描述FEB偏滤器的物理设计研究。
在深入物理设计之前要先进行逻辑设计。
Want to undertake logistic design first before thorough physics is designed.
指出了水铀比在反应堆物理设计中的重要性。
The importance of the ratio of water to uranium in reactor physical design is indicated.
布局是VL SI物理设计的关键步骤之一。
Placement is one of the most critical stages in VLSI physical design.
物理设计很简单,而且易导致'后院'捏造。
The physical design is simple and lends itself to 'backyard' fabrication.
第一件事是数据库的物理设计是极其重要的,尤其是索引。
The first thing is: the physical design of your database is critically important, especially the indexes.
采用面向对象的系统架构和UML以获取逻辑和物理设计。
Use object-based system architecture and UML to capture both logical and physical design.
这样就能够在进行任何物理设计之前,让业务用户检验数据模型。
This gives you the ability to validate the data model with business users before you actually perform any physical design.
不过,由于物理设计和外形的限制,这并不总是可能的。
However, due to physical design and form factor constraint, this is not always possible.
接受模型的这50%(或者不管验证了多少),并开始进行物理设计。
Take this 50% (or however much is validated) of the model and start working on the physical design.
在产生物理设计的这个过程当中,有两大要素,即表设计和索引设计。
During this process of producing a physical design, the two key elements are table design and index design.
在此基础上,进行系统知识库的概念设计、逻辑设计与物理设计。
Based on whole system frame, knowledge-base concept design, logic design and physical design began.
新电子枪系统的物理设计、机械设计、控制系统设计等均进行了描述。
The design stage such as physical design, mechanical design and control system design of this new electron gun is described.
组件均匀化参数的计算是核供热堆物理设计及堆芯燃料管理计算的基础。
The calculation of homogeneous parameters is the basis of physics calculation in nuclear heating reactors(NHRs).
用于分析工作负荷并建议物理设计结构,以优化该工作负荷下的服务器性能。
Used to analyze a workload and recommend physical design structures to optimize server performance for that workload.
涵盖了数据库管理中涉及到的数据库应用中的物理设计,数据库安全和架构;
The course also covers important management topics like physical design, security and architectures of database applications.
本文将介绍这台RF Q加速器的物理设计、研制、调试和出束实验的结果。
The physics design, experimental study and beam commissioning of the RFQ are introduced in this paper.
用户指定功能使用户可指定XML输入文件中现有和假设的物理设计结构的配置。
The user-specified feature allows you to specify a configuration of existing and hypothetical physical design structures in an XML input file.
如果预期成本很高,他们会调整语句和数据库的物理设计(常常会添加索引),从而降低预期成本。
If the anticipated cost is high, they tune the statement and the physical design of the database to reduce its anticipated cost, often by adding an index.
本文首先介绍了超大规模集成电路的物理设计流程,在此基础上引出直角斯坦纳树问题。
At first, this thesis introduces the VLSI physical design process, based on this leads to the rectilinear Steiner tree problem.
本文正是在这样的背景下对VLSI电路物理设计中的详细布线问题展开了一些研究工作。
Under this background the dissertation is intended to develop some algorithms for VLSI physical design detailed routing.
与RationalDataArchitect集成,以便无缝地从逻辑设计过渡到物理设计。
Integrates with Rational Data Architect for seamless transition from logical to physical design.
在逻辑设计与物理设计过程中通过数据规范化后得出最终的ER模型图并给出系统数据字典。
The final ERD (entity relationship model diagram) and system datum dictionary are given through data sheets normalization during logic design and physical design.
借鉴超大规模集成电路物理设计中的相关思想,提出基于有序树的设施紧置布置编码表示法。
A representation for compact layout of logistics facilities based on an O-tree (ordered tree) was proposed following the approach for design of very large integrated circuit.
本文简介了KLY - 1低能宽束离子源的结构,给出了物理设计的主要公式和调试实验的结果。
The structure of a low energy and broad beam ion source, KLY-1, is described. The main design formulae are given as well as results of adjustment and measurement.
集成InfoSphereDataArchitect以从逻辑设计和部署顺利过渡到物理设计和部署。
Integrates with InfoSphere Data Architect for seamless transition from logical to physical design and deployment.
在反应堆物理设计和分析时,经常要进行微扰计算,以快速分析堆芯中子截面扰动下反应性的变化量。
Perturbation calculation will be required to rapidly determine the changes of reactivity caused by core neutron cross sections perturbation in reactor physics design and analysis.
本文论述了VL si物理设计中两种基于非曼哈顿结构的通道布线优化算法研究和实验结果及分析。
This thesis deals with two optimal algorithms of Non-Manhattan channel routing in VLSI physics design.
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。
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.
在物理设计各个分步骤的论述中,论文以理论和实践相结合的方式进行论述,给出了多种设计优化方案。
During the discussion of each step in physical design, many optimization methods have been provided with theories' supporting.
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