VxRail

Dell VxRail is available in 1U or 2U rack building blocks. It is built on VMware vSAN technology and Dell Technologies software. Add VMware Horizon Universal Subscription or Horizon Enterprise Edition (TERM) to license your VxRail environment for a full VDI deployment.

The following figure shows the VxRail components:

AMD-based VxRail platforms are equipped with 2nd or 3rd Gen AMD EPYC processors. You can deploy a cluster with as few as three nodes, providing an ideal environment for small deployments. To achieve full vSAN high availability (HA), the recommended starting block is four nodes. VxRail can support workloads with high storage I/O requirements using storage-dense nodes, graphics-heavy VDI workloads with GPU hardware coupled with virtual GPU software, and entry-level nodes for remote and branch office environments.

With VxRail you can start small and scale as your requirements increase. Single-node scaling and low-cost entry point options give you the freedom to buy the right amount of storage and compute resources to start and then add capacity to support growth. A single-node VxRail P675 can be configured with 8 to 65 CPU cores per node, up to 2 TB of memory, and supports a maximum of 153 TB of storage. A 64-node all-flash cluster delivers a maximum of 4,096 cores, 128 TB of memory, and 9,792 TB of raw storage. The following table shows the platforms that are recommended for VDI:

VxRail Manager, which is available on VxRail only, is the primary deployment and element manager interface for VxRail. VxRail Manager simplifies the entire life cycle from deployment through management, scaling, and maintenance. It also enables single-click upgrades and dashboard monitoring for health, events, and physical views.

The following figure shows the VxRail P675 front view with cache and capacity storage tiers:

The following figure shows the VxRail P675 rear view with network, I/O, and GPU options:

Dell vSAN Ready Nodes

Dell vSAN Ready Nodes are pre-validated Dell server configurations that reduce the complexity of deploying vSAN technology. vSAN Ready Node configurations are listed in the vSAN Ready Node compatibility guide on the VMware website. vSAN Ready Nodes provide more customized hardware and platforms to meet your data center needs.

Because vSAN Ready Nodes do not offer life cycle management and additional bundled software, Dell Technologies recommends customized deployment services and at least three years of ProSupport Plus. Add VMware Horizon Universal Subscription or Horizon Enterprise Edition (TERM) to license your Dell vSAN Ready Nodes for a full VDI deployment.

The following figure shows the Dell vSAN Ready Node R7525 front view with cache and capacity storage tiers:

The following figure shows the Dell vSAN Ready Node R7525 rear view with network, I/O, and GPU options:

VDI-optimized configurations

For graphics-intensive desktop deployments, we recommend the VDI-optimized 2U servers that support GPU hardware.

The Dell VxRail P675 and vSAN Ready Node R7525 can be configured with or without GPUs. Dell Technologies also offers similar configurations in a 1U / 1-node appliance, although fewer graphics configurations are available on these platforms.

We have designated common configurations as Management-Optimized, Density-Optimized, and Virtual Workstation. These designations are outlined in the following tables and are referenced throughout the document.

NVIDIA GPUs

You can configure Dell Validated Designs for VDI with the following NVIDIA GPUs:

• NVIDIA A40—These GPUs provide an increase in performance and multi-workload capabilities for the data center, combining superior professional graphics with powerful compute and AI acceleration to meet today’s design, creative, and scientific challenges. Driving the next generation of virtual workstations and server-based workloads, NVIDIA A40 brings features for ray-traced rendering, simulation, virtual production, and more to professionals anytime, anywhere.
• NVIDIA A16—These GPUs combined with NVIDIA Virtual PC (vPC) or NVIDIA RTX Virtual Workstations (vWS) software enables remote desktops and workstations with the power and performance to tackle any project from anywhere. Purpose-built for high-density, graphics-rich VDI and leveraging the NVIDIA Ampere architecture, the A16 provides double the user density compared to the previous generation, while ensuring the best possible user experience.

