可测试的SIMD图形引擎VLSI电路设计

D. Pok, C.-i.H. Chen
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引用次数: 0

摘要

在每个计算机图形系统中,在称为帧缓冲器的特殊存储器和计算引擎之间都有一些交互作用。这两者之间的体系结构决定了图形子系统的速度、灵活性和成本。在本文中,我们提出了增强记忆芯片(Enhanced Memory chip, EMC)在扫描-内置自检(scan- bist)部分扫描场景下的可测试性分析和芯片测试。EMC是由WL/AASE, WPAFB以VHDL格式生产的数百万晶体管图形计算引擎,采用0.5 /spl mu/m CMOS技术制造。从根本上说,它是通过在同一芯片上紧密耦合的计算逻辑来增强内存的。逻辑被安排在一个单一的指令,多个数据架构,可以有效地执行线性表达式评估,是常见的在最低层次的图形光栅化。故障仿真结果表明,局部扫描方案对电磁兼容是可行的,具有高故障覆盖率和低开销。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Testable VLSI circuit design of SIMD graphics engine
In every computer graphics system, there is some interaction between a special memory called a frame buffer and a computation engine. It is the architecture between these two that determines how fast, flexible, and expensive the graphics subsystem is. In this paper, we present the testability analysis and chip testing of Enhanced Memory Chip (EMC) using the scan-BIST (built-in self-test) partial scan scenario. EMC is a multi-million transistors graphics computation engine produced by WL/AASE, WPAFB in VHDL formats and is fabricated using 0.5 /spl mu/m CMOS technology. Fundamentally, it is memory that is enhanced with tightly-coupled computational logic on the same chip. The logic is arranged in a single instruction, multiple data architecture that can efficiently perform the linear expression evaluation that is common in the lowest level graphic rasterization. The fault simulation shows that partial scan scenario is feasible for EMC and generates scan-BIST high fault coverage and low overhead.
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