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Refer to the Exhibit:
An administrator needs to create two virtual machines: VM4 and VM5 that leverage the memory over-commit feature.
Once VM4 is created and running, the administrator notices that it uses only 28GB of RAM.
What will be the maximum RAM that can be allocated to VM5 so that it can be powered on?
See the explanation below.
Understanding the Exhibit & Memory Allocation
The host has 128GB of physical RAM.
The current memory allocation across three VMs (VM1, VM2, VM3) is 128GB, but only 92GB is actually utilized.
This means there is 36GB of unutilized memory available for allocation.
Step-by-Step Breakdown
Existing Memory Usage Before Adding VM4
Total Physical RAM: 128GB
Used by running VMs (VM1, VM2, VM3): 92GB
Unutilized Memory Available: 36GB
After Creating and Running VM4
VM4 is allocated memory but only utilizes 28GB.
The table does not show VM4's allocated RAM, but assuming it was given a reasonable allocation, it must have been taken from the 36GB unutilized memory pool.
If VM4 uses 28GB, the remaining unutilized memory is now (36GB - 28GB) = 8GB.
Maximum Memory Allocation for VM5
Since only 8GB remains unutilized, the maximum memory VM5 can be allocated while still allowing it to power on is 8GB.
Evaluating the Answer Choices
(A) 4GB (Incorrect)
More memory (8GB) is available, so limiting to 4GB is unnecessary.
(B) 8GB (Correct)
The remaining unutilized memory after VM4 is 8GB, so VM5 can be allocated up to 8GB while ensuring it can power on.
(C) 16GB (Incorrect)
Only 8GB is left, so 16GB is not possible.
(D) 32GB (Incorrect)
There is not enough unutilized memory to allocate 32GB.
Key Concept: Nutanix Memory Overcommit
Nutanix AHV supports memory overcommit, meaning VMs can be allocated more memory than physically available using memory ballooning and swapping.
However, to power on VM5 without impacting performance, it must fit within the available unutilized memory, which is 8GB.
A consultant is configuring syslog monitoring and wants to receive CRITICAL logs from the Audit module.
Which severity level setting should be configured to get the desired output?
See the explanation below.
Syslog severity levels follow a standard numerical system, where lower numbers indicate higher severity.
Option B (Severity Level 2) is correct:
Level 2 = CRITICAL Used for serious conditions requiring immediate attention.
Audit logs often generate Critical logs related to security, access violations, or major failures.
Options A (0), C (5), and D (7) are incorrect:
0 = Emergency (Too severe, only used for full system failures).
5 = Notice (Not critical, used for general system events).
7 = Debug (Not relevant for critical logs).
Nutanix Security Guide Syslog Integration and Severity Levels
Nutanix KB Configuring Syslog for Prism Central Audit Logs
An administrator is managing a 4-node cluster with different hardware generations:
Two G5 Nodes 2 CPUs (12 cores), 1 SSD (1.92 TB), 2 HDDs (4 TB).
Two G7 Nodes 2 CPUs (16 cores), 2 SSDs (1.92 TB), 4 HDDs (4 TB).
The cluster will be decommissioned from production and used for Disaster Recovery (DR) purposes with an RPO of 1 hour.
What is the best approach when replacing G5 nodes without impacting performance?
See the explanation below.
For optimal Disaster Recovery performance, new nodes must match or exceed the storage performance of existing nodes.
Option A (New node must have at least 2 SSDs) is correct:
Since the G7 nodes have two SSDs, replacing G5 nodes with at least 2 SSDs ensures consistent SSD cache and performance.
Option B is incorrect:
G7 or G8 nodes may help, but storage performance is more critical for DR.
Option C is incorrect:
CPU core count does not impact DR storage performance as much as SSD capacity.
Option D is incorrect:
Hybrid nodes are already in use, but SSDs must match for performance balance.
Nutanix Hardware Guide Choosing Nodes for Hybrid and DR Clusters
Nutanix KB Balancing Storage Across Different Hardware Generations
How can a VM or Volume Group (VG) be associated with a Storage Policy?
See the explanation below.
Storage Policies in Nutanix are applied through Categories, allowing policy-based automation and enforcement.
Option D (Assign the VM or VG to the same Category as the Storage Policy) is correct:
Nutanix applies Storage Policies based on VM Categories, enabling flexibility in policy enforcement.
Option A is incorrect:
Storage Policies are not directly assigned at the VM or VG level---they apply through Categories.
Option B is incorrect:
Policies must be assigned to Categories, not directly to individual VMs/VGs.
Option C is incorrect:
Migrating to a storage container does not automatically apply a Storage Policy.
Nutanix Storage Management Guide Using Categories for Policy-Based Storage Management
Nutanix KB Best Practices for Applying Storage Policies to VMs
An administrator wants to clean up inactive VMs using VM Efficiency in Nutanix.
The business requires that VMs must be inactive for 120 days before deletion.
A Playbook was created to delete Dead and Zombie VMs with a 99-day wait period after they are marked inactive.
How long will have passed before these VMs are deleted? (Choose two.)
See the explanation below.
Dead VMs and Zombie VMs are different classifications of inactive VMs in Nutanix, and their deletion timelines depend on Playbook configuration.
Dead VMs Considered inactive after 30 days, then must wait 99 more days before deletion.
Total time: 30 + 99 = 129 days.
(Option C is correct).
Zombie VMs Considered inactive after 30 days, then must wait 99 more days before deletion.
Total time: 30 + 99 = 129 days.
(Option B is correct).
Nutanix Prism Central Guide Using VM Efficiency to Manage Inactive VMs
Nutanix KB Configuring Playbooks for Automatic VM Cleanup
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