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質問 1:
Consider the following four diagrams:
Which diagram depicts a "Policy application" as an application component with the two application functions "Offering" and "Calculating"?
A. Diagram 3
B. Diagram 4
C. Diagram 1
D. Diagram 2
正解:A
質問 2:
Consider the following diagram, which represents a migration from a Baseline to a Target Architecture:
Which of the following answers best interprets the unlabeled symbol in the middle of the diagram?
A. It represents a project that progresses the architecture from Baseline to Target
B. It represents a relatively stable intermediate state during the migration from the Baseline to the Target Architectures
C. It represents the deliverables necessary to transform the architecture from Baseline to Target
D. It represents a conceptual point of transition between the two architectures, but one that is unlikely to exist in reality for more than an instant
正解:B
質問 3:
Consider the following diagram:
Which of the following best describes what this diagram represents?
A. A node that processes two types of data, pertaining respectively to Application Monitoring and Network Monitoring
B. A node with two system software environments. One performs Application Monitoring, the other Network Monitoring
C. A node with application components. One performs Application Monitoring, the other Network Monitoring
D. A node that performs two functions: Application Monitoring and Network Monitoring
正解:D
質問 4:
Consider the following symbol:
Which of the following best describes what this symbol represents?
A. A modular, deployable, and replaceable part of a software system that encapsulates its behavior and data and exposes these through a set of interfaces
B. A perceptible form of the information carried by a business object
C. A software environment for specific types of components and objects that are deployed on it
D. A physical piece of data used or produced in software development, or by system deployment and operation
正解:D
質問 5:
Scenario
Please read this scenario prior to answering the question
The ArchiSurance enterprise document management infrastructure provides critical support for myriad types of documents and document-based transactions, many of which are executed in high volume each day. At the core of the infrastructure is the document management systems software, which has three major modules: a document engine that stores, retrieves and performs a variety of operations on documents, a workflow engine that hosts document management applications, and an application engine, which hosts the most sophisticated applications. The application engine invokes the document and workflow engines as necessary when hosting application components that require their services.
The claim management application component is critical to ArchiSurance business operations. It is hosted by the application engine, and launches whenever an individual files a new claim. The claim management component requires different documents to demonstrate proof of loss depending on the type of claim filed, the type of insurance that is in force, and various other circumstances. When the correct documents are filed and verified by an intake operator, proof of loss is complete, and the claim management component assigns the claim to a claim analyst by reading and updating analyst status data and applying business rules stored as data.
Due to its business-critical nature, the document management solution is hosted redundantly at two geographically separate data center sites known as Site A and Site B.
Both sites provide identical infrastructure. Each site contains a highly available data center network (DCN) that is connected to the highly available ArchiSurance wide area network (WAN). Each claim management server is connected to its site DCN, and each DCN is a converged network that connects both servers and storage arrays, including a physical storage array dedicated to the claim management application. Each site contains four high-powered separate physical serversrules stored as data.
Due to its business-critical nature, the document management solution is hosted redundantly at two geographically separate data center sites known as Site A and Site B.
Both sites provide identical infrastructure. Each site contains a highly available data center network (DCN) that is connected to the highly available ArchiSurance wide area network (WAN). Each claim management server is connected to its site DCN, and each DCN is a converged network that connects both servers and storage arrays, including a physical storage array dedicated to the claim management application. Each site contains four high-powered separate physical servers dedicated to the claim management application. At any one time, one server is on standby while the other three servers are, respectively, hosting the document, workflow and application engines. Each active server provides a monitoring service that is In constant two-way communication with the monitoring service on the standby server. If a server fails, the surviving monitoring services perform a failover sequence to assume failed server's workload if it was active. The surviving monitoring services also alert the operations team on duty.
Refer to the Scenario
A new IT manager has asked you to model the infrastructure hardware and networks that supports document management, including the data center sites, servers, storage, and networks as well as the services necessary for automated failover within a server cluster. Since the two data centers provide identical document management infrastructure, for Site B it is only necessary to show the associated networking.
Which is the best answer?
A. Option C
B. Option A
C. Option D
D. Option B
正解:C
質問 6:
Which of the following answers correctly describes the junction relationship?
A. It connects structural relationships of the same type
B. It connects dynamic relationships of the same type
C. It connects structural relationships of different types
D. It connects dynamic relationships of different types
正解:B
Consider the following four diagrams:
Which diagram depicts a "Policy application" as an application component with the two application functions "Offering" and "Calculating"?