Physical network components

Dell Validated Designs for VDI enable flexibility in networking selections. VDI validations have been successfully performed with the following hardware, although several other choices are available:

• Dell Networking S5248F-ON (25 GbE ToR switch)—This switch provides optimum flexibility and cost-effectiveness for demanding compute and storage traffic environments. This ToR switch features 48 x 25 GbE SFP28 ports, 4 x 100 GbE QSFP28 ports, and 2 x 100 GbE QFSP28-DD ports. The S5248F-ON switch supports ONIE for zero-touch installation of network operating systems.
• Dell Networking S4048-ON (10 GbE ToR switch)—This switch optimizes your network for virtualization with a high-density, ultra-low-latency ToR switch that features 48 x 10 GbE SFP+ and 6 x 40 GbE ports (or 72 x 10 GbE ports in breakout mode) and up to 720 Gbps performance. The S4048-ON switch supports ONIE for zero-touch installation of alternate network operating systems.

For more information about these switches, see Dell PowerSwitch S Series 10GbE Switches and Dell PowerSwitch S Series 25/40/50/100 GbE Switches.

VxRail is designed for true linear scaling and uses a leaf-spine network architecture. This architecture consists of two network tiers: an L2 leaf and an L3 spine. Both tiers are based on 100 GbE and non-blocking switches. This architecture maintains consistent performance without any throughput reduction.

File workload

In recent years, the increased growth in the amount of data that is stored in file shares and user home directories across IT environments has resulted in an increased focus on better management of this unstructured data. As a result, many organizations are deploying dedicated file workload solutions with capabilities such as cloud file tiering and single file system namespaces across their IT infrastructure, including for file workloads in a VDI environment.

Dell Technologies provides several solutions for different types of file workloads that you can leverage for user profile management and user data.

Dell PowerStore T storage is simple, unified storage that enables flexible growth with intelligent scale-up and scale-out capabilities and public cloud integration.

Dell PowerStore T is ideal for general-purpose NAS or SAN mixed workload consolidation, smaller file workloads (including small to midsized VDI environments), and transactional databases.

Dell Technologies recommends that you deploy a separate PowerStore T storage system with a vSphere HA cluster or block when you are deploying Dell PowerStore T in a VDI environment. Each PowerStore T system can scale up to four appliances per cluster. This structure provides the greatest scalability, resiliency, and flexibility when deploying and maintaining file services for the overall user pod. As unstructured data storage needs grow over time, the capacity of each PowerStore T storage system can be scaled up or out independently with minimal user impact. You have the choice to deploy alternative architectures to the one suggested here, but you should carefully consider the tradeoffs.

For guidance about selecting an appropriate PowerStore T storage solution for your file workload requirements, see the Dell PowerStore website.

Dell PowerScale storage is a scale-out NAS solution for any file workload.

The PowerScale system is ideal for a wide range of file workloads (including large-scale enterprise VDI environments requiring a single file system namespace), high-performance computing (HPC), archiving, and infrastructure consolidation.

Dell Technologies recommends that you deploy a separate PowerScale system with a vSphere HA cluster or block when you are deploying a PowerScale storage system in a VDI environment. This structure provides the greatest scalability, resiliency, and flexibility for deploying and maintaining file services for the overall user pod. As unstructured data-storage needs grow over time, you can scale up the capacity of each PowerScale storage system independently with minimal user impact. In addition to scaling up each PowerScale chassis, you can also scale out a PowerScale system by using the Dell OneFS operating system. Multiple PowerScale systems can provide a single volume and namespace that all user pods in a data center can access.

For guidance about selecting an appropriate PowerScale storage solution for your file workload requirements, see the Dell PowerScale website.

Data center infrastructure

Enterprise equipment requires power to operate, racks for streamlined management, and cooling to maintain reliable operations.

You must carefully select infrastructure solutions that provide these capabilities to ensure uptime, scalability, energy efficiency, and ease of management. Dell Technologies provides a wide range of data center infrastructure solutions such as:

• Dell Netshelter SX racks—Deploy server, storage, and networking equipment and other IT hardware while optimizing power, cooling, cabling, and systems management.
• Dell Keyboard Video Mouse (KVM) and Keyboard Monitor Mouse (KMM) solutions—Manage 8 to 1,024 local and remote servers running various operating systems across the enterprise.
• Dell Smart-UPS—Deliver reliable power and protect IT equipment, including servers, storage, networking, point-of-sale, and medical equipment.
• APC Rack Power Distribution Units (PDUs)—Provides reliable power distribution that is designed to increase manageability and efficiency in your data center.

Client components

Users can access the virtual desktops through various client components. The following table lists the client components that Dell Technologies recommends: