Nutanix Data Protection Capabilities

There is a lot of misinformation being spread in the HCI space about Nutanix data protection capabilities. One such example (below) was published recently on InfoStore.

Evaluating Data Protection for Hyperconverged Infrastructure

When I see articles like this, It really makes me wonder about the accuracy of content on these type of website as it seems articles are published without so much as a brief fact check from InfoStore.

None the less, I am writing this post to confirm what Data Protection Capabilities Nutanix provides.

  • Native In-Built Data protection

Prior to my joining Nutanix in mid-2013, Nutanix already provided a Hypervisor agnostic Integrated backup and disaster recovery solution with centralised consumer- grade management through our PRISM GUI which is HTML 5 based.

The built in capabilties are flexible and VM-centric policies to protect virtualized applications with different RPOs and RTOs with or without application consistency.

The solution also supports Local, remote, and cloud-based backups, and synchronous and asynchronous replication-based disaster recovery solutions.

Currently supported cloud targets include AWS and Azure as shown below.

CloudBackup

The below video which shows in real time how to create Application consistent snapshots from the Nutanix PRISM GUI.

Nutanix can also perform One to One, One to Many and Many to One replication of application consistent snapshots to onsite or offsite Nutanix clusters as well as Cloud providers (AWS/Azure), ensuring choice and flexibility for customers.

Nutanix native data protection can also replicate between and recover VMs to clusters of different hypervisors.

  • CommVault Intellisnap Integration

Nutanix also provides integration with Commvault Intellisnap which allows existing Commvault customers to continue leveraging their investment in the market leading data protection product and to take advantage of other features where required.

The below shows how agentless backups of Virtual Machines is supported with Acropolis Hypervisor (AHV). Note: Commvault is also fully supported with Hyper-V and ESXi.

By Commvault directly calling the Nutanix Distributed Storage Fabric (NDSF) it ensures snapshots are taken quickly and efficiently without the dependancy on a hypervisor.

  • Hypervisor specific support such as VMware API Data Protection (VADP)

Nutanix also supports solutions which leverage VADP, allowing customers with existing investment in products such as Veeam & Netbackup to continue with their existing strategy until such time as they want to migrate to Nutanix native data protection or solutions such as Commvault.

  • In-Guest Agents

Nutanix supports the use of In-Guest agents which are typically very inefficient with centralised SAN/NAS storage but due to data locality and NDSF being a truly distributed platform, In-Guest Incremental forever backups perform extremely well on Nutanix as the traditional choke points such as Network, Storage Controllers & RAID packs have been eliminated.

Summary:

As one size does not fit all in the world of I.T, Nutanix provides customers choice to meet a wide range of market segments and requirements with strong native data protection capabilities as well as 3rd party integration.

Nutanix Acropolis Hypervisor (AHV) Intelligent VM Load Balancing at Power On

I thought I would share a quick demonstration showing how Nutanix Acropolis Hypervisor (AHV) load balances VMs at power on to ensure optimal performance.

This is just one of the many seemingly simple functions of AHV to ensure optimal performance throughout the cluster. Its pretty simple, when AHV issues a Power On request it queries the Acropolis Master which continually receives compute (CPU/RAM) and Storage (Capacity/Performance) data from the Acropolis Slaves (other nodes) in the cluster.

When the Acropolis Master receives the power on request it simply looks for the node with the lowest utilization and issues the command to power on the VM.

This is a simple, proactive way of minimising the chance of compute contention within a cluster.

Related Articles:

  1. Why Nutanix Acropolis hypervisor (AHV) is the next generation hypervisor

Microsoft Exchange 2013/2016 Jetstress Performance Testing on Nutanix Acropolis Hypervisor (AHV)

Virtualization of business critical application has been common place for a number of years, however it is less well known that these business critical applications are also regularly deployed on Nutanix Hyper-converged Infrastructure (HCI) as I discuss in the following post:

Think HCI is not an ideal way to run your mission-critical x86 workloads? Think again!

I am regularly involved in discussions with customers about how well MS Exchange and other business critical applications perform on Nutanix especially during:

  • Storage software upgrades (Acropolis Base Software)
  • Hypervisor upgrade
  • VMs Migrations (e.g.: vMotion)
  • Failure scenarios.

Customers also ask how Data Locality works with workloads like Exchange which have large amounts of data, what overheads are there if any, how much data is served local vs remote and so on.

As a result, I have created the following series of Videos demonstrating the following:

  • Setting a baseline for Jetstress performance on Node 1
  • Migrating VM to a 2nd node and repeating the Jetstress performance test
  • Migrating VM to a 3rd node and repeating the Jetstress performance test
  • Migrating VM to a 4th node and repeating the Jetstress performance test
  • Migrating the VM back to the 1st node and repeating the Jetstress performance test
  • Repeating the test on the 2nd, 3rd and 4th nodes (second Jetstress run for comparison)
  • Performing a Jetstress performance test on a VM with the local Nutanix Controller VM (CVM) offline (to simulate a CVM failure, Storage Maintenance or Upgrade scenarios)

During the above videos I will show advanced Nutanix Distributed Storage Fabric (NDSF) performance statistics such as how Write I/O is being served and What percentage of data is being served locally verses remotely.

Enjoy the videos:

Part 1 – Setting a baseline for Jetstress performance on Nutanix AHV

Part 2 – Migrating Jetstress to 2nd node and repeating Jetstress test

Part 3 – Migrating Jetstress to 3rd node and repeating Jetstress test

Part 4 – Migrating Jetstress to 4th node and repeating Jetstress test

Part 5 through 8 – Repeat Jetstress Tests on all four nodes. (Coming soon)

Part 9 – Take the local Nutanix Controller VM (CVM) offline and repeat test (Coming soon)

Part 10 – Scale out Performance Validation (Coming soon)

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