Because of that, Duncan and I decided we will give away 4 e-books each. If you want to win one then please let us know why you feel you deserve to win a copy using the hashtag #essentialvirtualsan on twitter.
Duncan and I will decide which 8 tweets will win an eBook, and of course we will favor the ones that make us laugh – it’s as simple as that!
So just to be clear:
Tweet why you think you deserve the book
Use the hashtag #essentialvirtualsan
The 8 winners will be announced Friday, August 8th, 2014.
I just learnt this morning that the paper edition of the Essential Virtual SAN (VSAN) book that I wrote with my colleague and good pal Duncan Epping is now available. The e-book and kindle versions were available a couple of weeks ago, but its great to see the paper edition hit the shelves. The book will hopefully have all you need to get you up and running with VSAN, including architecture details and design considerations. We tried to include everything that someone involved in VSAN administration would need.
I can now appreciate the time and effort that authors put into writing books. This is my first book, and although I had written a number of white papers and presentations in the past, this was something very new for me. Thanks again to Duncan for his help with getting this project up and running, to Christos and Paudie for reviewing the content, and of course to VMware Press for agreeing to publish it. I hope you find the book useful. Go VSAN!
I was involved in an interesting thread recently with one of our VSAN partners regarding disk sizes used in VSAN, and what impact smaller drives may have. In an earlier post, I discussed reasons why VSAN would stripe a VMDK storage object even though a stripe width was not requested in the VM Storage Policy – Why is my Storage Object striped?
In that post, I highlighted the fact that if the VMDK storage object is too big to fit onto the free space of a single hard disk, then it will automatically be striped across multiple hard disks. However there is another VSAN object that disks size may also impact – the VM Home Namespace.
In this next test of vSphere Data Protection (VDP) interoperability, I wanted to see if a restored vCenter Server appliance would still be able to work with pre-configured vCloud Suite products such as vCenter Operations (vCops), vCloud Automation Center (vCAC), vSphere Orchestrator VCO and Network Virtualization (NSX). All of these products were running to some extent in my environment; vCAC had a simple blueprint for VM deployment, VCO had a simple workflow for renaming a VM and NSX included an Edge device providing a DHCP service. If all of this functionality was still in place post restore, then the backup and restore will have worked. Testing was done with vCenter Server appliance version 5.5U1 and VDP version 126.96.36.199.
In this third article in the series of backing up the vCloud Suite, we turn our attentions to NSX, VMware’s Network Virtualization product. Before starting, I should point out that NSX has a recommended way of backing up and restoring configuration information via the use of an FTP server, which you need to configure in your infrastructure to hold this exported metadata. However this exercise looks at how you might be able to use VDP to back up and restore an NSX configuration using image level backups. Once again, I wanted to see whether I could restore the NSX environment to a particular point in time, in-place and also by restoring to a new location. This is the same infrastructure that I used for backing up and restoring vCops and backing up and restoring vCAC and VCO. On this occasion, I was using NSX version 6.0.4, vCenter 5.5U1 and VDP version 188.8.131.52.
This post is a follow on to a previous post I did on vCops and VDP interop. In this scenario, I am going to try to use vSphere Data Protection (VDP), which is VMware’s Backup/Restore product, to back up and restore a vCloud Automation Center (vCAC) v6.0.1. and vCenter Orchestration (VCO) v5.5 deployment.
In this particular scenario, there are nine virtual machines making up my vCAC and VCO deployment. VCO has been deployed in a HA configuration, which accounts for two VMs. The others make up the DEM, Manager, Web, vCAC, SSO and various databases for vCloud Automation Center.
I was in a conversation with one of my pals over at Tintri last week (Fintan), and he observed some strange behaviour when provisioning VMs from a catalog in vCloud Director (vCD). When he disabled Fast Provisioning, he expected that provisioning further VMs from the catalog would still be offloaded via the VAAI-NAS plugin. All the ESXi hosts have the VAAI-NAS plugin from Tintri installed. However, it seems that the provisioning/cloning operation was not being offloaded to the array, and the ESXi hosts resources were being used for the operation instead. Deployments of VMs from the catalogs were taking minutes rather than seconds. What was going on?