The war between traditional mechanical drives and solid-state devices isn't over yet, according to test results published by IDC yesterday – but the battle lines
have shifted.
The report, quoted by
SearchStorage yesterday, suggests that tests showing a high performance differential between SSD devices and traditional mechanical drives might be a trifle misleading – and IDC's own testing bears that out.
The main complaint the firm has with normal testing is that the comparisons are always between the latest and greatest SSD devices and 4,200 RPM mechanical drives. While the comparison makes sense from the consumer point of view – laptops offered with SSDs usually ship with a 4,200 RPM drive if you choose to save your dosh – they don't make much sense in a world where 5,400 RPM mechanical drives are the norm, and top-end laptops are shipped with 7,200 RPM drives.
IDC researcher David Reinsel compared 7,200 RPM drives with SSD drives and, perhaps most importantly, took the performance of the entire system into account when compiling his results. The conclusion of the research is that previous lab tests on isolated devices may have been misleading, and that the performance gap between the two technologies – while definitely present – is nowhere near as dramatic as SSD proponents have been making out.
Reisnel also point out that the difference in the architecture of SSDs and mechanical drives mean that, despite physical compatability, the devices aren't a simple drop-in replacement at the enterprise end of the market. Rather, many enterprise systems will require a complete redesign in order to achieve the best possible performance from solid-state storage devices. Reisnel is quoted as saying that “
there will be what's called a 'period of interdependency' with this technology,” and that the solution won't be simply “
plug and play.”
The results of the test are only available to subscribers to IDC's white paper service, so actual figures are currently hard to come by. The company is also being secretive about actual testing methodology, with no mention of what software was used to measure performance on the test units. Nevertheless, if true it is perhaps another blow for the SSD market – currently trying to win back support after researchers discovered that the power saving potential of the vast majority of devices currently on the market was a
lot lower than anticipated.
Is the research enough to make you think twice about that expensive SSD investment, or do you need hard figures to be shared before you'll decide one way or the other? Share your thoughts over in
the forums.
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