Back-end Physical IC Design 集成电路后端物理设计
Around the design of the integrated LCD controller with LVDS transmitter, this thesis process behavior, RTL, circuit level verifications, and system back-end design, including DFT, low power design and layout design and verification.
围绕数字式LVDS接口整合式LCD控制器的设计,本文进行了行为级、RTL级、电路级设计与验证,并给出了系统的后端设计:可测性设计、低功耗设计及版图的设计与验证。
参考来源 - 基于OpenLDI标准CMOS LCD控制器设计与验证The back-end design includes layout design and verification, but they will not be discussed in this paper.
而集成电路的后端设计包括了版图设计和验证,它们不在本论文的讨论范围之内。
参考来源 - 64位RISC CPU在FPGA上的实现和验证·2,447,543篇论文数据,部分数据来源于NoteExpress
The back-end design includes layout design and verification, but they will not be discussed in this paper.
而集成电路的后端设计包括了版图设计和验证,它们不在本论文的讨论范围之内。
The deep submicron technology presents lots of new challenges to the physical design of VLSI and new techniques are needed in the back-end design flow.
深亚微米下芯片的物理设计面临很多挑战,特别是对于超大规模电路,在后端设计流程上要有新的方法。
In view of this, this article discuss the back-end design process and give some solutions to the flow which is based on digital decoder chip which is from VLSI laboratory of UESTC.
鉴于此,本文基于电子科技大学VLSI实验室的某超大规模数字解码芯片的后端设计,讨论了在后端设计过程中面对的诸多问题,以及相应的解决方案。
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