一种基于平台的高度并行数字信号处理器

Proceedings of the IEEE 2001 Custom Integrated Circuits Conference (Cat. No.01CH37169) Pub Date : 2001-05-06 DOI:10.1109/CICC.2001.929787

T. Richter, W. Drescher, F. Engel, S. Kobayashi, V. Nikolajevic, Matthias Weiss, G. Fettweis

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引用次数: 15

摘要

实现要求苛刻的应用，特别是在移动通信领域，通常需要的处理性能远远超出了今天的dsp所提供的性能。为了避免设计不灵活的ASIC解决方案，本文提出了一种功能强大、高度并行的片上系统DSP核心。针对基于无线OFDM的调制解调器应用，定点DSP核心由16/spl次/16位数据路径单元并行组成，每秒提供640 M MAC操作。在伽罗瓦字段分割模式下，32条8位数据路径的传输速率为1.28 G MAC/s。DSP基于可扩展架构，支持根据应用需求进行定制。289 mm/sup 2/芯片采用0.35 /spl mu/m CMOS技术制造，工作频率为40 MHz, 3.3 V电源功耗<1 W。这种低功耗方法优于运行在200mhz的商用dsp。

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A platform-based highly parallel digital signal processor

Realizations of demanding applications particularly in the field of mobile communications often require processing performance which is far beyond what is delivered by DSPs today. To avoid designing inflexible ASIC solutions a powerful, highly parallel DSP core for System-on-Chip domains is presented in this paper. Targeted for a wireless OFDM based modem application the fixed-point DSP core consists of 16/spl times/16-bit datapath units in parallel providing 640 M MAC operations per second. In a Galois field split mode 32 8-bit datapaths deliver 1.28 G MAC/s. The DSP is based on a scalable architecture which supports customization depending on the application needs. The 289 mm/sup 2/ chip was manufactured in a 0.35 /spl mu/m CMOS technology, operates at 40 MHz and dissipates <1 W from a 3.3 V supply. This low power approach outperforms commercial DSPs running at 200 MHz.

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Proceedings of the IEEE 2001 Custom Integrated Circuits Conference (Cat. No.01CH37169)

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