Hitachi Vantara HCE-3700 Exam Topics - You’ll Be Tested in Actual Exam
The Hitachi Vantara HCE-3700 exam is a comprehensive assessment designed to evaluate your knowledge and skills in various aspects of Hitachi's data management and analytics solutions. It covers a wide range of topics, including Hitachi Content Platform (HCP), Pentaho Data Integration (PDI), and Hitachi Data Instance Manager (HDIM). You'll delve into the architecture, administration, and best practices associated with these powerful tools. Additionally, the exam assesses your understanding of Hitachi Content Intelligence (HCI), Hitachi Data Catalog (HDC), and Hitachi Data Ingestor (HDI), which are integral components for data governance, data quality, and data lake management. Throughout the exam, you'll encounter scenarios and questions related to performance optimization, security, and the efficient utilization of Hitachi's data platforms. By successfully completing this exam, you'll demonstrate your expertise in leveraging Hitachi's technologies to drive digital transformation and gain a competitive edge in the data-driven business landscape.
Hitachi Vantara HCE-3700 Exam Short Quiz
Attempt this Hitachi Vantara HCE-3700 exam quiz to self-assess your preparation for the actual Hitachi Vantara Certified Expert - Performance Architect exam. CertBoosters also provides premium Hitachi Vantara HCE-3700 exam questions to pass the Hitachi Vantara Certified Expert - Performance Architect exam in the shortest possible time. Be sure to try our free practice exam software for the Hitachi Vantara HCE-3700 exam.
You are troubleshooting a potential marginal link in a SAN fabric that you believe is causing a performance problem.
To troubleshoot this problem, which two actions will allow you to view the detailed port statistics? (Choose two.)
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AUse the vendor's GUI.
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BUse the appropriate host command(s).
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CUse the appropriate switch command(s).
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DUse SVP Performance Monitor.
Hitachi VantaraHCE-3700
Q2:
A customer is replicating VSP G1000 production data using HUR. The customer experiences a network outage. During the outage, the customer reported an increase in response times.
Which two actions would minimize this problem during future network outages? (Choose two.)
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ALeave the HUR SOM in the default setting.
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BSet the SOM that suspends pairs during outages.
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CAdd volumes in the journal.
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DIncrease the size of the Journal Pool capacity by adding additional parity groups.
Hitachi VantaraHCE-3700
Q3:
An experienced system administrator reports near maximum MPB utilization with VSP G400 arrays operating in a GAD pair. Each array is supporting 100K IOPS with a 50% read workload. The MPBs should be capable of supporting more than 200K IOPS with this profile according to the basic array sizing tools.
Which two statements are correct in this scenario? (Choose two.)
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ACache mirroring between the two G400 arrays generates an extra MPB load which is not recorded in Hitachi Tuning Manager.
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BEach G400 array is also processing 50K duplex write IOPS from the other G400.
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CThe duplex GAD writes are changing the overall read/write I/O profile and the extra parity operations are causing the high MPB utilization.
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DThe internal array queue management scheme for GAD write operations causes MPB utilization to be doubled.
Hitachi VantaraHCE-3700
Q4:
A VSP G1000 customer is concerned about high VSD utilization alerts during their nightly backup and application maintenance window. To address their concerns, you want to inform them about the maximum acceptable utilization level range. What would be the range in this scenario?
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A30-40%
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B40-50%
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C50-60%
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D80% or higher
Hitachi VantaraHCE-3700
Q5:
For a VSP G1000 system serving a mission critical interactive workload, which two statements are true about VSD failover? (Choose two.)
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AThe VSD receiving the workload of a failed VSD is not pre-determined.
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BProviding reserved capacity to accommodate failure is a requirement when planning for capacity for normal operations.
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CThe workload of a failed VSD board always transfers to its redundant partner VSD board.
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DThe workload of a failed VSD board is dynamically redistributed among surviving VSD boards.
