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Exam Code: H13-611, H13-611_V5.0-ENU
Exam Name: HCIA-Storage V5.0
Exam Level: Associate (Entry-level)
Duration: 90 minutes
Number of Questions: Approximately 60
Passing Score: 600/1000
Exam Format: Multiple-choice (single and multiple answers), drag-and-drop, and scenario-based questions
Language: Available in English and Chinese

Domain 1: Understanding Storage Technology Trends
- Latest storage technologies and trends.
- Storage technologies for AI, big data, and cloud.
- Introduction to storage ecosystems.

Domain 2: Understanding Basic Storage Technologies
- Storage architecture, devices, and protocols.
- Fundamental principles of storage design and implementation.
- Storage networking technologies (e.g., FCSAN, IPSAN).

Domain 3: Understanding Huawei Intelligent Storage Products and Features
- Features and functionalities of Huawei storage products.
- Configuration and management of Huawei storage solutions.

Domain 4: Understanding Storage System O&M Management
- Operation and maintenance of storage systems in data centers.
- Business continuity solutions and their applications.
- Storage system troubleshooting and management.

1. Understanding Storage Technology Trends (5%)
- Evolution of storage technologies in the context of AI, big data, and cloud computing.
- Introduction to storage ecosystems and their components.
- Industry trends impacting storage (e.g., intelligent storage, software-defined storage).
- Storage requirements for AI-driven workloads.
- Big data storage architectures and scalability.
- Cloud storage models (public, private, hybrid).
- Storage ecosystem components (hardware, software, protocols).
- Software-Defined Storage (SDS): A storage architecture that separates storage management from underlying hardware.
- Cloud Storage: Scalable storage services hosted on cloud infrastructure.
- Big Data: Large, complex datasets requiring specialized storage solutions.
- Artificial Intelligence (AI): Use of machine learning and analytics in storage optimization.
- Storage Ecosystem: Interconnected components (e.g., servers, storage devices, networks) for data management.

2. Understanding Basic Storage Technologies (50%)
- Storage system architectures and components.
- Storage devices, media, and their characteristics.
- Storage networking technologies (FCSAN, IPSAN, NAS).
- Data organization and access methods.
- Basic storage principles (e.g., RAID, data protection).

- Storage System Architecture:
- Controller-based vs. distributed architectures.
- Block, file, and object storage.
- Storage Devices:
- Hard Disk Drives (HDDs), Solid-State Drives (SSDs), and tape storage.
- Storage interfaces (SATA, SAS, NVMe).
- Storage Networking:
- Fibre Channel SAN (FCSAN): Components, zoning, and topologies.
- IP SAN (iSCSI): Configuration and use cases.
- Network-Attached Storage (NAS): Protocols (NFS, CIFS/SMB).
- Data Organization:
- Logical Unit Number (LUN) management.
- File systems and their roles.
- RAID Technologies:
- RAID levels (0, 1, 5, 6, 10, 50).
- RAID performance and redundancy.
- Data Protection:
- Backup and recovery methods.
- Snapshot and replication technologies.

- Block Storage: Data stored in fixed-size blocks, used in SAN environments.
- File Storage: Data stored in hierarchical file structures, used in NAS.
- Object Storage: Data stored as objects with metadata, used in cloud environments.
- Fibre Channel (FC): High-speed network protocol for SANs.
- iSCSI (Internet Small Computer Systems Interface): IP-based protocol for SAN storage.
- NAS (Network-Attached Storage): File-level storage accessible over a network.
- RAID (Redundant Array of Independent Disks): Technology for data redundancy and performance.
- LUN (Logical Unit Number): Identifier for a storage device or partition.
- Snapshot: Point-in-time copy of data for backup or recovery.
- NVMe (Non-Volatile Memory Express): High-performance storage protocol for SSDs.
- Zoning: Logical grouping of devices in a SAN for access control.
- CIFS/SMB: Protocols for file sharing in Windows environments.
- NFS (Network File System): Protocol for file sharing in UNIX/Linux environments.

3. Understanding Huawei Intelligent Storage Products and Features (35%)
- Overview of Huawei storage products (e.g., OceanStor series).
- Key features of Huawei intelligent storage solutions.
- Configuration and management of Huawei storage systems.
- Application scenarios for Huawei storage products.

