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  1. Home
  2. IT Analytics Help
  3. Section V. Report Reference
  4. Array Capacity Utilization Reports
  5. NetApp Cluster-Mode Summary

NetApp Cluster-Mode Summary

This report enables Unified Visibility with a high-level summary of the capacities and performance of clusters in your environment. Use this as a starting point for navigating NetApp Cluster environments. Note that all performance numbers are for the last 24 hours, as of the last data collection. Cluster Mode arrays only.

Explore your data center using customizable report templates or by using parts of your IT infrastructure as entry points. Use Search to find reports, templates and dashboards across the portal.

Use the Reports tab to examine the catalog of templates, dashboards and reports - organized by products along with user-created, and system folders. This report is located here:

Capacity Manager > Array Capacity & Utilization > NetApp Cluster-Mode Summary

Table: NetApp Cluster-Mode Summary

Column name

Description

Cluster Name

Name of the storage array.

See Array Capacity and Utilization (NetApp Cluster).

Remote Cluster Name

The current name of the peer cluster.

Associated Objects

# Nodes

Number of configured nodes in the cluster.

See NetApp Cluster-Mode Node Summary.

# Vservers

Number of configured Vservers in the cluster.

See NetApp Cluster-Mode Vserver Summary.

# FC Ports

Number of Fibre Channel Ports in the array.

See NetApp Cluster-Mode FC Array Port Utilization.

# iSCSI Ports

Number of iSCSI Ports in the array. Drill down to NetApp Cluster-Mode Array iSCSI Port Utilization.

# CIFS Shares

Number of CIFS in the cluster.

See NetApp CIFS Summary .

# NFS Exports

Number of NFS in the cluster.

See NetApp Cluster-Mode NFS Summary.

# Disks

Number of physical disks in the array.

See NetApp Cluster-Mode Disk Summary.

# Hosts

Total number of connected hosts via all configured nodes.

Capacity

Internal

Total Capacity after RAID overhead. Usable capacity refers to capacity that has already been carved into RAID groups. This is the physical, usable capacity after RAID overhead. Dell Compellent: Sum of LUN capacity. EMC CLARiiON: Sum of usable capacity of all Array Groups and usable capacity of all storage pools. EMC Symmetrix: Sum of pool usable capacity + sum of thick LUN capacity. HP EVA, IBM SVC: Sum of allocated capacity of all Array Groups HP 3PAR: Sum of allocated capacity of all Array Groups. The total capacity for all Logical Drives (LDs). EMC VNX: If the embedded CLARiiON is not collecting, this usable internal capacity is the total capacity of all Disk Volumes. HDS: Sum of the usable capacity of all Array Groups. HDS H-NAS: Total capacity of all System Drives. IBM Enterprise: Total capacity of all Ranks. An IBM Rank is logical storage, enabling storage provisioning that is not constrained by the size of an array. One or more arrays comprise an IBM Rank, forming logically contiguous storage. Note that IBM often refers to Arrays as RAID Arrays. IBM Subsystem: Total capacity of all Array Groups. IBM XIV: Configure capacity of the array. NetApp: If raw capacity is greater than 0, this will value is the total capacity of all Aggregates. Values are stored as KiB in the database and rendered according to your user profile preferences.

External

Total Capacity from back-end, external volumes. Usable capacity refers to capacity that has already been carved into RAID groups. This usable external capacity is the total capacity of all the Array Groups, where the array's is_external flag is set to Y. Derived from daisy-chained external storage (back-end systems), this is array group capacity that does not have physical devices (PDEVs) in this storage array. This is the capacity that is allocated to a front-end array. For EMC VNX (CLARiiON) arrays, if the embedded CLARiiON is in use, this value represents the total capacity of all disk volumes. For NetApp, if this is a vFiler, this value represents the total capacity of all volumes. If the raw capacity is 0, this will be the total capacity of all Aggregates. Values are stored as KiB in the database and rendered according to your user profile preferences.

