanding efficiency and cost-effectiveness for next-generation audio applications.

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下一代消费类音频应用专用嵌入式处理器

对于下一代音频应用，主要趋势是更高的采样率，更大的字长和更多的音频通道来播放音频数据。传统的dsp或嵌入式处理器由于其非特定或有限的计算能力以及片上存储器架构而对此类应用效率低下。本文提出了一种针对下一代音频应用的嵌入式音频处理器。音频专用指令集架构是在分析下一代音频处理需求的基础上提出的。此外，还提出了一种新型的紧耦合音频存储器，以支持极高的音频数据吞吐量和灵活的主存储器音频数据传输。为了评估所提出的音频处理器的性能，基于对下一代音频应用的分析，使用了一组基准测试。实施和评估结果表明，所提出的音频处理器在下一代音频应用中具有出色的效率和成本效益。

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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2010 IEEE 8th Symposium on Application Specific Processors (SASP)

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