一种实时图像处理芯片组

IEEE International Solid-State Circuits Conference, 1989 ISSCC. Digest of Technical Papers Pub Date : 1989-02-15 DOI:10.1109/ISSCC.1989.48242

G. Eberhard, H. Groeneveld, O. Schneider, P. Simons

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引用次数: 2

摘要

描述了一种满足计算密集型图像处理算法(如相关)实时执行要求的芯片组。它计算每秒一百万二维相关系数在一个16*16像素的图像在25兆赫与6-b输入分辨率。该系统由两个芯片组成，一个是乘数累加器单元(MAC)，一个是算术处理单元(APU)。MAC处理不同格式的图像数据，最高为32 × 32像素，分辨率为6-b或12-b，并以18- b或36-b整数格式输出产品总和。APU将这些总和转换为单精度浮点格式(内部数据格式)，并使用标准公式计算具有浮点精度的1 μ s相关系数。图中显示了一个包含两个芯片、一个主处理器和输入/输出组件的系统配置。总结了芯片的特性，并给出了芯片的显微图。

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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A realtime image processing chip set

A chip set is described which meets the requirements of calculation-intensive image processing algorithm (e.g. correlation) for real-time execution. It calculates one million two-dimensional correlation coefficients per second on a 16*16 pixel image at 25 MHz with a 6-b input resolution. The set consists of two chips, a multiplier-accumulator unit (MAC) and an arithmetic processing unit (APU). The MAC processes image data of different formats, up to 32 by 32 pixels, with a 6- or 12-b resolution, and outputs sums of products in an 18- or 36-b integer format. The APU converts these sums to a single-precision floating-point format (the internal data format) and calculates the correlation coefficient in 1- mu s with floating-point precision using the standard formula. A system configuration with both chips, a host processor, and input/output components is shown. The chip characteristics are summarized, and chip micrographs are shown.<>

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来源期刊

IEEE International Solid-State Circuits Conference, 1989 ISSCC. Digest of Technical Papers

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