Storage

10:17 AM
Connect Directly
RSS
E-Mail
50%
50%

Texas Memory Intros High Availability Solid State Appliance

Redundant hardware and failover technology promise high performance for business-critical applications.

Solid-state storage vendor Texas Memory Systems introduced a high-availability version of its Ram-San 720 storage device Tuesday. The Ram-San 720 provides a high-capacity, single-level cell (SLC), solid-state memory system with redundant hardware and failover technology to ensure high availability for multiple applications.

Texas Memory's 2D Flash RAID incorporates chip-level RAID within each flash module and centralized system-level RAID striping across all flash modules. This dual-RAID functionality ensures protection and repair of any data contained on failed chips or modules, and is implemented in redundant hardware to eliminate bottlenecks.

In addition, the system employs redundant data paths from the external SAN interfaces, through dual system-level RAID controllers, to dual-ported flash modules to protect data against component failure. Redundant power is achieved through the use of two AC power units and three battery units. Each board in the Ram-San 720 is powered by two independent power rails. If AC power is lost, batteries facilitate saving all user data and metadata to flash as part of an orderly shutdown operation.

All this high availability may sound like overkill, especially in an all-solid-state system, which is generally more reliable than a mechanical disk array. Consider, though, the types of applications the Ram-San 720 is targeted to--transaction-intensive database applications, financial services applications, military applications, and large virtual desktop implementations. Customers using the applications need high performance without the risk of a single point of failure causing downtime.

[ Learn How SSDs Solved One Company's IT Performance Problems. ]

The Ram-San 720 joins several other all solid-state appliances in the high-availability sweepstakes. Among those appliances are the Violin Memory 6000 Series, the Kaminario K2, and the DataRam XcelaSAN, along with the hybrid Nimble CS series, Tintri 540, and XIO Hyper ISE, which use both flash and conventional hard disk drive (HDD) technology.

Each appliance has differences in implementation. In the all-solid-state drive (SSD) category, Texas Memory has included all of the high-availability features in a single 1U box and, at 12 TB, provides a very dense solution.

Violin packs the same useable capacity into a 3U box with fully redundant components and has a multi-level cell (MLC) version with 22 GB of useable capacity. The larger size does provide user access for hot-swapping Violin's VIMM flash modules and other redundant components, like fans and power supplies.

Kaminario, in contrast, can scale in both capacity and performance, with user choices for DRAM or flash for performance storage, and HDD or flash for backup storage. In the Kaminario K2, multiple IO director nodes and multiple storage nodes are required for high availability and can be configured based on performance or storage capacity. A typical installation will be in a 42U rack that includes an uninterruptible power supply (UPS).

DataRam, on the other hand, achieves high availability by providing dual XcelaSAN units of 256 GB each, with a mirroring function.

In the hybrid arena of devices that include both SSDs and HDDs, the Nimble CS series provides dual hot-swappable controllers, mirrored NVRAM and power supplies, and up to 36 TB of raw HDD and 12 TB of raw SSD used as a cache, all in a 3U package.

The Tintri 540 is targeted specifically at VMware applications and features dual controllers, redundant power supplies, 2.4 TB of SSD and 24 TB of HDD, all hot-swappable, into a 3U package.

XIO has a 3U package with dual controllers and 6.5 TB of SSD and 10.4 TB of 10K rpm serial-attached SCSI HDD.

These are all very high-end devices with big price tags, and are typically deployed in business-critical applications that require 24/7 operation. In these uses, the importance of high availability, self-healing, all with hot-swappable redundant components, is that a single point of failure is not acceptable.

The Ram-San 720 is expected to be available by the end of January 2012 for $20,000 per TB.

Deni Connor is founding analyst for Storage Strategies NOW, an industry analyst firm that focuses on storage, virtualization, and servers. James E. Bagley contributed to this story.

Separate data and storage networks might have been necessary when Fast Ethernet was pitted against Fibre Channel, but Ethernet's breakneck evolutionary path has obviated most of the performance differences. Our new report examines the trends behind network convergence, the issues early convergence pioneers face, and three deployment scenarios for those considering the switch. Download the report here (registration required).

Comment  | 
Print  | 
More Insights
Cartoon
Hot Topics
4
The Rise Of White-Box Storage
Jim O'Reilly, Consultant,  8/27/2014
4
VMware Launches Hyper-Converged Infrastructure Appliance
Marcia Savage, Managing Editor, Network Computing,  8/25/2014
3
Cloud Storage Security: AWS Vs. Azure
Anna Andreeva, security quality assurance engineer, A1QA,  8/26/2014
White Papers
Register for Network Computing Newsletters
Current Issue
Video
Slideshows
Twitter Feed