薄脆饼
覆盖
平版印刷术
计算机科学
晶圆制造
炸薯条
存储单元
过程(计算)
一致性(知识库)
进程窗口
计算机硬件
电子工程
嵌入式系统
工程类
材料科学
电气工程
晶体管
光电子学
电压
人工智能
程序设计语言
操作系统
电信
作者
Jebum Yoon,Se‐Young Oh,Chanha Park,Juhwan Kim,Ahmed Seoud,Boram Jung,Sang-Jin Oh,Byoung-Sub Nam,Sherif Hany
摘要
Traditionally, optical proximity correction (OPC) on cell array patterns in memory layout uses simple bias rules to correct hierarchically-placed features, but requires intensive, rigorous lithographic simulations to maximize the wafer process latitude. This process requires time-consuming procedures to be performed on the full chip (excluding the cell arrays) to handle unique cell features and layout placements before (and even sometimes after) OPC. The time required limits productivity for both mask tapeouts and the wafer process development. In this paper, a new cell array OPC flow is introduced that reduces turnaround-time for mask tapeouts from days to hours, while maintaining acceptable OPC quality and the perfect geometric consistency on the OPC output that is critical for memory manufacturing. The flow comprises an effective sub-resolution assist features (SRAFs) insertion and OPC for both the cell array and the peripheral pattern areas. Both simulation and experimental results from actual wafer verification are discussed.
科研通智能强力驱动
Strongly Powered by AbleSci AI