By Girish Manmadkar, an SAP Virtualization Architect at VMware
Earlier this month, my colleague David Gallant wrote about architecting a software-defined data center for SAP and other business-critical applications. I’d like to further explore how SAP fits into the software-defined data center (SDDC) and, specifically, how to optimize it for CapEx and OpEx savings.
A key to remember is that the SDDC is not a single technology that you purchase and install—it is a use case, a strategy, a mind shift. And in that way, it is also a journey that will unfold in stages and should be planned in that way. I’ve outlined the three foundational steps below.
Most of the customers that I work with are well along in this stage, moving their current non-x86 SAP workloads toward a VMware-based x86 environment.
During this process, numerous milestones can be delivered to the business, in particular, an immediate reduction in their CapEx. This benefit is achieved by starting to move non-x86 or current physical x-86 workloads to the virtual x-86 OS platform. Understandably, customers tend to approach this transition with caution, so we often start with low-hanging fruits: non-production and/or development SAP systems.
The next step you can take is to introduce automation. Automation comes in two places: at the infrastructure layer, which is achieved using VMware vCloud Automation Center and Orchestration; and at the application layer, delivered using SAP’s Landscape Virtualization Manager.
During this phase it is best to implement vSphere features, including auto deploy—host profiles, and OS templates—in order to automate vSphere and virtual machine provisioning to the environment.
Often it is a good idea at this time to start a parallel project around storage. You can work with your storage and backup teams to enhance current architectures by enabling storage technologies like de-dup, vSphere storage I/O control and any other storage array plugins.
We also recommend minimizing agents in the guest operating system, such as agents used for backup and/or anti-virus. The team should start putting together new architecture to move such agents from the guest OS to the vSphere hosts to reduce complexity and improve performance. The storage and network teams should look to implement new architecture that will support virtual disaster recovery solution. By planning ahead now, teams can avoid rework later.
During this phase, the team not only migrates SAP application servers to the vSphere platform but also shows business value with CapEx reductions and value-added flexibility to scale out SAP application server capacity on demand.
Once this first stage goes into the operations cycle, it lays the groundwork for various aspects of the SDDC’s second stage. The next shift is toward a converged datacenter or common virtualization framework to deploy a software-defined lifecycle for SAP. This allows better monitoring, migration to the cloud, chargeback, and security.
This is also the phase where you want to virtualize your SAP central instances, or ASCS instances, and database servers. The value here is the removal of a reliance on complex, physical clustered environments by transitioning instead to VMware’s high-availability features. These include fault tolerance (FT) applicable to and determined by the SAP sizing exercise for the ASCS and focused on meeting the business’s SLAs.
Once the SDDC 2.0 is in production, it is a good time to start defining other aspects of SDDC, such as Infrastructure-as-a-Service, Platform-as-a-Service, Storage-as-a-Service, and Disaster-Recovery-as-a-Service.
Keep an eye out for our follow-up post fleshing out the processes and benefits of these later stages.
Girish Manmadkar is a veteran VMware SAP Virtualization Architect with extensive knowledge and hands-on experience with various SAP and VMware products, including various databases. He focuses on SAP migrations, architecture designs, and implementation, including disaster recovery.