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Exam Hybrid Cloud-Architect
Number NS0-604
File Name Network Appliance.NS0-604.VCEplus.2024-10-20.27q.vcex
Size 30 KB
Posted Oct 20, 2024
Download Network Appliance.NS0-604.VCEplus.2024-10-20.27q.vcex


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Question 1

A company is migrating on-premises SMB data and ACLs to the Azure NetApp Files storage solution. Which two Active Directory solutions are supported? (Choose two.)


  1. Active Directory Domain Services (AD DS)
  2. Azure Active Directory (Azure AD)
  3. Azure Active Directory Domain Services (Azure AD DS)
  4. Azure Identity and Access Management
Correct answer: AC
Explanation:
When migrating SMB data and Access Control Lists (ACLs) to Azure NetApp Files, Active Directory integration is necessary for user authentication and permission management. The following two solutions are supported:Active Directory Domain Services (AD DS) (A): AD DS is the traditional, on-premises Active Directory solution that provides authentication and authorization services. Azure NetApp Files can integrate with on-premises AD DS, enabling the migration of SMB data along with the corresponding ACLs.Azure Active Directory Domain Services (Azure AD DS) (C): Azure AD DS provides managed domain services in the cloud and supports Active Directory features such as domain join, group policies, and LDAP. It is compatible with Azure NetApp Files, allowing seamless migration and access control management for SMB workloads in the cloud.Azure Active Directory (Azure AD) (B) and Azure Identity and Access Management (D) focus more on user identity management rather than direct SMB file system integration, and they are not suitable for handling file system ACLs and SMB shares.
When migrating SMB data and Access Control Lists (ACLs) to Azure NetApp Files, Active Directory integration is necessary for user authentication and permission management. The following two solutions are supported:
Active Directory Domain Services (AD DS) (A): AD DS is the traditional, on-premises Active Directory solution that provides authentication and authorization services. Azure NetApp Files can integrate with on-premises AD DS, enabling the migration of SMB data along with the corresponding ACLs.
Azure Active Directory Domain Services (Azure AD DS) (C): Azure AD DS provides managed domain services in the cloud and supports Active Directory features such as domain join, group policies, and LDAP. It is compatible with Azure NetApp Files, allowing seamless migration and access control management for SMB workloads in the cloud.
Azure Active Directory (Azure AD) (B) and Azure Identity and Access Management (D) focus more on user identity management rather than direct SMB file system integration, and they are not suitable for handling file system ACLs and SMB shares.



Question 2

A company has finished migrating all data to NetApp Cloud Volumes ONTAP. An application administrator needs to make sure that there are no interruptions in service for this new NFSv4 application.
Which feature must be registered on the Azure subscription to reduce unplanned failover times?


  1. multipath HA
  2. high availability
  3. fault tolerance
  4. redundancy
Correct answer: B
Explanation:
NetApp Cloud Volumes ONTAP provides a High Availability (HA) configuration, which is crucial for ensuring that services remain available even during unplanned outages. When using NetApp Cloud Volumes ONTAP in environments such as Azure, ensuring continuous availability, especially for NFSv4 workloads, is vital.The 'High Availability' (HA) feature creates a pair of ONTAP instances configured as an active-passive cluster. This setup reduces failover times by allowing one node to take over if the other fails, providing minimal service disruption. HA is designed to manage failovers automatically, which is essential for applications requiring constant availability, such as those using NFSv4. In Azure, enabling this feature via the appropriate subscription registration ensures that when an unexpected failure occurs, the system will automatically failover to the standby node, minimizing downtime and ensuring that the application continues to function smoothly without manual intervention.In this case, 'multipath HA,' 'fault tolerance,' and 'redundancy' are related concepts, but they don't directly address the specific need to register and enable the high-availability feature in Azure. Registering HA on the Azure subscription ensures that the Cloud Volumes ONTAP can perform its failover processes effectively, keeping the application running.
NetApp Cloud Volumes ONTAP provides a High Availability (HA) configuration, which is crucial for ensuring that services remain available even during unplanned outages. When using NetApp Cloud Volumes ONTAP in environments such as Azure, ensuring continuous availability, especially for NFSv4 workloads, is vital.
The 'High Availability' (HA) feature creates a pair of ONTAP instances configured as an active-passive cluster. This setup reduces failover times by allowing one node to take over if the other fails, providing minimal service disruption. HA is designed to manage failovers automatically, which is essential for applications requiring constant availability, such as those using NFSv4. In Azure, enabling this feature via the appropriate subscription registration ensures that when an unexpected failure occurs, the system will automatically failover to the standby node, minimizing downtime and ensuring that the application continues to function smoothly without manual intervention.
In this case, 'multipath HA,' 'fault tolerance,' and 'redundancy' are related concepts, but they don't directly address the specific need to register and enable the high-availability feature in Azure. Registering HA on the Azure subscription ensures that the Cloud Volumes ONTAP can perform its failover processes effectively, keeping the application running.



