간결한 내용

C90.06 덤프문제는 다년간의 다양한 시험에 대한 분석을 바탕으로, 시험문제의 주요 발전 경향에 따라 응시자가 직면할 어려움을 정면 돌파하기 위하여 전문가들이 자신만의 경험과 끊임없는 노력으로 제작한 최고품질의 시험자료입니다.다른 교육 플랫폼과 달리 Cloud Architecture Lab 시험덤프는 오래된 문제는 삭제하고 새로운 문제는 바로바로 추가하여 덤프가 항상 가장 최신버전이도록 간결하고 눈에 잘 띄는 텍스트로 요약되어 있기에 덤프만 완벽하게 마스터 하시면 C90.06 시험패스는 더는 어려운 일이 아닙니다.

커리큘럼 소개

대부분의 분들에게 있어서 자격증 시험이 처음일 수 있으므로 자격증 시험과 관련된 많은 정보는 복잡하고 난해할수 있습니다. 하지만 자격증 취득 초보자들의 덤프공부 후기에 따르면 C90.06 덤프는 시험의 모든 출제범위와 시험유형을 커버하고 있어 덤프에 있는 문제와 답만 기억하시면 Cloud Architecture Lab 시험을 쉽게 패스하여 자격증을 취득할수 있다고 합니다. C90.06 시험대비 덤프는 초보자의 눈높이에 맞추어 덤프를 사용하시는 분께서 보다 편하게 공부할수 있도록 엘리트한 전문가들의 끊임없는 연구와 자신만의 노하우로 최선을 다한 자료입니다.덤프의 도움으로 여러분은 업계에서 또 한층 업그레이드 될것입니다.

진정한 시뮬레이션 환경

많은 응시자 분들이 처음 자격증 시험에 도전하는 것이라 시험보실 때 경험 부족으로 인해 시험시간에 너무 긴장하여 평소 실력을 발휘하지 못하는 경우가 있습니다.이를 피면할수 있도록 미리 Cloud Architecture Lab 시험과 비슷한 환경에서 연습하는 훈련을 통해 실제 시험에서 긴장을 완화시키는 것이 좋습니다. 저희는C90.06 실제 시험 시뮬레이션 테스트 환경에 해당하는 제품을 가지고 있습니다. 제품 구매후 자신의 계정에 로그인하시고 실제 시험 환경을 체험해 보시면 시험 환경에 적응되어 C90.06 시험보실때 문제 푸는 방법을 모색하는 시간이 줄어들어 자신감이 생겨 한방에 시험패스 가능할것입니다.

우리의 Cloud Architecture Lab 시험 덤프 문제는 최고품질의 시험대비 자료입니다. 전문가들이 최신 실러버스에 따라 몇년간의 노하우와 경험을 충분히 활용하여 연구제작해낸 자료라 해당 시험의 핵심문제를 모두 반영하고 있습니다.C90.06 덤프로 시험을 준비하시면 시험패스는 더는 어려운 일이 아닙니다. C90.06 시험에서 출제 가능성이 높은 문제만 정리한 최신 버전 자료라 가장 적은 문항수로 모든 응시자가 효율적인 시험공부를 할 수 있도록 하고 부담 없이 한번에 C90.06 시험을 즉시 통과할 수 있도록 도와드립니다.

데모문제 다운로드

최신 SOA Certification C90.06 무료샘플문제:

1. Virtual Server A is hosted by Hypervisor A, which resides on Physical Server A.
Virtual Server A hosts Cloud Services A and B.
Virtual Server B is hosted by Hypervisor B on Physical Server B.
Physical Server C is currently not being used.
Cloud Service Consumer A sends a request to Cloud Service A that is intercepted by Pay- Per-Use Monitor A (1), which collects billing-related usage data that is later forwarded to the billing management system (2). Cloud Service A receives and processes the request (3). Cloud Consumer B accesses the usage and administration portal (4) to access data on Cloud Storage Device B.
Pay-Per-Use Monitor B intercepts the data access to collect and forward billing-related usage data to the billing management system (5). Cloud Storage Device B processes the data access request from Cloud Consumer B (6).

