Faster storage needs a faster network
By Abdul Aziz Ali, Country Manager, Brocade Malaysia
As businesses continue to transform digitally, leading to huge increases in delay sensitive applications, high-definition video, mobile computing and applications that need breakthrough performance, the network has become the bottleneck in today’s storage infrastructure.
With the addition of new solid-state storage devices (SSD), which are many orders of magnitude faster and powerful than traditional hard drives, the bottleneck has moved and we need to consider the transport it runs across.
With insufficient network bandwidth to keep up with the wide scale technology advancements in server-side compute and solid-state storage, the infrastructure bottleneck has now shifted to legacy networks. No longer can older generation Fibre Channel or Ethernet transports keep up with the new demands for performance within the data centre.
The good news is that flash-based storage is evolving rapidly and getting much faster. The speed of flash is critical to accelerating application performance and throughput.
More than raw performance
Flash is more than raw performance – it’s being deployed in high capacity storage arrays supporting low latency applications in a shared data environment. As these devices become more mainstream, they’ll become an integral component in traditional storage area networks.
This need is consequently driving rapid adoption of flash in the data centre. New 3D NAND flash technology promises ultra-low latency and high density memories—offering up to 10,000 times the performance benefit over traditional hard drives.
To deliver the speed of these new flash devices, non-volatile memory express (NVMe) is emerging as a new storage protocol that will drive massive performance gains. This protocol was built explicitly for flash and designed to improve data and latency sensitive applications. It replaces the aging SCSI driver used with hard disk drives for decades, providing about a tenfold decrease in latency and is ideally suited to a SSD environment.
Although NVMe typically serves in direct server attached storage today, there’s a growing need to extend this low latency protocol over storage fabrics, where shared storage solutions can benefit. In addition, it promises to increase scaling to as many as 1,000 shared storage devices.
Despite all the performance and capacity gains at the device level, for optimal results and to take full advantage of this investment, you still need a network that is as fast as the infrastructure. This is critical to avoid flash becoming the restricting element in today’s data centre. Building a modern storage network for flash will unlock the full capabilities of the all-flash data centre and prepare IT leaders for a future of insanely fast and reliable applications.
NVMe over Fibre Channel is the future
Most businesses today need to perform ultra-fast data transfers across large-scale networks for business critical applications. NVMe over Fabrics is a new industry standard announced last year that dramatically reduces latency and eliminates the need for SCSI translation, by directly transferring NVMe commands and structures across an existing network. This makes applications run faster or scale better.
Owing to its nature, NVMe can run across a variety of fabrics, including Fibre Channel and Ethernet. NVMe over Fibre Channel (FC-NVMe) works with flash storage to ensure you get the performance and low latency that you originally wanted, but it also provides the additional reliability and performance of a Fibre Channel network.
In this way, running NVMe natively across a Fibre Channel network extends the benefits of flash storage, maintains flash simplicity and efficiency, while eliminating the need for translation. That means you can enjoy higher application performance, more data storage, better analytics and more personalisation of information.
It’s important to become familiar with these new technologies, especially if you’re planning an infrastructure upgrade with flash storage anytime soon. These critical infrastructure decisions will have an impact on the foundation for your future business success. Making the wrong infrastructure decision now will become extremely expensive and disruptive to repair at a later date.
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