Allocated

Total Capacity for array groups and storage pools in the array that are carved RAID. Dell Compellent: Sum of LUN active and replay capacity. EMC CLARiiON: Sum of usable capacity of all Array Groups and consumed capacity of all Storage Pools, minus the free capacity of all Array Groups. EMC Symmetrix: Sum of (pool usable capacity - pool free capacity) + sum of thick LUN capacity HP 3PAR, HP EVA, IBM Enterprise, IBM Subsystem: Sum of the total capacity of all Allocated LUNs. EMC VNX: Used capacity of all disk volumes. HDS: (logical capacity + external capacity - external free capacity) of all Array Groups - virtualized capacity. HDS H-NAS: Used capacity of all system drives. IBM SVC: Sum of total capacity of all Allocated LUNs - virtualized capacity. IBM XIV: Allocated capacity of the array. NetApp: If a vFiler, this is the used capacity of all volumes; otherwise, this is the used capacity of all Aggregates, minus the virtualized capacity. Values are stored as KiB in the database and rendered according to your user profile preferences.

Available

Available = Usable Free Capacity + Available Thin Pool Capacity

Usage

Usage = Allocated/(Internal + External)

# Aggr

Number of aggregates in the cluster.

Capacity

Total Capacity = Internal + External

Used

Sum of the file system used capacity of all the aggregates. Values are stored as KiB in the database and rendered according to your user profile preferences.

Available

Sum of the file system available capacity of all the aggregates. Values are stored as KiB in the database and rendered according to your user profile preferences.

Usage

Usage = Used/Available

Volumes

# Volumes

Number of volumes in the storage system.

# Flexes

Number of flex volumes in the storage system.

# Inf

Number of infinite volumes in the storage system.

Capacity

Sum of the capacity of all the volumes. Values are stored as KiB in the database and rendered according to your user profile preferences.

Used

Sum of the used capacity of all the volumes. Values are stored as KiB in the database and rendered according to your user profile preferences.

Available

Sum of the available capacity of all the volumes. Values are stored as KiB in the database and rendered according to your user profile preferences.

Usage

Usage = Used/Capacity

LUNs

# LUNs

Number of logical units (LUNs) in the storage array. Hosts can write to these LUNs.

Capacity

Total capacity of the logical units in the array. Values are stored as KiB in the database and rendered according to your user profile preferences.

# Allocated

Number of allocated logical units (LUNs) in the storage array. Sum of the capacity of all the allocated LUNs. If a LUN has a storage path to a host, it is an allocated LUN. These LUNs typically are configured as volumes on the host and are dedicated to an application.

Alloc Capacity

Total capacity of the logical units in the array that have paths assigned. Values are stored as KiB in the database and rendered according to your user profile preferences.

# Unallocated

# Unallocated = # LUNs - # Allocated

Unalloc Capacity

Unalloc Capacity = Capacity - Alloc Capacity

Usage

Usage = Alloc Capacity/Capacity

Performance

Avg Processor Busy

Average processor utilization across all processors in the system from last data collection cycle.

CPU Busy

Percentage of time one or more processors is busy in the system from last data collection cycle.

Sys Read Resp Time (ms)

System Read Response Time: Average response time for the Cluster in aggregate as of the last data collection poll. Includes all active Node read operations.

Sys Write Resp Time (ms)

System Write Response Time: Average response time for the Cluster in aggregate as of the last data collection poll. Includes all active Node write operations.

Read OPS

Read operations per second from the last data collection cycle.

Write OPS

Write operations per second from last data collection cycle.

CIFS OPS

CIFS operations per second from last data collection cycle.

NFS OPS

NFS operations per second from last data collection cycle.

FCP OPS

Fibre channel protocol (FCP) operations per second from the last data collection cycle.

iSCSI OPS

iSCSI operations per second from the last data collection cycle.

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