Joe Cooper and I (Stephen Wagner), talk about AI Prototyping and AI Development with NVIDIA vGPU powered Virtualized Workstations.
Using NVIDIA vGPU technology, NIMs (NVIDIA Inference Microservices), and VDI you can enable high powered, private, and secure AI Development Workstations.
These environments can be spun up on your VMware infrastructure using NVIDIA datacenter GPUs, NVIDIA NIMs, and using Omnissa Horizon or Citrix for delivery.
Thanks for watching!
A friendly reminder that it’s time to upgrade (or start planning) since VMware vSphere 7 is reaching end of life on October 2nd, 2025. This means that if you’re running VMware vSphere 7 in your environment, VMware will no longer release updates, security patches, and/or provide support for your environment.
Please note: You will require an active subscription to be entitled to, and also have access to the updates and upgrades. You’ll also want to check the interopability and HCLs to make sure your hardware is supported.
It’s never been a better time to upgrade (literally) with the pending EOL. For customers running VMware vSphere Standard (VVS) or those with with VMware vSphere Enterprise Plus subscriptions, your upgrade path will be to vSphere 8.
For customers who are currently licensed for VMware vSphere Foundation (VVF), or VMware Cloud Foundation (VCF) subscriptions and licensing, you’ll be able to either upgrade to vSphere 8 products, or the nice and shiny new VMware vSphere Foundation 9 (VVF 9), or VMware Cloud Foundation 9 (VCF 9).
You’ll always want to upgrade your VMware vCenter instance first (except when using VCF, as the procedures are different and out of the scope of this post). Just a reminder that this is a generally easy process where, using the installer, a new VM is deployed using the vCenter Server Installer ISO. The workflow then migrates and upgrades your data to the new appliance, shutting down the old.
Always make sure to perform a VAMI file-based backup, in addition to a snapshot of the previous vCSA appliance. I usually disabled DRS and HA before the backup/snapshot as well, as this allows easier recovery in the event of a failed vCenter upgrade.
When it comes to your VMware ESXi hosts (as I recommend to customers), use vLCM (VMware Lifecycle Management) and Image Based Updates if possible as this makes the upgrade a breeze (and supports QuickBoot). Note that baselines updates are deprecated.
If the hardware in your cluster comes from a single vendor (example, HPE, Cisco, Dell), you can use cluster based (and cluster focused) vLCM Image based updates.
When you change your cluster to Image based Updates (irreversable for the cluster once created), you’ll be able to choose your target ESXi version, specify the Vendor add-on, and then customize additional components (such as adding the NVIDIA vGPU Host Driver and GPU Management daemon, storage plugins, etc).
After creating your image, you’ll then be able to apply it to your hosts. This can be used for minor updates, and also larger upgrades (such as VMware ESXi 7 to 8).
In some scenarios, you may encounter an issue where the Veeam WAN Accelerator service fails to start.
This will cause backup and backup copy jobs to fail that use the Veeam WAN Accelerator, which is how this issue is usually first diagnosed.
In this post I’ll explain the problem, what can cause it, and how to resolve the issue.
When this issue occurs, and when a Backup or Backup Copy job runs, it will usually first fail with the following error from the Veeam console:
Error: The RPC server is unavailable. RPC function call failed. Function name: [InvokerTestConnection]. Target machine: [IP.OF.WAN.ACC:6464].
Failed to process (VM Name).See below for a screenshot of the example:
From the error above, the next step is usually to check the logs to find out what’s happening. Because this Backup Copy job uses the WAN accelerator, we’ll look at the log for the Veeam WAN Accelerator Service.
[23.11.2024 11:46:24.251] < 3440> srv | RootFolder = V:\VeeamWAN
[23.11.2024 11:46:24.251] < 3440> srv | SendFilesPath = V:\VeeamWAN\Send
[23.11.2024 11:46:24.251] < 3440> srv | RecvFilesPath = V:\VeeamWAN\Recv
[23.11.2024 11:46:24.251] < 3440> srv | EnablePerformanceMode = true
[23.11.2024 11:46:24.255] < 3440> srv | ERR |Fatal error
[23.11.2024 11:46:24.255] < 3440> srv | >> |boost::filesystem::create_directories: The system cannot find the path specified: "V:\"
[23.11.2024 11:46:24.255] < 3440> srv | >> |Unable to apply settings. See log for details.
