Cost optimum embedded DRAM design by yield analysis

Records of the 2003 International Workshop on Memory Technology, Design and Testing Pub Date : 2003-07-28 DOI:10.1109/MTDT.2003.1222356
Y. Zenda, K. Nakamae, H. Fujioka
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引用次数: 1

Abstract

We study on cost optimum embedded DRAM interconnect technologies by using a simple VLSI particle-induced fault simulator modified for the embedded DRAM macro. The fault simulator is applied to an assumed 4-Mbit DRAM macro production process with DRAM interconnect technologies of DRAM 1/2 pitch 115 nm and ASIC 1/2 pitch of from 115 nm to 500 nm (peripheral circuits). The DRAM macro is included in a SoC chip that has area of 1 cm/sup 2/ and is manufactured on the wafer with size of 8 inches. Result shows that the wider pitch decreases the count of manufactured chips but increases the yield. ASIC 1/2 pitch of 0.4 /spl mu/m achieved maximum count of good chips per wafer under the assumed conditions. There exists the cost optimum embedded DRAM design.
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基于良率分析的成本优化嵌入式DRAM设计
利用针对嵌入式DRAM宏改进的简单VLSI粒子诱导故障模拟器,研究了成本最优的嵌入式DRAM互连技术。该故障模拟器应用于假设的4 mbit DRAM宏生产过程,该过程采用DRAM 1/2间距115nm和ASIC 1/2间距115nm至500nm(外围电路)的DRAM互连技术。DRAM宏包含在面积为1 cm/sup /的SoC芯片中,在尺寸为8英寸的晶圆上制造。结果表明,更宽的间距减少了晶片数量,但提高了良率。在假设条件下,ASIC 1/2间距0.4 /spl mu/m实现了每片晶圆的最大优良芯片数。存在成本最优的嵌入式DRAM设计。
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Records of the 2003 International Workshop on Memory Technology, Design and Testing
Records of the 2003 International Workshop on Memory Technology, Design and Testing
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