| 1. | Geometrical optimizing design of interconnection for deep sub - micrometer vlsi circuits
电路中互连线的几何优化设计 |
| 2. | Most of vlsi circuits are sequential circuits . sequential circuits can be simulated by symbolic finite state machine ( fsm )
Vlsi系统中大部分是时序电路,时序电路可以用符号化的有限状态机( finite - state - machine ,简称fsm )来模拟。 |
| 3. | The design method of the circuits has the characteristics of systematization and modularization , so it suits the implementation of the vlsi circuit of the continuous wavelet transform system
这类电路的设计方法具有系统化、模块化的特点,适合连续小波变换系统这样的大规模电路的实现。 |
| 4. | It details the ic design process and vlsi circuits , including gate arrays , programmable logic devices and arrays , parasitic capacitance , and transmission line delays
它详细规定了集成电路设计过程和超大规模集成电路电路,包括门阵列,可编程逻辑器件和阵列,寄生电容,及输电线路的延误。 |
| 5. | Test is an indispensable task of vlsi circuits design . with the increased complexity of vlsi circuits , time overhead of atpg has become a bottleneck of design
随着vlsi电路复杂性的增长,自动测试生成( atpg , automatictestpatterngeneration )的时间开销已经成为vlsi电路设计的瓶颈之一。 |
| 6. | As manufacture technology scaling down , power dissipation has become a critical issue of vlsi circuit design , in which dynamic power dissipation estimation and optimization are traditionally included
随着制造工艺的发展,功耗成为集成电路设计中的一个十分关键的问题,传统的低功耗设计主要围绕动态功耗的估计和优化展开。 |
| 7. | The character of threshold voltage in vlsi circuit is analyzed . it can make a serious effect on power dissipation and performance . an algorithm based on partition is designed to choose the most favorable working voltage and threshold
在低电压电路中,既要使电路实现正常的开关,又必须限制延时和亚阈值漏电流的急剧增加,就必须认真地选择工作电压和阈值电压。 |
| 8. | Under this background and support of sichuan science and technology bureau foundation , this dissertation is intended to report some of our research results for sloving routing problems of the vlsi circuits based on computational intelligence methodology
本文正是在这样的背景下,基于四川省科技厅基金项目,研究计算智能方法在深亚微米工艺下性能驱动vlsi生产工序中关键环节? ?物理设计中的应用。 |
| 9. | Since ic came forth , its evolution have almost accorded with the rule of moore . now the technology of ic had broken through the barrier of wire width at 100nm . with the condition of this , more and more problems of physical design of vlsi circuits change into np - hard problem
自从ic诞生以来, ic芯片的发展基本上遵循了摩尔定律,目前已经突破100nm大关,相应的系统规模的扩大,使得ic物理设计中的很多困难日益np问题日益棘手。 |
| 10. | Not only that but also the capacity of physical design of vlsi circuits itself do not catch up with the development of the technology of vlsi . for vlsi circuits , on the one hand many np - hard problems are impossible or very difficult to be solved by using traditional optimum algorithms ; on the other hand is that many new and specific deep sub - micron technology problems had not been considered , which will influence chip ' s performance
此外ic本身的物理设计能力一直落后同时代的制造工艺能力,于是就造成了下面的这种局面:现有eda工具难以应付复杂度呈指数增长的诸多vlsi物理设计难题,也缺乏对深亚微米工艺下一系列新问题(如:功率危机、复杂度危机和互连线危机)的考虑。 |