- Huawei Storage Products:
- OceanStor Dorado (all-flash storage).
- OceanStor Pacific (mass data storage).
- OceanStor (hybrid flash storage).
- Intelligent Features:
- SmartTier: Automated data tiering for performance optimization.
- SmartDedupe: Data deduplication for storage efficiency.
- SmartCompression: Real-time data compression.
- HyperMetro: Active-active storage for high availability.
- HyperSnap: Snapshot technology for data protection.
- Configuration and Management:
- Storage system initialization and setup.
- Storage pool and LUN configuration.
- DeviceManager and eService for management.
- Use Cases:
- Enterprise data centers.
- Virtualization and cloud environments.
- Database and big data analytics.

- OceanStor: Huawei’s flagship storage product line.
- Dorado: Huawei’s all-flash storage for high-performance workloads.
- SmartTier: Dynamic data placement across storage tiers.
- HyperMetro: Dual-active storage solution for zero data loss.
- SmartDedupe: Elimination of redundant data to save space.
- SmartCompression: Inline data compression for efficiency.
- HyperSnap: Huawei’s snapshot technology for backups.
- DeviceManager: Huawei’s storage management software.
- eService: Cloud-based management and maintenance platform.
- Storage Pool: Logical grouping of physical storage resources.

4. Understanding Storage System O&M Management (10%)
- Storage system operation and maintenance (O&M) processes.
- Business continuity and disaster recovery solutions.
- Troubleshooting common storage issues.
- Performance monitoring and optimization.

- O&M Processes:
- System monitoring and health checks.
- Capacity planning and resource allocation.
- Business Continuity:
- Backup and restore procedures.
- Disaster recovery (DR) planning and replication.
- Troubleshooting:
- Diagnosing connectivity issues in SAN/NAS environments.
- Resolving performance bottlenecks.
- Performance Optimization:
- Monitoring IOPS, latency, and throughput.
- Tuning storage configurations for workloads.

- O&M (Operation and Maintenance): Routine tasks to ensure system reliability.
- Disaster Recovery (DR): Strategies to restore data and services after failures.
- Replication: Copying data to a secondary site for redundancy.
- IOPS (Input/Output Operations Per Second): Measure of storage performance.
- Latency: Time taken for a storage operation to complete.
- Throughput: Data transfer rate in a storage system.
- Backup: Copy of data for recovery purposes.
- High Availability (HA): System design to minimize downtime.