A. Diagram 3
B. Diagram 4
C. Diagram 1
D. Diagram 2
正解:A
質問 2:
Consider the following diagram, which represents a migration from a Baseline to a Target Architecture:
Which of the following answers best interprets the unlabeled symbol in the middle of the diagram?
A. It represents a project that progresses the architecture from Baseline to Target
B. It represents a relatively stable intermediate state during the migration from the Baseline to the Target Architectures
C. It represents the deliverables necessary to transform the architecture from Baseline to Target
D. It represents a conceptual point of transition between the two architectures, but one that is unlikely to exist in reality for more than an instant
正解:B
質問 3:
Consider the following diagram:
Which of the following best describes what this diagram represents?
A. A node that processes two types of data, pertaining respectively to Application Monitoring and Network Monitoring
B. A node with two system software environments. One performs Application Monitoring, the other Network Monitoring
C. A node with application components. One performs Application Monitoring, the other Network Monitoring
D. A node that performs two functions: Application Monitoring and Network Monitoring
正解:D
質問 4:
Consider the following symbol:
Which of the following best describes what this symbol represents?
A. A modular, deployable, and replaceable part of a software system that encapsulates its behavior and data and exposes these through a set of interfaces
B. A perceptible form of the information carried by a business object
C. A software environment for specific types of components and objects that are deployed on it
D. A physical piece of data used or produced in software development, or by system deployment and operation
正解:D
質問 5:
Scenario
Please read this scenario prior to answering the question
The ArchiSurance enterprise document management infrastructure provides critical support for myriad types of documents and document-based transactions, many of which are executed in high volume each day. At the core of the infrastructure is the document management systems software, which has three major modules: a document engine that stores, retrieves and performs a variety of operations on documents, a workflow engine that hosts document management applications, and an application engine, which hosts the most sophisticated applications. The application engine invokes the document and workflow engines as necessary when hosting application components that require their services.
The claim management application component is critical to ArchiSurance business operations. It is hosted by the application engine, and launches whenever an individual files a new claim. The claim management component requires different documents to demonstrate proof of loss depending on the type of claim filed, the type of insurance that is in force, and various other circumstances. When the correct documents are filed and verified by an intake operator, proof of loss is complete, and the claim management component assigns the claim to a claim analyst by reading and updating analyst status data and applying business rules stored as data.
Due to its business-critical nature, the document management solution is hosted redundantly at two geographically separate data center sites known as Site A and Site B.
Both sites provide identical infrastructure. Each site contains a highly available data center network (DCN) that is connected to the highly available ArchiSurance wide area network (WAN). Each claim management server is connected to its site DCN, and each DCN is a converged network that connects both servers and storage arrays, including a physical storage array dedicated to the claim management application. Each site contains four high-powered separate physical serversrules stored as data.
Due to its business-critical nature, the document management solution is hosted redundantly at two geographically separate data center sites known as Site A and Site B.
Both sites provide identical infrastructure. Each site contains a highly available data center network (DCN) that is connected to the highly available ArchiSurance wide area network (WAN). Each claim management server is connected to its site DCN, and each DCN is a converged network that connects both servers and storage arrays, including a physical storage array dedicated to the claim management application. Each site contains four high-powered separate physical servers dedicated to the claim management application. At any one time, one server is on standby while the other three servers are, respectively, hosting the document, workflow and application engines. Each active server provides a monitoring service that is In constant two-way communication with the monitoring service on the standby server. If a server fails, the surviving monitoring services perform a failover sequence to assume failed server's workload if it was active. The surviving monitoring services also alert the operations team on duty.
Refer to the Scenario
A new IT manager has asked you to model the infrastructure hardware and networks that supports document management, including the data center sites, servers, storage, and networks as well as the services necessary for automated failover within a server cluster. Since the two data centers provide identical document management infrastructure, for Site B it is only necessary to show the associated networking.
Which is the best answer?
A. Option C
B. Option A
C. Option D
D. Option B
正解:C
質問 6:
Which of the following answers correctly describes the junction relationship?
A. It connects structural relationships of the same type
B. It connects dynamic relationships of the same type
C. It connects structural relationships of different types
D. It connects dynamic relationships of different types
正解:B
Hatsune -
ただ覚えるのではなく理解できるようになるOG0-023試験対策問題で、助かりました。Pass4Testはいいぞ