便携式多媒体终端用低功耗DCT芯片的设计与实现

1998 IEEE Workshop on Signal Processing Systems. SIPS 98. Design and Implementation (Cat. No.98TH8374) Pub Date : 1998-10-08 DOI:10.1109/SIPS.1998.715771

L.-G. Chen, Jiun-Ying Jiu, H. Chang

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引用次数: 2

摘要

本文介绍了一种用于便携式多媒体终端的低功耗二维DCT芯片的设计与实现。基于直接二维方法的芯片结构降低了计算复杂度，从而降低了功耗。在直接二维算法的实现中，采用了降低电源电压的并行分布式算法(DA)架构。在芯片的实际电路实现中，设计了一个低功耗的加法器，以及一个节电ROM和一个顺序访问的低压双端口SRAM。所得到的二维DCT芯片采用0.6 /spl mu/m单多双金属技术实现。关键路径仿真显示，最大输入速率为133mhz, 100mhz时功耗为138mw。测量的芯片速度约为100 MHz。

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Design and implementation of low-power DCT chip for portable multimedia terminals

This paper describes the design and implementation of a low power 2D DCT chip for portable multimedia terminals. The chip architecture based on direct 2D approach reduces computational complexity and the power dissipation can be reduced accordingly. In the implementation of the direct 2D algorithm, a parallel distributed arithmetic (DA) architecture at reduced supply voltage is adopted. In the real circuit implementation of the chip, an adder of low power consumption is designed, as well as a power-saving ROM and a low-voltage two-port SRAM with sequential access. The resultant 2D DCT chip is realized by 0.6 /spl mu/m single-poly double-metal technology. Critical path simulation indicates a maximum input rate of 133 MHz, and it consumes 138 mW at 100 MHz. The measured chip speed is around 100 MHz.

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来源期刊

1998 IEEE Workshop on Signal Processing Systems. SIPS 98. Design and Implementation (Cat. No.98TH8374)

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