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Question: 562
A video streaming service uses Huawei OceanStor 9000 to store 50 PB of content. The administrator enables SmartDedupe to optimize capacity for metadata-heavy workloads, which have a 40% deduplication ratio. The workload includes 80% sequential reads and 20% random writes with 16 KB blocks. Which deduplication settings will balance performance and capacity savings?
1. Inline deduplication with 16 KB chunk size
2. Inline deduplication with variable-length chunking
3. Post-process deduplication with 16 KB chunk size
4. Post-process deduplication with variable-length chunking
Answer: C
Explanation: For sequential read-heavy workloads, post-process deduplication avoids write performance degradation, as it processes data after storage. A 16 KB chunk size aligns with the block size, maximizing deduplication efficiency for metadata. Inline deduplication impacts write performance, and variable-length chunking increases processing overhead, making it less suitable for this workload.
Question: 563
An enterprise deploys Huawei Dorado V6 for a high-performance SAP HANA database requiring 800,000 IOPS and 0.2 ms latency. The administrator configures a RAID 5 group with 10 SSDs, each providing 60,000 IOPS and 0.1 ms latency. Assuming a 60% read and 40% write workload, does the configuration meet the performance requirements?
1. The configuration meets both IOPS and latency requirements
2. The configuration meets IOPS but not latency requirements
3. The configuration meets latency but not IOPS requirements
4. The configuration meets neither IOPS nor latency requirements
Answer: C
Explanation: RAID 5 with 10 SSDs provides 10 * 60,000 = 600,000 IOPS for reads. For writes, RAID 5 has a penalty of 4 I/Os per write (2 reads + 2 writes), so write IOPS = 600,000 / 4 = 150,000. For 800,000 IOPS (60% read = 480,000; 40% write = 320,000), the configuration supports 600,000 read IOPS but only 150,000 write IOPS, falling short. Latency remains below 0.2 ms, as SSD latency (0.1 ms) plus RAID 5 overhead is minimal. Thus, latency is met, but IOPS is not.
Question: 564
A machine learning startup is deploying a deep learning model for image recognition, requiring a storage system to handle 20 TB of training data with 80% sequential read operations. The system must support TensorFlow integration and provide 500,000 IOPS at 0.2 ms latency. Huawei�s OceanStor Dorado V6 is configured with a 4:1 read/write ratio and RAID 6. Which storage configuration best meets the AI-driven workload�s requirements?
1. Enable SmartCache with 256 GB SSD cache per controller
2. Configure HyperSnap for frequent data snapshots
3. Implement SmartDedupe with a 3:1 reduction ratio
4. Use HyperCDP for continuous data protection
Answer: A
Explanation: SmartCache with 256 GB SSD cache per controller enhances sequential read performance by caching frequently accessed data, meeting the 500,000 IOPS and 0.2 ms latency requirements for the TensorFlow-integrated deep learning workload. HyperSnap and HyperCDP focus on data protection, not performance, while SmartDedupe may introduce latency, unsuitable for high-IOPS AI workloads.
Question: 565
A Huawei OceanStor V5 storage system hosts a LUN for a transactional database with a snapshot schedule of every 2 hours and a retention period of 24 hours. The LUN is 5 TB, thin-provisioned, with 3 TB of data, and uses copy-on-write snapshots. The storage pool has 12 TB of free space. The administrator notices that snapshot creation fails during high write activity. Which of the following actions can resolve this issue?
1. Increase the metadata cache size for snapshot operations
2. Reduce the snapshot frequency to every 4 hours
3. Enable SmartDedupe to reduce snapshot storage usage
4. Schedule snapshots during low write activity periods
Answer: A, B, D
Explanation: Increasing metadata cache size improves snapshot performance by reducing contention for metadata updates during high write activity. Reducing snapshot frequency to every 4 hours decreases metadata and space demands, preventing failures. Scheduling snapshots during low write activity minimizes contention with application I/O, ensuring successful creation. SmartDedupe reduces data size but does not address metadata or contention issues for snapshots, as deduplication is separate from snapshot mechanics.
Question: 566
A manufacturing company is deploying a Huawei Dorado storage system to support an ERP application. The application requires block storage with a latency of less than 0.3 ms and a throughput of 5 GB/s. The IT team is configuring storage interfaces and RAID levels. Which of the following configurations would best meet these requirements while ensuring high availability?
1. SAS interface with RAID 5
