Improving Azure Customers' Critical Workload Performance with Intel® Optane™ Technology
What’s the Challenge?
Under continuous pressure to deliver top-line growth and meet customer demands for increasingly sophisticated and seamless experiences, an enterprise’s ability to respond quickly to market shifts is fast becoming a core differentiator.
To drive greater business agility, enterprises are now looking to their cloud service providers (CSPs) to provide high-performance infrastructure that accelerates business-critical workloads, while driving down costs.
For Microsoft Azure engineers and solution architects, the challenge now is to deliver solutions that meet these customer performance expectations, for the lowest possible total cost of ownership (TCO).
What’s the Solution?
Integrating Intel® Optane™ technology into the Microsoft Azure cloud enables Azure engineers and solution architects to improve the performance of critical workloads, drive enhanced data center efficiency, and balance costs for enterprise cloud customers. Ultimately, this helps Azure to remain competitive in the marketplace. This article examines some of the specific instances in which Intel Optane technology positively impacts the Azure offering, delivering additional benefits to customers.
Faster Reload Times for SAP HANA Customers
By expanding memory capacity and enabling low-latency access to persistent data, Intel® Optane™ persistent memory (PMem) allows in-memory databases like SAP HANA to load faster, since there is no longer a need to load data from disks or slower storage tiers in the event of system reboot. The faster reload and recovery times may help some deployments to run without high availability for non-production workloads with reduced service windows, and remove clustering complexity and downtimes needed for upgrades and/or patches.
Platform Consolidation for SAP HANA Solutions
Higher memory densities delivered by Intel Optane PMem enable the scale up or scale out of SAP HANA deployments with fewer Azure S224 SKUs, compared to a larger number of DRAM-only nodes on previous generation processors. This enables Azure SAP HANA customers to consolidate platform footprint, reduce operational complexity, and help lower TCO.
Increased Data Center Efficiency for Azure Stack HCI
Adding Intel® Optane™ solid-state drives (SSDs) to the cache tier of Azure Stack HCI, plus SATA-based Intel SSDs to the capacity tier, can speed caching and increase virtual machine (VM) density, enabling customers to consolidate workloads onto fewer physical servers, improving resource utilization, and helping to reduce costs.
Greater Overall System Memory for Azure Stack HCI
PMem in Memory Mode enables more overall system memory, increasing VM density, dramatically improving resource utilization, and helping lower hardware costs.
Find Out More
Contact your Intel account team to arrange a demo for your engineering team, and to find out more about how your customers could benefit from Intel Optane technology on Microsoft Azure and Intel.
Or find out more about how Microsoft Azure and Intel are collaborating to deliver a high performance and flexible cloud to meet all customer needs.
Notices and Disclaimers
Performance varies by use, configuration and other factors. Learn more at www.thailand.Intel.com/PerformanceIndex.
Performance results are based on testing as of dates shown in configurations and may not reflect all publicly available updates. See backup for configuration details. No product or component can be absolutely secure.
Your costs and results may vary.
Intel technologies may require enabled hardware, software or service activation.
Intel does not control or audit third-party data. You should consult other sources to evaluate accuracy.
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