Question 3

Which network construct is required to enable nondisruptive failover between nodes in a Multi-AZ NetApp Cloud Volumes ONTAP cluster in AWS?


  1. floating IPs
  2. security groups
  3. elastic network interfaces
  4. Intercluster UFs
Correct answer: A
Explanation:
In a Multi-AZ (Availability Zone) setup for NetApp Cloud Volumes ONTAP in AWS, ensuring nondisruptive failover between nodes is critical for high availability. 'Floating IPs' are required for seamless failover between nodes in such a configuration.Floating IPs allow the primary node to automatically transfer its IP address to the secondary node during a failover event, ensuring that clients can continue to access the service without needing to reconfigure anything. This mechanism enables clients to access the same IP regardless of which node in the cluster is actively serving requests, thus maintaining nondisruptive operations.Elastic Network Interfaces (ENIs) facilitate networking in AWS but do not inherently handle IP floating between nodes for failover. Security groups and Intercluster UFs manage security and inter-node communication, respectively, but do not address the failover requirements. Floating IPs are explicitly designed to enable failover in high-availability cloud storage environments like NetApp Cloud Volumes ONTAP.Thus, 'floating IPs' are the required network construct that allows for nondisruptive failover between nodes in a multi-AZ setup, ensuring continuous service availability even in the event of an outage in one availability zone.
In a Multi-AZ (Availability Zone) setup for NetApp Cloud Volumes ONTAP in AWS, ensuring nondisruptive failover between nodes is critical for high availability. 'Floating IPs' are required for seamless failover between nodes in such a configuration.
Floating IPs allow the primary node to automatically transfer its IP address to the secondary node during a failover event, ensuring that clients can continue to access the service without needing to reconfigure anything. This mechanism enables clients to access the same IP regardless of which node in the cluster is actively serving requests, thus maintaining nondisruptive operations.
Elastic Network Interfaces (ENIs) facilitate networking in AWS but do not inherently handle IP floating between nodes for failover. Security groups and Intercluster UFs manage security and inter-node communication, respectively, but do not address the failover requirements. Floating IPs are explicitly designed to enable failover in high-availability cloud storage environments like NetApp Cloud Volumes ONTAP.
Thus, 'floating IPs' are the required network construct that allows for nondisruptive failover between nodes in a multi-AZ setup, ensuring continuous service availability even in the event of an outage in one availability zone.



Question 4

What are two ways to optimize cloud data storage costs with NetApp Cloud Volumes ONTAP? (Choose two.)


  1. aggregate deduplication
  2. thin provisioning
  3. TCO calculator
  4. volume deduplication
Correct answer: BD
Explanation:
NetApp Cloud Volumes ONTAP provides several storage efficiency features that help optimize cloud storage costs. Two of the key methods for reducing costs are:Thin Provisioning: This feature allows users to allocate more storage capacity than is physically available. Instead of reserving full storage at the time of volume creation, space is only consumed as data is written. This reduces upfront costs and optimizes storage use by delaying actual storage allocation until necessary, making it cost-effective.Volume Deduplication: Deduplication removes redundant copies of data within a volume, reducing the total storage footprint. By eliminating duplicate blocks of data, volume deduplication significantly cuts down on the amount of storage consumed, leading to lower storage costs in the cloud environment.Other options like 'aggregate deduplication' and the 'TCO calculator' are not direct methods to optimize storage costs. Aggregate deduplication is not as granular as volume deduplication, and the TCO calculator is a tool for estimating total cost, not a method for optimization.
NetApp Cloud Volumes ONTAP provides several storage efficiency features that help optimize cloud storage costs. Two of the key methods for reducing costs are:
Thin Provisioning: This feature allows users to allocate more storage capacity than is physically available. Instead of reserving full storage at the time of volume creation, space is only consumed as data is written. This reduces upfront costs and optimizes storage use by delaying actual storage allocation until necessary, making it cost-effective.
Volume Deduplication: Deduplication removes redundant copies of data within a volume, reducing the total storage footprint. By eliminating duplicate blocks of data, volume deduplication significantly cuts down on the amount of storage consumed, leading to lower storage costs in the cloud environment.
Other options like 'aggregate deduplication' and the 'TCO calculator' are not direct methods to optimize storage costs. Aggregate deduplication is not as granular as volume deduplication, and the TCO calculator is a tool for estimating total cost, not a method for optimization.