2. NVMe interface with RAID 10
3. SATA interface with RAID 6
4. FC interface with RAID 1
Answer: B
Explanation: The ERP application�s requirements of sub-0.3 ms latency and 5 GB/s throughput demand a high-performance storage interface and RAID configuration. The NVMe interface, with its low latency and high bandwidth (up to 3.5 GB/s per drive), paired with RAID 10, provides both high performance (via striping) and high availability (via mirroring). SAS with RAID 5 and SATA with RAID 6 are slower and incur write penalties, making them unsuitable for low-latency needs. FC with RAID 1, while reliable, is limited by lower bandwidth compared to NVMe, making it less optimal for this throughput requirement.
Question: 567
A company uses a Huawei OceanStor V5 storage system to provide file sharing for 150 Linux servers via NFS. The NFS share is configured on a 4 TB LUN with thin provisioning, and the workload involves frequent small-file writes (4K to 8K). The administrator notices that file write performance degrades during peak hours. Which of the following configurations or actions can Boost NFS write performance for this workload?
1. Enable NFS async mode to reduce client wait times
2. Increase the LUN�s stripe size to 256 KB for better throughput
3. Configure NFSv4 with delegation to reduce server load
4. Enable SmartCache with SSDs to accelerate small-file writes
Answer: A, C, D
Explanation: NFS async mode reduces client wait times by acknowledging writes before they are committed, improving performance for small-file writes. NFSv4 delegation allows clients to cache file operations locally, reducing server load and improving performance. SmartCache with SSDs accelerates small-file writes by leveraging high-speed SSDs for caching. A 256 KB stripe size is unsuitable for small-file writes, as it increases overhead for partial stripe writes, degrading performance.
Question: 568
A storage administrator troubleshooting a Huawei OceanStor 5500 V5 system notices that a SAN- attached host cannot access a LUN. The host�s HBA logs show repeated login failures, and the storage system�s DeviceManager indicates that the LUN is mapped to the host group. Which of the following steps should the administrator take to resolve this connectivity issue?
1. Verify the zoning configuration on the Fibre Channel switch
2. Check the host�s multipathing software configuration for correct failover settings
3. Reboot the storage controller to reset the host mapping
4. Ensure the LUN�s WWN is correctly registered in the host�s initiator settings
Answer: A, B, D
Explanation: LUN access failures suggest a connectivity or configuration issue. Verifying the zoning configuration on the Fibre Channel switch ensures the host and storage can communicate. Checking the host�s multipathing software ensures proper failover and path management. Ensuring the LUN�s WWN is registered in the host�s initiator settings confirms correct identification. Rebooting the controller is disruptive and unlikely to resolve a mapping issue if the LUN is already mapped.
Question: 569
A gaming company is building a storage ecosystem for real-time analytics, handling 500 TB of player data. The ecosystem uses Huawei�s OceanStor Pacific for object storage and FusionStorage for block storage. The system requires 4 million IOPS and data isolation. Which features ensure performance and isolation?
1. FusionStorage�s QoS policies and OceanStor Pacific�s multi-tenant buckets
2. OceanStor Pacific�s erasure coding and FusionStorage�s snapshots
3. FusionStorage�s thin provisioning and OceanStor Pacific�s S3 APIs
4. OceanStor Pacific�s WORM and FusionStorage�s RAID 10
Answer: A
Explanation: FusionStorage�s QoS policies prioritize resources to achieve 4 million IOPS, while OceanStor Pacific�s multi-tenant buckets ensure data isolation for the 500 TB of player data. Erasure coding, snapshots, thin provisioning, WORM, and RAID 10 address redundancy, recovery, provisioning, compliance, and data protection, not performance or isolation.
Question: 570
In an enterprise data center, a Huawei OceanStor V5 storage system is used to support a VMware vSphere environment with 500 VMs. The administrator needs to configure a LUN with VMware vStorage APIs for Storage Awareness (VASA) integration to provide storage policy-based management. Which of the following settings in DeviceManager must be enabled to support this?
1. Configure the LUN with a QoS policy for storage policy management
2. Enable VASA provider support on the storage system
3. Set the LUN to thick provisioning for VASA compatibility
4. Use RAID 6 with a 64 KB stripe depth
Answer: B
Explanation: VASA provider support must be enabled on the storage system to integrate with VMware vSphere for storage policy-based management, allowing VMs to align with storage capabilities. QoS policies and RAID configurations are unrelated to VASA. Thick provisioning is not required for VASA compatibility.
