多数建模方法都建立在可视化语言的基础上,如uml、实体-关系图或者流程图。
Most modeling methodologies are built on a visual language such as UML, entity-relationships, or flow charts.
数据库模型:包括SOA使用的数据库的实体关系图。
Database model: Includes an entity relationship diagram for the databases the SOA USES.
同样可以在其中看到运营领域的层次结构分解,其重点同样是图1中突出显示的客户关系管理第1级实体。
Here you again see the hierarchal decomposition within the operations area, focusing on the same Customer Relationship Management level 1 entity highlighted in Figure 1.
图1显示一个包含用于已命名实体识别、语法分析和关系探测的注释器的分析引擎。
Figure 1 shows an analysis engine containing annotators for named entity recognition, grammatical parsing, and relationship detection.
结合在集成本地XML存储数据一节介绍的场景,来看看图4所示的实体关系图,该图描述了一个在线书店的场景。
Based on the scenario introduced in the Integrating local XML store data section, consider the entity relationship diagram shown in Figure 4 that describes an online bookstore scenario.
图7所示为SA实体关系与EAML之间的映射。
Figure 7 shows the mapping between SA Entity Relationship and EAML.
图6:实体关系模型的反向工程元模型。
Figure 6: Reverse engineered meta-model for entity relationship models.
图2显示了我们的应用程序中所使用的CMP实体Bean之间的关系图。
Figure 2 shows you the relationship diagram for CMP entity beans used in our application.
对于传统的建模技术,例如实体关系图或数据流程图,没有可用的特定测试技术会过时。
For traditional modeling techniques, such as entity relationship diagram or data flow diagram, no specific test techniques are available to date.
图1显示了该词汇表的部分实体关系图。
Figure 1 shows a partial entity-relationship diagram for the vocabulary.
图1的类关系图中显示的实体与订单管理业务流程相关联。
The entities shown in the class diagram of Figure 1 are associated with an order management business process.
图2展示了 图1中引用的表的实体关系图。
Figure 2 shows the entity-relationship diagram of the tables referenced in Figure 1.
图3是描述实体及其相互关系的类图。
Figure 3 shows a class diagram depicting the entities and their relationships.
图2显示由此产生的运行示例的实体关系(Entity Relationship,ER)图表。
Figure 2 shows the resulting entity relationship (ER) diagram of the running sample.
这个工具设计用来向Visio一样工作,可以画很多类型的图,包括实体关系图、uml图、流程图、网络图以及简单电路。
It is designed to work like Visio and can draw many types of diagrams, including entity relationship diagrams, UML diagrams, flowcharts, network diagrams, and simple circuits.
熟悉各种模型形式,如实体关系图(Entity - Relationship Diagram,ERD)、UML和其他面向系统的建模方法,将提供广泛的建模选项。
Familiarity with a variety of model forms, such as entity-relationship diagrams (ERDs), UML, and other system-oriented modeling approaches, will provide you with a wide range of modeling options.
图4是一个实体关系图(Entity RelationalDiagram,ERD),给出了公司简化的数据需求及操作宏观视图。
Figure 4 presents an Entity Relational Diagram (ERD) that gives you the macro view of the company's simplified data requirements and operations.
图7:sa实体-关系模型向EMAL模型的映射。
依据实体关系图可以建立物理的数据库。
The physical database should be created by the entity relationship diagram.
然后对数据库的设计进行了详细的介绍,并绘制了实体关系图。
And then it has introduces the design of database in detail, and drawn entity relationship diagram.
概要描述中移基本需求,指明交互的实体名称和相互关系,即角色定义,给出uml用例图。
In the outline description moves the basic demand, indicates the interactive entity name and the reciprocity, namely the role definition, produces UML to use the illustration.
接下来,一个客户端应用程序操作此关系图,并向一个使用实体框架来验证和保存对数据库所做的更新的服务操作提交修改内容。
Next, a client application manipulates that graph and submits the modifications to a service operation that validates and saves the updates to a database using the Entity Framework.
创建公开可返回实体关系图的一组操作的WCF服务,并使用实体框架将在客户端上所做的更改应用到数据库。
Creates the WCF service that exposes a set of operations that return entity graphs and applies changes made on the client to the database by using the entity Framework.
创建公开可返回实体关系图的一组操作的WCF服务,并使用实体框架将在客户端上所做的更改应用到数据库。
Creates the WCF service that exposes a set of operations that return entity graphs and applies changes made on the client to the database by using the entity Framework.
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