Cloud Service Consumer A and Cloud Consumer B belong to Organization A.
Cloud Storage Device B is accessed on a regular basis by Cloud Consumer B.
However, managers at Organization A receive reports from their cloud resource administrator that Cloud Storage Device B is unavailable for longer periods and more frequently than what they expected, based on the SLA availability guarantee they were provided by the cloud provider. This results in wasted time when the cloud resource administrator attempts to upload or access data and then discovers that Cloud Storage Device B is unavailable. The cloud resource administrator requires a means of checking for the availability of Cloud Storage Device B prior to attempting access.
As the workload increases on Physical Server B, Cloud Consumer B begins to receive runtime exceptions and degraded data access performance from Cloud Storage Device B.
It is determined that the cause of the deteriorating performance is a network bottleneck that has formed on Physical Server B due to its bandwidth capacity being reached, primarily because of other cloud consumer organizations also sharing its hosted IT resources.
Organization A receives a monthly billing statement that shows the charges for the total usage of Cloud Service A during that period. However, Organization A requires a more detailed breakdown of the types of usage and their associated costs. For example, Cloud Service Consumer A can issue requests for information by employees within Organization A and on behalf of clients of Organization A.
Organization A requires a breakdown of the usage costs incurred on behalf of clients so that it can bill the clients for this usage accordingly. The cloud provider informs Organization A that it has no existing monitor that can collect and log this detailed usage information and suggests that Organization A customize its own monitor.
Which of the following statements lists the patterns that can be applied to solve these three problems?

A) Realtime Resource Availability, Elastic Network Capacity, Usage Monitoring
B) Persistent Virtual Network Configuration, Elastic Network Capacity, Load Balanced Virtual Server Instances
C) Load Balanced Virtual Switches, Elastic Resource Capacity, Automated Administration
D) None of the above.

2. Virtual Server A and Virtual Server B are hosted by Hypervisor A, which resides on Physical Server A.
Virtual Server A hosts Cloud Service A.
Virtual Server C.
Virtual Server D, Virtual Server E and Virtual Server F are hosted by Hypervisor B on Physical Server B.
Physical Server C, which hosts Hypervisor C, is currently not being used.
Cloud Service Consumer A accesses Cloud Service A (1), which accesses files stored in a folder on Virtual Server A (2). Cloud Consumer B uses Proprietary User Portal A to administer legacy software (not shown) installed on Virtual Server D (3). Proprietary User Portal B and Proprietary User Portal C are also available for accessing additional legacy systems located on Virtual Server F; however, they are not often used.

The cloud shown in the figure is a private cloud. Department A and Department B share IT resources within the private cloud and are part of the same organization. Cloud Service Consumer A belongs to Department A and Cloud Consumer B belongs to Department B.
During routine access of Cloud Service A by Cloud Service Consumer A, the Department A cloud resource administrator is notified that a hardware fault is occurring within Physical Server A that will soon cause it to fail. The cloud resource administrator scrambles to arrange for Cloud Service A to be relocated but is unable to do so before Physical Server A does fail. It takes several more hours of downtime until, with the cooperation of the cloud provider, the Cloud Service A implementation is successfully moved to Physical Server C and made live again. Managers at Department A demand that a system be put in place to avoid this scenario in the future.
Cloud Service A was initially developed specifically for Department A's Cloud Service Consumer A.
However, recently Department B has indicated that it will be developing its own cloud service consumer that will also need to regularly access Cloud Service A.
After this new cloud service consumer is deployed, both Department A and Department B experience occasional runtime errors when their cloud service consumers attempt to access Cloud Service A at the same time.
Cloud Service A accesses a legacy system on Virtual Server A that requires regular updates and patches to stay current. Each time the legacy system is updated, Cloud Service A needs to undergo an update as well, during which it needs to be temporarily unavailable. Department A managers ask the cloud provider to extend the cloud architecture so that a duplicate, secondary implementation of Cloud Service A can be made available while the primary implementation undergoes a maintenance update.
Which of the following statements provide a solution that can adequately resolve all of Departments A and B's issues?

A) The Non-Disruptive Service Relocation pattern can be applied to establish a system that uses live VM migration to move the virtual server hosting Cloud Service A to a new physical server without allowing any downtime. The Dynamic Scalability pattern can be applied to establish a system whereby multiple instances of Cloud Service A can be created and an automated scaling listener can be used to redirect concurrent requests to the Cloud Service A instances. The Non-Disruptive Service Relocation pattern can be applied to establish a system whereby cloud service consumer requests to Cloud Service A can be temporarily redirected to a duplicate implementation of Cloud Service A while the original implementation undergoes a maintenance outage.
B) The Resource Pooling pattern can be applied to pool together Physical Server A, B and C, thereby enabling the Cloud Service A implementation to be migrated to a different physical server when its hosting physical server fails. The Dynamic Scalability pattern can be applied to establish a system whereby multiple instances of Cloud Service A can be created and an automated scaling listener can be used to redirect concurrent requests to the Cloud Service A instances. The Load Balanced Virtual Server Instances pattern can be applied to establish a system that distributes instances of Cloud Service A to Virtual Server
C) The Resource Reservation pattern can be applied to protect the Cloud Service A implementation via the use of a logical network perimeter. The Workload Distribution pattern can be applied to introduce a load balancing system for Cloud Service A.
The Zero Downtime pattern can be applied to establish a system that allows Cloud Service A to be constantly available, even during maintenance outages.
D) None of the above.

질문과 대답:

질문 # 1 정답: A

질문 # 2 정답: A