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引用次数: 6
摘要
为手持式3D图形系统开发了一种低功耗、高性能的4路32位矢量处理器。它包含一个浮点统一矩阵、向量和初等函数单元。通过利用对数算法,该单元实现了所有这些操作的单周期吞吐量,除了具有2周期吞吐量的矩阵向量乘法。该功能单元的处理器、级联整数浮点数据路径、数据路径重构、对数域操作数转发和顶点缓存在0.18 mm CMOS技术下占用9.7 mm2,在200 MHz下实现几何变换141 Mvertices/s, OpenGL变换和光照12.1 Mvertices/s,功耗86.6 mW。
A low-power vector processor using logarithmic arithmetic for handheld 3d graphics systems
A low-power, high-performance 4-way 32-bit vector processor is developed for handheld 3D graphics systems. It contains a floating-point unified matrix, vector, and elementary function unit. By utilizing the logarithmic arithmetic, the unit achieves single-cycle throughput for all these operations except for the matrix-vector multiplication with 2-cycle throughput. The processor featured by this function unit, cascaded integer-float datapath, reconfiguration of datapath, operand forwarding in logarithmic domain, and vertex cache takes 9.7 mm2 in 0.18 mum CMOS technology and achieves 141 Mvertices/s for geometry transformation and 12.1 Mvertices/s for OpenGL transformation and lighting at 200 MHz with 86.6 mW power consumption.
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