Extending Dell Technologies Cloud Platform Availability for Mission Critical Applications
Mon, 29 Apr 2024 13:47:38 -0000
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Reference Architecture Validation Whitepaper Now Available!
Many of us here at Dell Technologies regularly have conversations with customers and talk about what we refer to as the “Power of the Portfolio.” What does this mean exactly? It is essentially a reference to the fact that, as Dell Technologies, we have a robust and broad portfolio of modern IT infrastructure products and solutions across storage, networking, compute, virtualization, data protection, security, and more! At first glance, it can seem overwhelming to many. Some even say it could be considered complex to sort through. But we, as Dell Technologies, on the other hand, see it as an advantage. It allows us to solve a vast majority of our customers’ technical needs and support them as a strategic technology partner.
It is one thing to have the quality and quantity of products and tools to get the job done -- it’s another to leverage this portfolio of products to deliver on what customers want most: business outcomes.
As Dell Technologies continues to innovate, we are making the best use of the technologies we have and are developing ways to use them together seamlessly in order to deliver better business outcomes for our customers. The conversations we have are not about this product OR that product but instead they are about bringing together this set of products AND that set of products to deliver a SOLUTION giving our customers the best of everything Dell Technologies has to offer without compromise and with reduced risk.
Figure 1: Cloud Foundation on VxRail Platform Components
The Dell Technologies Cloud Platform is an example of one of these solutions. And there is no better example that illustrates how to take advantage of the “Power of the Portfolio” than one that appears in a newly published reference architecture white paper that focuses on validating the use of the Dell EMC PowerMax system with SRDF/Metro in a Dell Technologies Cloud Platform (VMware Cloud Foundation on a Dell EMC VxRail) multi-site stretched-cluster deployment configuration (Extending Dell Technologies Cloud Platform Availability for Mission Critical Applications).This configuration provides the highest levels of application availability for customers who are running mission-critical workloads in their Cloud Foundation on VxRail private cloud that would otherwise not be possible with core DTCP alone.
Let’s briefly review some of the components used in the reference architecture and how they were configured and tested.
Using external storage with VCF on VxRail
Customers commonly ask whether they can use external storage in Cloud Foundation on VxRail deployments. The answer is yes! This helps customers ease into the transition to a software-defined architecture from an operational perspective. It also helps customers leverage the investments in their existing infrastructure for the many different workloads that might still require external storage services.
External storage and Cloud Foundation have two important use cases: principal storage and supplemental storage.
- Principal storage - SDDC Manager provisions a workload domain that uses vSAN, NFS, or Fiber Channel (FC) storage for a workload domain cluster’s principal storage (the initial shared storage that is used to create a cluster). By default, VCF uses vSAN storage as the principal storage for a cluster. The option to use NFS and FC-connected external storage is also available. This option enables administrators to create a workload domain cluster whose principal storage can be a previously provisioned NFS datastore or an FC-based VMFS datastore instead of vSAN. External storage as principal storage is only supported on VI Workload Domains as vSAN is the required principal storage for the management domain in VCF.
- Supplemental storage - This involves mounting previously provisioned external NFS, iSCSI, vVols, or FC storage to a Cloud Foundation workload domain cluster that is using vSAN as the principal storage. Supporting external storage for these workload domain clusters is comparable to the experience of administrators using standard vSphere clusters who want to attach secondary datastores to those clusters.
At the time of writing, Cloud Foundation on VxRail supports supplemental storage use cases only. This is how external storage was used in the reference architecture solution configuration.
PowerMax Family
The Dell EMC PowerMax is the first Dell EMC hardware platform that uses an end-to-end Non-Volatile Memory Express (NVMe) architecture for customer data. NVMe is a set of standards that define a PCI Express (PCIe) interface used to efficiently access data storage volumes based on Non-Volatile Memory (NVM) media, which includes modern NAND-based flash along with higher-performing Storage Class Memory (SCM) media technologies. The NVMe-based PowerMax array fully unlocks the bandwidth, IOPS, and latency performance benefits that NVM media and multi-core CPUs offer to host-based applications—benefits that are unattainable using the previous generation of all-flash storage arrays. For a more detailed technical overview of the PowerMax Family, please check out the whitepaper Dell EMC PowerMax: Family Overview.
