Available in either single-level cell (SLC) or multilevel cell (MLC) flash technology, the 6000 series can be clustered together, scaling to petabytes of storage and tens of millions of IOPS. Targeted at performance needs, the SLC-based systems support 16 Tbytes per array and deliver 1 million RAID IOPS, while the MLC-based systems are optimized for capacity and support 32 Tbytes per array and deliver 500,000 RAID IOPS. The company also unveiled the 3220, which doubles the storage capacity of the 3200 series to 20 Tbytes per 3U shelf. The 6000 series will start shipping in volume in early 2012, while the 3220 is now generally available.
Violin says it can cover virtually all of an enterprise's Tier 0 to Tier 3 storage requirements with all of the 6x0 features required for reliable and cost-effective performance. While it admits disk storage isn't going away any time soon, it believes flash technology can now beat disk across the board. In May, it set a world record dual-socket TPC-E benchmark with HP, and in July IBM scanned 10 billion files 37 times faster than the previous record of 1 billion files in three hours.
"I am seeing an increased use of solid-state storage across the enterprise and expect the amount of solid-state capacity shipped into the enterprise to increase by over 170% this year," says Jeff Janukowicz, research director, solid state drives and HDD components, IDC. "This includes everything from using SSDs in a tiered storage environment, or as a data cache, or even as a complete solid-state solution like Violin's solutions.
He says that for a lot of applications, only a small percentage of the data is hot enough to benefit from solid state, and for these environments, a multitier approach using SSD or a cached SSD environment works well. However, it can be challenging to identify what data is most frequently accessed and would typically require some additional software. "As a result, I am seeing an increased amount of purpose-built, completely solid-state solutions like Violin's. If your data set is a reasonable size--for example, a 5-Tbyte database--putting the entire solution on solid state as primary storage can deliver the benefits of solid state and accelerate application performance without overhead or over-provisioning of resources, which in the end makes them cost-effective."