Oracle Launches New All Flash FS1 Storage System


Oracle expanded its flash storage portfolio today with the announcement of an all-flash model of its Oracle FS1 Flash Storage System. Available now, the new Oracle All Flash FS1 Storage System delivers superior flash performance, capacity scaling, and flash provisioning and is designed to handle concurrent mixed workloads, such as OLTP and high-speed data backup, in enterprise SAN environments as well as in private or public clouds. It delivers up to 64 all-flash domains for highly-secure data isolation in multitenant cloud environments, I/O prioritization based on business value, scales to nearly 1 PB of raw flash capacity, and goes from pallet to power-on in less than 30 minutes.

All Flash FS1 demonstrates superior I/O performance and low latency with minimal falloff. Tests performed for customers show sub-one millisecond latency when running simultaneous workloads across small to large block sizes with up to 8x faster IOPS and 9.7x faster write throughput than EMC XtremIO(1). As a result, All Flash FS1 can reduce Oracle Database I/O wait times and effectively give customers back time for projects that can help drive a company’s top-line growth and bottom-line savings.

Oracle All Flash FS1 is the only all-flash storage system co-engineered with Oracle Database and Applications and delivers net incremental business benefits to customers when deployed with Oracle software, from industry-leading data compression to one-click application provisioning. All Flash FS1 is uniquely able to take advantage of Oracle Hybrid Columnar Compression, available only to Oracle Storage, the most advanced data reduction technology in the industry. Hybrid Columnar Compression typically delivers a 10:1 compression ratio, nearly twice the data reduction usually obtained with deduplication techniques, reducing storage capacity requirements and accelerating Oracle Database queries. While encrypted Oracle Database data can’t be deduplicated, it can be compressed with Hybrid Columnar Compression, providing significantly higher levels of security to customers and maintaining Oracle Database best practices.
All Flash FS1 also features Flash Profiles, which provide pre-tuned and optimized provisioning profiles for Oracle Database and enterprise applications to simplify and accelerate flash storage provisioning and application deployment. As the industry’s best all-flash scale up two-node system, Oracle All Flash FS1 can support hundreds of Oracle databases—all in flash.
“High latency has impacted customers on shared storage platforms for years, slowing down OLTP response times and preventing mixed workloads from running at full speed. Customers are looking to flash to address these issues,” said Mike Workman, senior vice president, Flash Storage Systems, Oracle. “Oracle All Flash FS1 dramatically reduces I/O wait times typically seen in today’s highly virtualized, transaction-driven enterprises where low latency is critical to response time. This superior performance combined with unique features, such as Flash Domains and Flash Profiles, make the All Flash FS1 the platform for customers who want to significantly accelerate their applications in SAN and secure cloud environments.”
“Oracle practitioners in our community expect the highest levels of data integrity and security coupled with predictable performance,” said David Vellante, chief research officer, Wikibon. “Products such as the All Flash FS1 are riding the flash price/performance curve and promise to deliver dramatically lower latency and consistent response times at an affordable price. This can significantly reduce the effort required to deliver what are often among the most stringent service level requirements in IT.”
“With their introduction of the Oracle All Flash FS1, which was engineered from the ground up to maximize Oracle Database performance and scale, Oracle enters the ranks of what IDC defines as the ‘true All Flash Array (AFA) vendors’,” said Eric Burgener, research director, Storage, IDC.  “AFAs feature unique designs that are specifically optimized for flash media, delivering more consistent performance across their entire throughput range than Hybrid Flash Arrays, and making them the storage platform of choice for application environments that demand the highest levels of performance.”

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