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Primary data reduction. Primary storage data reduction using tools such as compression and deduplication can reduce disk capacities by a ratio in the range of 3-to-1 to 5-to-1, depending on data types. However, I’m reluctant to overemphasize data reduction, as the products are still new in the marketplace (except for IBM’s Real-time Compression [RTC] and Dell’s Ocarina-based products) and some may impact performance. You should either apply them post process, as in the case of NetApp’s built-in data reduction, or do them inline as with IBM RTC. You don’t want to trade application performance for capacity savings. Smart archiving should be a higher priority.
Think thin provisioning. If you haven’t taken advantage of thin provisioning in your storage arrays, this is a good time to turn it on. Most popular arrays offer this functionality and many offer a way to convert thick logical unit numbers (LUNs) to thin LUNs online and totally nondisruptively. This same technology also applies to clones. See if your current array supports this functionality and thin those LUNs out.
Trim snapshots. It’s also a good idea to do a check on how many snapshots you keep. You might find that paring them down has no effect on the level of protection an app needs and you can regain some disk space. Of course, you should make sure the snapshot technology you use generates space-efficient snapshots.
Use the cloud. If you’ve been thinking
Solid-state options. This is a great time to figure out what your SSD strategy should be. With SSDs, you can reduce HDD purchases while accelerating applications that are starved for I/O. But you need to develop an SSD strategy rather than just look at it as a hard disk drive alternative. Not all applications need SSDs, and not all SSDs are alike, so some research is required to understand which applications would benefit and what type of flash product would be appropriate. A server-based PCI Express (PCIe) card can provide storage and pump up the performance of a single physical server. SSDs can be placed in the HDD slots in servers or arrays, and intelligent software can automatically move data from flash to the hard disk drive and back, depending on its “heat factor.” There are many solid-state drive options and while they may be good replacements for hard disks, some planning and a strategy are required.
If you look around your shop, I’m sure you can come up with other best practices that may help reduce your company’s hard disk requirements. With the storage industry in a jam relative to HDDs, it could be a great time to rise above the panic and take steps that are strategic and consistent with good storage management.
BIO: Arun Taneja is founder and president at Taneja Group, an analyst and consulting group focused on storage and storage-centric server technologies.
This was first published in April 2012