Question 5

When considering security for Azure NetApp Files, what is a key security consideration to avoid a breach of confidentiality?


  1. application of network security groups
  2. Virtual Network Encryption
  3. encryption using Kerberos with AES-256
  4. double encryption at rest
Correct answer: D
Explanation:
For securing Azure NetApp Files and ensuring the confidentiality of data, a critical security feature is double encryption at rest. This technique involves encrypting the data twice at rest, once at the storage level using Azure's default encryption and again using NetApp's built-in encryption features such as NetApp Volume Encryption (NVE). Double encryption provides an additional layer of protection, significantly reducing the risk of data breaches or unauthorized access.While network security groups (A) and Kerberos encryption (C) play roles in protecting network traffic and securing authentication, they do not address the need for data encryption at rest, which is critical for confidentiality. Virtual Network Encryption (B) is also related to encrypting network data but doesn't focus on encryption at rest.In highly regulated environments where data confidentiality is paramount, double encryption at rest ensures that even if one encryption layer is compromised, the data remains protected by the second encryption layer, thereby greatly enhancing security.
For securing Azure NetApp Files and ensuring the confidentiality of data, a critical security feature is double encryption at rest. This technique involves encrypting the data twice at rest, once at the storage level using Azure's default encryption and again using NetApp's built-in encryption features such as NetApp Volume Encryption (NVE). Double encryption provides an additional layer of protection, significantly reducing the risk of data breaches or unauthorized access.
While network security groups (A) and Kerberos encryption (C) play roles in protecting network traffic and securing authentication, they do not address the need for data encryption at rest, which is critical for confidentiality. Virtual Network Encryption (B) is also related to encrypting network data but doesn't focus on encryption at rest.
In highly regulated environments where data confidentiality is paramount, double encryption at rest ensures that even if one encryption layer is compromised, the data remains protected by the second encryption layer, thereby greatly enhancing security.



Question 6

A customer has a cloud-first strategy and wants to protect data against ransomware. The customer wants to use the NetApp Autonomous Ransomware Protection feature.
Which solution should the customer use?


  1. NetApp Cloud Volumes ONTAP
  2. Azure NetApp Files
  3. Amazon FSx for NetApp ONTAP
  4. NetApp Cloud Volumes Service
Correct answer: A
Explanation:
To protect data against ransomware, NetApp Cloud Volumes ONTAP offers the NetApp Autonomous Ransomware Protection feature. This feature uses machine learning and data analytics to detect and respond to abnormal file activities, helping prevent ransomware attacks.Azure NetApp Files (B), Amazon FSx for NetApp ONTAP (C), and NetApp Cloud Volumes Service (D) provide robust data services, but Cloud Volumes ONTAP specifically includes the Autonomous Ransomware Protection feature.
To protect data against ransomware, NetApp Cloud Volumes ONTAP offers the NetApp Autonomous Ransomware Protection feature. This feature uses machine learning and data analytics to detect and respond to abnormal file activities, helping prevent ransomware attacks.
Azure NetApp Files (B), Amazon FSx for NetApp ONTAP (C), and NetApp Cloud Volumes Service (D) provide robust data services, but Cloud Volumes ONTAP specifically includes the Autonomous Ransomware Protection feature.



Question 7

A hospital needs to continuously scan a variety of data sources to verify that they are meeting regulatory compliance.
Which NetApp BlueXP cloud services solution should the hospital use?


