例句與造句

1. Geometrical optimizing design of interconnection for deep sub - micrometer vlsi circuits
   電路中互連線的幾何優(yōu)化設計
2. Most of vlsi circuits are sequential circuits . sequential circuits can be simulated by symbolic finite state machine ( fsm )
   Vlsi系統(tǒng)中大部分是時序電路，時序電路可以用符號化的有限狀態(tài)機( finite - state - machine ，簡稱fsm )來模擬。
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
   這類電路的設計方法具有系統(tǒng)化、模塊化的特點,適合連續(xù)小波變換系統(tǒng)這樣的大規(guī)模電路的實現。
4. It details the ic design process and vlsi circuits , including gate arrays , programmable logic devices and arrays , parasitic capacitance , and transmission line delays
   它詳細規(guī)定了集成電路設計過程和超大規(guī)模集成電路電路，包括門陣列，可編程邏輯器件和陣列，寄生電容，及輸電線路的延誤。
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
   隨著vlsi電路復雜性的增長，自動測試生成( atpg ， automatictestpatterngeneration )的時間開銷已經成為vlsi電路設計的瓶頸之一。
6. It's difficult to find vlsi circuit in a sentence. 用vlsi circuit造句挺難的
7. 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
   隨著制造工藝的發(fā)展,功耗成為集成電路設計中的一個十分關鍵的問題,傳統(tǒng)的低功耗設計主要圍繞動態(tài)功耗的估計和優(yōu)化展開。
8. 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
   在低電壓電路中，既要使電路實現正常的開關，又必須限制延時和亞閾值漏電流的急劇增加，就必須認真地選擇工作電壓和閾值電壓。
9. 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
   本文正是在這樣的背景下，基于四川省科技廳基金項目，研究計算智能方法在深亞微米工藝下性能驅動vlsi生產工序中關鍵環(huán)節(jié)? ?物理設計中的應用。
10. 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
    自從ic誕生以來， ic芯片的發(fā)展基本上遵循了摩爾定律，目前已經突破100nm大關，相應的系統(tǒng)規(guī)模的擴大，使得ic物理設計中的很多困難日益np問題日益棘手。
11. 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本身的物理設計能力一直落后同時代的制造工藝能力，于是就造成了下面的這種局面：現有eda工具難以應付復雜度呈指數增長的諸多vlsi物理設計難題，也缺乏對深亞微米工藝下一系列新問題（如：功率危機、復雜度危機和互連線危機）的考慮。