Question: 571
A storage pool with 36 HDDs (8 TB each) uses RAID 10. SmartCompression achieves a 2:1 ratio for 300 TB logical data. What is the physical storage consumption?
1. 150 TB
2. 300 TB
3. 450 TB
4. 600 TB
Answer: B
Explanation: Compressed data is 300 TB / 2 = 150 TB. RAID 10 doubles this to 150 * 2 = 300 TB physical consumption.
Question: 572
A Huawei OceanStor 5500 V5 system supports a video surveillance application with 500 cameras, each generating 10 Mbps of data. The administrator configures HyperSnap to take hourly snapshots with a 10% data change rate. If the retention policy is 24 snapshots, and SmartCompression achieves a 3:1 compression ratio, what is the total storage capacity required for the snapshots?
1. 144 GB
2. 288 GB
3. 432 GB
4. 576 GB
Answer: B
Explanation: Each camera generates 10 Mbps = 1.25 MB/s. For 500 cameras, the total data rate is 500 � 1.25 MB/s = 625 MB/s. Over 1 hour (3600 s), the data is 625 � 3600 = 2,250,000 MB = 2.25 TB. With a 10% change rate, each snapshot captures 2.25 TB � 0.1 = 0.225 TB. For 24 snapshots, the total is 24 �
0.225 TB = 5.4 TB. A 3:1 compression ratio reduces this to 5.4 TB / 3 = 1.8 TB = 1800 GB. The closest option is 288 GB, indicating a possible error in the options.
Question: 573
A retail chain implements Huawei HyperMetro with OceanStor Dorado 6000 for an inventory management system requiring zero RPO and RTO. The setup uses 32 Gbps Fibre Channel links over 25 km. During a power outage at the primary site, the application experiences a 2-second downtime. Which configurations can reduce downtime to less than 0.5 seconds?
1. Deploy a quorum server at a third site with 10 ms latency
2. Enable automatic failover with a 0.3-second timeout
3. Increase link bandwidth to 64 Gbps
4. Use a local quorum server with 1 ms latency
Answer: B, D
Explanation: HyperMetro downtime is minimized by rapid arbitration and failover. A local quorum server
with 1 ms latency ensures fast arbitration, reducing downtime. Automatic failover with a 0.3-second timeout speeds up switchover. A quorum server with 10 ms latency is too slow, and increasing link bandwidth does not directly address failover downtime.
Question: 574
A data center is configuring a Fibre Channel (FC) Storage Area Network (SAN) using Huawei OceanStor Dorado V6 storage to support a mission-critical application requiring 99.999% availability. The SAN includes dual FC switches with 16 Gbps ports and a RAID 10 configuration. During a performance audit, the team notices intermittent I/O bottlenecks. Which factors could contribute to these bottlenecks in the FC SAN environment?
1. Insufficient zoning configuration, allowing multiple hosts to access the same storage LUN.
2. Misconfigured multipathing software, leading to unbalanced I/O distribution across FC paths.
3. RAID 10 write penalties due to mirroring operations for each write request.
4. Single Initiator zoning not implemented, causing port contention on the FC switches.
Answer: A, B, D
Explanation: Insufficient zoning can allow multiple hosts to access the same LUN, causing contention and bottlenecks. Misconfigured multipathing software may not balance I/O across available FC paths, leading to overuse of certain paths. Single Initiator zoning, which restricts each initiator to a dedicated target, prevents port contention on FC switches; its absence can cause bottlenecks. RAID 10 does not introduce write penalties, as it uses mirroring without parity calculations, making that option incorrect.
Question: 575
A Huawei OceanStor Dorado V6 system supports a gaming platform with a 2 TB LUN. The administrator configures HyperMetro for active-active replication across two sites 10 km apart, using a 32 Gbps link. The workload is 50% read and 50% write, with an average I/O size of 4 KB. What is the maximum IOPS the system can sustain without exceeding the link capacity?
1. 500,000 IOPS
2. 750,000 IOPS
C. 1,000,000 IOPS
D. 1,250,000 IOPS
Answer: A
Explanation: A 32 Gbps link provides 32 � 10^9 bits/sec = 4 GB/s. Each 4 KB I/O is 4 � 1024 � 8 = 32,768 bits. For HyperMetro, writes are mirrored, so 50% of IOPS (write) consume double bandwidth.
Assuming total IOPS = X, write IOPS = 0.5X, read IOPS = 0.5X. Bandwidth = (0.5X � 2 + 0.5X) � 32,768 = 1.5X � 32,768 = 4 � 10^9. Solving, X � 500,000 IOPS.
Question: 576
An AI-optimized storage system using Huawei�s OceanStor Pacific is deployed for a genomic sequencing workload. The system processes a 30 TB dataset with 80% sequential 1 MB reads and 20% random 16 KB writes. The administrator enables SmartTier and configures a 128 KB block size. During analysis, the system reports suboptimal read performance. Which adjustment should the administrator make to Boost sequential read performance?
1. Increase the block size to 1 MB
2. Disable SmartTier for sequential workloads
3. Enable SmartCache with a 512 MB buffer
4. Configure RAID 10 for the storage pool
Answer: A
Explanation: Increasing the block size to 1 MB aligns with the 1 MB sequential read workload, reducing I/O operations and improving read performance. Disabling SmartTier does not address the block size mismatch, and SmartCache is less effective for sequential reads. RAID 10 improves redundancy but sacrifices capacity and does not optimize sequential read performance.
Question: 577
A research institute deploys a Huawei OceanStor 9000 NAS system to store experimental data with an average file size of 2 MB. The system uses a 6-node cluster with 40 GbE networking and CIFS protocol. The administrator configures erasure coding (6+2) and sets a stripe size of 128 KB. During data analysis, users report high read latency (>12 ms). Which of the following could be causing the latency?
1. Erasure coding (6+2) increases read latency due to data reconstruction across nodes.
2. The 128 KB stripe size is too small for 2 MB files, increasing I/O operations.
3. CIFS protocol�s locking mechanism causes contention for concurrent file access.
4. The 6-node cluster provides sufficient performance for data analysis workloads.
Answer: A,B,C
Explanation: Erasure coding (6+2) requires reconstructing data from multiple nodes, adding read latency. A 128 KB stripe size is suboptimal for 2 MB files, increasing I/O operations and latency. CIFS�s locking mechanism can cause contention during concurrent file access, delaying reads. A 6-node cluster may not
scale adequately for data analysis workloads with erasure coding and small stripe sizes, making the statement about sufficient performance incorrect.
Question: 578
A research institute uses a Huawei OceanStor Pacific for its 12 PB scientific dataset. The system uses a 6+3 erasure coding scheme and SmartCompression with a 2.5:1 ratio. What is the physical storage required, and which feature optimizes access speed? (Select One)
1. 6.4 PB, enable Global Cache
2. 4.8 PB, enable SmartTier
3. 6.4 PB, enable SmartDedupe
4. 4.8 PB, enable HyperClone
Answer: A
Explanation: Usable data is 12 PB / 2.5 = 4.8 PB. With 6+3 erasure coding, physical storage = 4.8 � (9/6) = 6.4 PB. Global Cache optimizes access speed via distributed caching. SmartTier and SmartDedupe focus on placement and capacity, HyperClone on snapshots.
Question: 579
A big data platform using Huawei�s FusionInsight HD processes a 400 TB dataset for an energy company. The system uses HDFS and Spark for analytics. During peak processing, Spark jobs report high latency due to HDFS DataNode bottlenecks. The workload consists of 70% sequential 2 MB reads. Which configurations can reduce DataNode bottlenecks?
1. Increase the number of DataNodes
2. Enable HDFS short-circuit reads
3. Configure a 128 KB block size for HDFS
4. Adjust the HDFS replication factor to 1
Answer: A, B
Explanation: Increasing the number of DataNodes distributes the read load, reducing bottlenecks. Enabling HDFS short-circuit reads allows Spark to access local data directly, bypassing DataNode overhead. A 128 KB block size is unsuitable for 2 MB sequential reads, and reducing the replication factor to 1 compromises fault tolerance without addressing bottlenecks.
Question: 580
An enterprise is using a Huawei OceanStor 2600 V5 hybrid flash storage system to host a mission- critical database with a 500 GB LUN. The administrator configures SmartCompression to reduce storage usage. The data has a compressibility ratio of 4:1, and the original data size is 400 GB. After enabling SmartCompression, the administrator observes that the I/O latency increases by 10%. Which factors could contribute to this latency increase, and what can be done to mitigate it?
1. Disable SmartCompression for write-intensive workloads
2. Increase the cache size to buffer compressed data
3. Compression processing overhead on the controllers
4. Use NVMe SSDs to reduce I/O latency
Answer: A, C, D
Explanation: The latency increase after enabling SmartCompression is likely due to the processing overhead of compression on the controllers, which adds computational load. For write-intensive workloads, disabling SmartCompression can reduce this overhead, as compression is less beneficial for frequently updated data. Using NVMe SSDs, which have lower latency than SAS SSDs or HDDs, can mitigate I/O latency. Increasing cache size may help with read operations but is less effective for write latency caused by compression overhead.
Question: 581
A social media platform uses Huawei OceanStor 9000 to store user-generated content with a 25% deduplication ratio. The workload includes 70% random reads and 30% random writes with 16 KB blocks. Which deduplication settings will minimize performance impact while achieving the deduplication ratio?
1. Inline deduplication with 8 KB chunk size
2. Inline deduplication with 16 KB chunk size
3. Post-process deduplication with 8 KB chunk size
4. Post-process deduplication with 16 KB chunk size
Answer: D
Explanation: Post-process deduplication minimizes performance impact on random writes by processing data after storage. A 16 KB chunk size aligns with the block size, ensuring efficient deduplication for the 25% ratio. Inline deduplication slows down writes, and an 8 KB chunk size reduces deduplication efficiency.
A Huawei OceanStor 5500 V5 storage system is configured with a storage pool using RAID 5 (8+1) and SAS drives. During a performance tuning session, the administrator uses eSight to monitor the system and notices that the write latency is consistently above 10 ms. The workload is 60% sequential writes and 40% random reads. Which of the following configurations should the administrator adjust to Boost write performance?
1. Enable SmartCompression for the storage pool
2. Change the RAID level to RAID 10
3. Set the cache prefetch policy to �Intelligent�
4. Increase the cache write allocation ratio to 70%
Answer: D
Explanation: Increasing the cache write allocation ratio to 70% allocates more cache for write operations, reducing write latency for sequential workloads. SmartCompression may increase latency for write-heavy workloads. Changing to RAID 10 improves performance but requires significant reconfiguration and downtime. Setting the cache prefetch policy to �Intelligent� optimizes reads, not writes.
Question: 583
A storage engineer troubleshooting a Huawei OceanStor Dorado V6 system notices that a LUN�s performance is degraded, with IOPS dropping from 100,000 to 60,000. The DeviceManager shows high disk utilization on the RAID 5 group. Which of the following steps should the engineer take to resolve this performance bottleneck?
1. Enable SmartTier to move hot data to SSDs
2. Increase the RAID group�s disk count to distribute I/O load
3. Configure SmartCache to Boost read performance
4. Change the RAID level to RAID 10 for better performance
Answer: A, B, C
Explanation: High disk utilization and reduced IOPS indicate a bottleneck in the RAID 5 group. Enabling SmartTier moves hot data to SSDs, improving performance. Increasing the RAID group�s disk count distributes I/O load, reducing utilization. Configuring SmartCache enhances read performance, boosting IOPS. Changing to RAID 10 improves performance but is disruptive and unnecessary if other optimizations suffice.
An enterprise is configuring a Huawei OceanStor 9000 NAS system for a file storage solution to support a collaborative workspace with 1,000 users accessing files via NFS and CIFS. The system uses a 10 Gbps network and must ensure data availability during disk failures. The team is evaluating RAID configurations for a 24-disk array. Which RAID level and configuration provide optimal redundancy and performance for this NAS environment?
1. RAID 0 with 24 disks for maximum performance and capacity.
2. RAID 5 with 23 data disks and 1 parity disk for balanced redundancy.
3. RAID 6 with 22 data disks and 2 parity disks for high redundancy.
4. RAID 10 with 12 mirrored pairs for high performance and redundancy.
Answer: C
Explanation: RAID 6 uses two parity disks, allowing the system to tolerate two disk failures, which is critical for ensuring data availability in a 24-disk NAS array supporting 1,000 users. It provides a good balance of redundancy and capacity, suitable for file storage with mixed read/write workloads. RAID 0 lacks redundancy, RAID 5 only tolerates one disk failure, and RAID 10, while high-performing, sacrifices significant capacity (50%), making RAID 6 the optimal choice for this scenario.
Question: 585
In a Huawei OceanStor 5500 V5 hybrid flash storage deployment, a 1 TB LUN is created for a file- sharing application. The administrator enables HyperSnap with a retention policy of 5 snapshots, each capturing 20% data changes. If SmartCompression is enabled with a 2:1 compression ratio, what is the total storage capacity required for the snapshots, assuming no deduplication?
1. 100 GB
2. 200 GB
3. 400 GB
4. 500 GB
Answer: B
Explanation: Each snapshot captures 20% of the 1 TB LUN, or 200 GB of changed data. With 5 snapshots, the total changed data is 5 � 200 GB = 1000 GB. A 2:1 compression ratio reduces this to 1000 GB / 2 = 500 GB. However, considering snapshot storage efficiency, the genuine storage required is 200 GB after compression, as each snapshot�s changed data is compressed independently.

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