[23.11.2024 11:46:24.255] < 3440> srv | >> |An exception was thrown from thread [3440].
[23.11.2024 11:46:24.255] < 3440> srv | Stopping service...
[23.11.2024 11:46:24.256] < 3440> srv | Stopping retention thread...
[23.11.2024 11:46:24.257] < 4576> | Thread started. Role: 'Retention thread', thread id: 4576, parent id: 3440.
[23.11.2024 11:46:24.258] < 4576> | Thread finished. Role: 'Retention thread'.
[23.11.2024 11:46:24.258] < 3440> srv | Waiting for a client('XXX-Veeam-WAN:6165')
[23.11.2024 11:46:24.258] < 3440> srv | Stopping server listening thread.
[23.11.2024 11:46:24.258] < 3440> srv | Stopping command handler threads.
[23.11.2024 11:46:24.258] < 3440> srv | Command handler threads have stopped.
[23.11.2024 11:46:24.258] < 4580> | Thread started. Role: 'Server thread', thread id: 4580, parent id: 3440.
In the Veeam WAN Service log file above, you’ll note a fatal error where the service is unable to find the paths configured, which caused the service to halt and stop.
In some configurations, iSCSI is used to access Veeam backup repository storage hosted on iSCSI targets. Furthermore, in some iSCSI configurations special vendor plugins are used to access the iSCSI storage, and configure items like MPIO (multipath input output), which can take additional time to initialize.
In this scenario, the Veeam WAN Accelerator Service was starting before the Windows iSCSI service, MPIO Service, and Nimble Windows Connection Manager plugin had time to initialize, resulting in the WAN accelerator failing because it couldn’t find the directories it was expecting.
To resolve this issue, we want the Veeam WAN Accelerator Service to have a delayed start on the Windows Server operating system bootup sequence.
As per the screenshot below:
The Veeam WAN Accelerator Service will now have a delayed start on system bootup, allowing the iSCSI initiator to establish and mount all iSCSI Target block devices, before starting the WAN service.
I’m finally back at home after an amazing week at VMware Explore 2024, in Las Vegas!
As always, VMware Explore 2024 was the place to be, and THE most important conference of the year, at least for me, my clients, and those who need to be in the know.
See below for my insights on the conference, information and links, as well as some videos I created to talk about!
This was the first VMware Explore with VMware by Broadcom. With the acquisition of VMware by Broadcom, there’s been a number of changes they have implemented, including their new strategy moving forward, SKU consolidation, as well as solution refinement.
The focus this year was on VCF, also known as VMware Cloud Foundation, with the announcement of VCF 9.0, and enabling technologies like AI (Artificial Intelligence) with VMware Private AI Foundation, and NVIDIA AI enterprise.
For me, VMware Explore is important because of a number of different things. A brief of this is:
I can’t recommend enough how important VMware Explore is for career development. It’s a face paced conference, and you won’t have time to do everything you plan and want to, but you just need to go with the flow and let it happen naturally.
There was a number of AMAZING technical sessions, which are all available via the VMware Explore content catalog (click the link to view).
You can also view various community sessions, by going to VMware TV Live (click for link).
I hope you enjoy the videos I created covering VMware Explore during the experience, and after.
In this video, I sat down with Matt Heldstab, Global VP for VMUG (VMware User Group), to talk about the importance of community, VMUG, and how VMware Explore brings everyone together in person. This provides opportunities to reconnect with old friends, make new friends, and share a passion of technology (and VMware By Broadcom solutions).
On Day 1, I chatted with Daniel Keer (owner and writer at theDXT), to talk about his experience at VMware Explore. This was Daniel’s first VMware conference, and large tech conference for that matter.