The following figure shows the PowerMax 2000 and PowerMax 8000 models.
Figure 2: PowerMax product family
SRDF/Metro
The Symmetrix Remote Data Facility (SRDF) maintains real-time (or near real-time) copies of data on a PowerMax production storage array at one or more remote PowerMax storage arrays. SRDF has three primary applications:
- Disaster recovery
- High availability
- Data migration
In the case of this reference architecture, SRDF/Metro was used to provide enhanced levels of high availability across two availability zone sites. For a complete technical overview of SRDF, please check out this great SRDF whitepaper: Dell EMC SRDF.
Solution Architecture
Now that we are familiar with the components used in the solution, let’s discuss the details of the solution architecture that was used.
This overall solution design provides enhanced levels of flexibility and availability that extend the core capabilities of the VCF on VxRail cloud platform. The VCF on VxRail solution natively supports a stretched-cluster configuration for the management domain and a VI workload domain between two availability zones by using vSAN stretched clusters. A PowerMax SRDF/Metro with Metro Stretched Cluster (vMSC) configuration is added to protect VI workload domain workloads by using supplementary storage for the workloads that are running on them.
Two types of vMSC configurations are verified with stretched Cloud Foundation on VxRail: uniform and non-uniform.
- Uniform host access configuration - vSphere hosts from both sites are all connected to a storage node in the storage cluster across all sites. Paths presented to vSphere hosts are stretched across a distance.
- Non-uniform host access configuration - vSphere hosts at each site are connected only to storage nodes at the same site. Paths presented to vSphere hosts from storage nodes are limited to the local site.
The following figure shows the topology used in the reference architecture of the Cloud Foundation uniform stretched-cluster configuration with PowerMax SRDF/Metro.
Figure 3: Cloud Foundation on VxRail uniform stretched-cluster config with PowerMax SRDF/Metro
The following figure shows the topology used in the reference architecture of the Cloud Foundation on VxRail non-uniform stretched cluster configuration with PowerMax SRDF/Metro.
Figure 4: Cloud Foundation on VxRail non-uniform stretched-cluster config with PowerMax SRDF/Metro
Solution Validation Testing Methodology
We completed solution validation testing across the following major categories for both iSCSI and FC connected devices:
- Functional Verification Tests - This testing addresses the basic operations that are performed when PowerMax is used as supplementary storage with VMware VCF on VxRail.
- High Availability Tests - HA testing helps validate the capability of the solution to avoid a single point of failure, from the hardware component port level up to the IDC site level.
- Reliability Tests - In general, reliability testing validates whether the components and the whole system are reliable enough with a certain level of stress running on them.
For complete details on all of the individual validation test scenarios that were performed, and the pass/fail results, check out the whitepaper.
Summary
To summarize, this white paper describes how Dell EMC engineers integrated VMware Cloud Foundation on VxRail with PowerMax SRDF/Metro and provides the design configuration steps that they took to automatically provision PowerMax storage by using the PowerMax vRO plug-in. The paper validates that the Cloud Foundation on VxRail solution functions as expected in both a PowerMax uniform vMSC configuration and a non-uniform vMSC configuration by passing all the designed test cases. This reference architecture validation demonstrates the power of the Dell Technologies portfolio to provide customers with modern cloud infrastructure technologies that deliver the highest levels of application availability for business-critical and mission-critical applications running in their private clouds.
Find the link to the white paper below along with other VCF on VxRail resources and see how you can leverage the “Power of the Portfolio” to support your business!
Jason Marques
Twitter - @vwhippersnapper