  1. operational resiliency
  2. digital advisor
  3. classification
  4. ransomware protection
Correct answer: C
Explanation:
For continuously scanning various data sources to ensure regulatory compliance, NetApp BlueXP Classification is the appropriate solution. This service helps organizations identify and classify sensitive data across their environments, ensuring that they meet compliance requirements such as healthcare regulations (HIPAA, for example).Operational resiliency (A) focuses on system reliability, Digital advisor (B) offers system performance insights, and Ransomware protection (D) deals with security threats rather than compliance scanning.
For continuously scanning various data sources to ensure regulatory compliance, NetApp BlueXP Classification is the appropriate solution. This service helps organizations identify and classify sensitive data across their environments, ensuring that they meet compliance requirements such as healthcare regulations (HIPAA, for example).
Operational resiliency (A) focuses on system reliability, Digital advisor (B) offers system performance insights, and Ransomware protection (D) deals with security threats rather than compliance scanning.



Question 8

A customer has an on-premises AFF cluster and needs to replicate a NAS volume to Azure NetApp Files. Which replication technology should the customer use?


  1. NetApp BlueXP copy and sync
  2. NetApp BlueXP tiering
  3. NetApp BlueXP replication
  4. Azure Site Recovery
Correct answer: C
Explanation:
To replicate a NAS volume from an on-premises AFF (All-Flash FAS) cluster to Azure NetApp Files, the customer should use NetApp BlueXP Replication. This replication technology facilitates data synchronization and replication between ONTAP systems and Azure NetApp Files, making it ideal for hybrid cloud data mobility.NetApp BlueXP copy and sync (A) is for file migration, BlueXP tiering (B) is for storage optimization, and Azure Site Recovery (D) is focused on VM disaster recovery, not NAS volume replication.
To replicate a NAS volume from an on-premises AFF (All-Flash FAS) cluster to Azure NetApp Files, the customer should use NetApp BlueXP Replication. This replication technology facilitates data synchronization and replication between ONTAP systems and Azure NetApp Files, making it ideal for hybrid cloud data mobility.
NetApp BlueXP copy and sync (A) is for file migration, BlueXP tiering (B) is for storage optimization, and Azure Site Recovery (D) is focused on VM disaster recovery, not NAS volume replication.



Question 9

Which network configuration is required for NetApp BlueXP to discover an on-premises NetApp cluster?


  1. outbound 443 access to the BlueXP service
  2. inbound 443 access to the cluster-management UF
  3. inbound 443 access from the BlueXP service
  4. outbound 443 access to the Connector IP address
Correct answer: A
Explanation:
For NetApp BlueXP to discover an on-premises NetApp cluster, the network must be configured to allow outbound 443 access to the BlueXP service. Port 443 is used for secure HTTPS communication, and BlueXP needs to establish an outbound connection from the on-premises NetApp cluster to the cloud-based BlueXP service for discovery and management.Inbound 443 access (B and C) is not required for discovery, and outbound 443 access to the Connector IP address (D) is relevant only when interacting with the BlueXP Connector, not for cluster discovery.
For NetApp BlueXP to discover an on-premises NetApp cluster, the network must be configured to allow outbound 443 access to the BlueXP service. Port 443 is used for secure HTTPS communication, and BlueXP needs to establish an outbound connection from the on-premises NetApp cluster to the cloud-based BlueXP service for discovery and management.
Inbound 443 access (B and C) is not required for discovery, and outbound 443 access to the Connector IP address (D) is relevant only when interacting with the BlueXP Connector, not for cluster discovery.



Question 10

A customer has on-premises NetApp systems and wants information about data to migrate to Azure. Which dashboard in NetApp BlueXP digital advisor should the customer use?


  1. Valuable Insights
  2. Health Check
  3. Cloud Recommendations
  4. Keystone Advisor
Correct answer: C
Explanation:
To get insights about which data to migrate from on-premises NetApp systems to Azure, the customer should use the Cloud Recommendations dashboard in NetApp BlueXP Digital Advisor. This dashboard analyzes the onpremises environment and provides recommendations on which workloads or datasets are best suited for migration to the cloud, such as to Azure.Other dashboards like Valuable Insights (A) and Health Check (B) provide general system health and performance information, while Keystone Advisor (D) relates to NetApp's subscription-based storage offering.
To get insights about which data to migrate from on-premises NetApp systems to Azure, the customer should use the Cloud Recommendations dashboard in NetApp BlueXP Digital Advisor. This dashboard analyzes the onpremises environment and provides recommendations on which workloads or datasets are best suited for migration to the cloud, such as to Azure.
Other dashboards like Valuable Insights (A) and Health Check (B) provide general system health and performance information, while Keystone Advisor (D) relates to NetApp's subscription-based storage offering.









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