Daniel was having a blast, commenting on how he was able to connect with VCF experts even before the conference started, and how friendly and welcoming everyone was.
Daniel and I covered:
I was able to catch up with Daniel later, and he told me he was enjoying back to back technical sessions, and VMware Hands on Labs.
Johan van Amersfoort (owner/writer at vHojan.nl – Johan van Amersfoort) is a very well known presenter, often presenting on technologies such as EUC (with Omnissa Horizon), and now on AI and the endeavors both in his own home lab, as well as the work his organization is doing for customers with AI.
Johan and I talked about:
At VMware Explore, Johan had two sessions (click the links to view):
Getting back home, there was a lot to take in and process, however I wanted to do a quick debrief and takeaway video.
In this video, I talk about:
Towards the end of the video, I also shared my thoughts on the last session I attended, called “GenAI-Powered Insights in Avi LB: A Journey into Next-Gen Observability“. You can click on the session name to find out more information and watch the video.
The session covered a real-world practical use of AI in IT, using an LLM to provide insight, analysis, administration, monitoring, and management of the VMware Avi Loadbalancer, using LLMs, with the choice of using Google Gemini in the cloud, or your own LLM on-prem using NVIDIA AI Enterprise, NIMs, and VMware Private AI Foundation.
Cool stuff!
Moving forward, I’m aligned with and believe in the strategy of Private Cloud first, enabling technologies such as AI, while providing existing solutions such as compute.
I can’t wait for VMware Explore 2025!
I’m happy to announce today that you can now deploy vGPU Mixed Size Virtual GPU types with VMware vSphere 8U3, also known as “Heterogeneous Time-Slice Sizes” or “Heterogeneous vGPU types”.
VMware vSphere 8U3 was released yesterday (June 26th, 2024), and brought with it numerous new features and functionality. However, mixed vGPU types deserves it’s own blog post as it’s a major game-changer for those who use NVIDIA vGPU for AI and VDI workloads, including Omnissa Horizon.
When deploying NVIDIA vGPU, you configure Virtual GPU types that provide Workstation RTX (vWS Q-Series), Virtual PC (vPC B-Series), or Virtual Apps (vApps A-Series) class capabilities to virtual machines.
On top of the classifications above, you also needed to configure the Framebuffer memory size (or VRAM/Video RAM) allotted to the vGPU.
Historically, when you powered the first VM, the physical GPU that provides vGPU, would then only be able to serve that Virtual GPU type (class and Framebuffer size) to other VMs, locking all the VMs on running on that GPU to same vGPU type. If you had multiple GPUs in a server, you could run different vGPU types on the different physical GPU, however each GPU would be locked to the vGPU type of the first VM started with it.
Earlier this year, NVIDIA provided the ability to deploy heterogeneous mixed vGPU types through the vGPU drivers, first starting with the ability to run different classifications (you could mix vWS and vPC), and the later adding support for mixed-size frame buffers (example, mixing a 4Q and 8Q profile on the same GPU).
While the NVIDIA vGPU solution supported this, VMware vSphere did not immediately add support so it couldn’t take advantage of this until the new release of VMware vSphere 8U3, VMware vCenter 8U3, and VMware ESXi 8U3.
To configure different classifications (vWS mixed with vPC), it requires no configuration other than using a host-driver and guest-driver that support it, however to use different sized framebuffers, it needs to be enabled on the host.
To Enable vGPU Mixed Size Virtual GPU types:
Once you configure this, you can now deploy mixed-size vGPU profiles.
When you SSH in to your host, you can query to confirm it’s configured:
[root@ESXi-HOST:~] nvidia-smi -q
vGPU Device Capability
Fractional Multi-vGPU : Supported
Heterogeneous Time-Slice Profiles : Supported
Heterogeneous Time-Slice Sizes : Supported
vGPU Heterogeneous Mode : EnabledIt’s supported, and enabled!
Please note the following: