![]() ![]() Test results comparison with Citrix Virtual Apps and Desktops.Intel Optane persistent-memory cluster test results with VMware Horizon.DRAM cluster test results with VMware Horizon.Intel Optane persistent-memory cluster test results with Citrix Virtual Apps and Desktops.DRAM cluster test results with Citrix Virtual Apps and Desktops.VDI configuration: Configuring the master target.Getting started with the Cisco Intersight platform.Creating Cisco UCS persistent-memory policy. INSTALL WINDOWS ON OPTANE DC PERSISTENT MEMORY SERIESCisco UCS 6400 Series Fabric Interconnects.Cisco Unified Computing System components.> Read a technology brief: Intel Optane Technology – Memory or Storage? Both. > Find Intel Optane Technology solutions in Intel Solutions Marketplace > Get Intel Optane Technology training from Intel Partner University > Watch a video: What is Intel Optane Persistent Memory? > Learn about Intel Optane Persistent Memory It offers them big advantages over DRAM and NAND. Whichever way your customers go, Intel Optane tech offers them a complete, platform-based solution to process more, store more and move more data. This table, courtesy of Intel, gives you the rundown: Intel Optane SSD devices can accelerate other applications, too. Yet at about the same cost per node as a non-Intel Optane SSD setup. What’s all that add up to? Well, when used with Microsoft’s Azure Stack HCI, Intel Optane SSD can deliver up to a 45% boost in performance, according to Intel. > Tiering: Intelligently storing the hottest data, again, typically between the application layer and “regular” storage. > Caching: Here, you’re temporarily storing or holding hot data, typically in between the application layer and “regular” data storage. That includes metadata, logging, indexing and journaling. > Accelerating: Basically, this means storing data about data. The best way to think about Intel Optane SSD is as a storage accelerator, specifically, in 3 areas: How about poor workload performance? Add Intel Optane persistent memory to break I/O bottlenecks and add high-speed storage as a tiered subsystem. Not enough capacity? Intel Optane persistent memory can increase their memory size and consolidate workloads. Are their costs too high? Intel Optane persistent memory can displace costly DRAM and improve their total cost of ownership (TCO). ![]() Put it all together, and this technology can also help your customers address some of their biggest pain points. The following table, courtesy of Intel, shows the usage models, specific workloads and applications best suited for Intel Optane persistent memory: Intel also says Intel Optane persistent memory gets you up to 11x more users per system with the Apache Cassandra database than with a comparable system based on DRAM and NVMe drives. When combined with a server based on the latest generation Intel Xeon Scalable processor, Intel Optane persistent memory can deliver an up to 8x improvement over DRAM when performing I/O-intensive queries on Apache Spark, according to Intel’s own tests. These features translate into seriously better performance. You also get hardware-level encryption for added security. What’s more, Intel Optane persistent memory offers very high capacities for individual modules. But unlike “regular” storage devices, Intel Optane persistent memory can do direct load stores, and it can also do cache line accesses. It resides in the storage memory architecture. If its memory capacity your customers are after, then point them to Intel Optane persistent memory. But which form of Intel Optane Technology - persistent memory or SSD storage - is best suited for your datacenter customers?ĭo your customers need greater memory capacity? Or are they seeking to improve storage performance? You already know that Intel Optane Technology is pretty powerful. ![]()
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