September 18, 2012, 11:31 AM — Three years ago, I wrote a story comparing hard disk drives to solid state drives (SSDs) based on capacity, performance and cost.
A lot has changed in three years. For one, laptops are quickly being eclipsed by tablets, which have NAND flash memory embedded on their motherboards. In addition, operating systems like Windows 7 have been optimized to take advantage of SSD I/O performance.
SSDs today are far more reliable, have greater endurance and perform better (in some cases, two to three times better) than in 2009.
There are also new SSD categories. For example, hybrid drives combine NAND flash cache memory with a spinning disk in a hard-drive form factor. In addition, in adherence to Intel's new ultrabook computer specifications (PDF), manufacturers are beginning to produce laptops with two drive slots, one for a hard drive and the other for a low-capacity cache SSD which works with hard disk drives to speed up boot and application load times.
Perhaps the single biggest change, though, is price. In 2009, SSDs cost around $3 per gigabyte. That meant a 120GB SSD cost you more than $300. If you were paying $700 for a laptop, it wasn't reasonable to expect to pay almost half that for a new drive.
Today, however, SSDs cost close to one-third of what they did in 2009 -- in many cases, less than $1 per gigabyte. For example, Crucial in July announced its new low-cost v4 SSD that costs $100 for a 128GB model and $190 for a 256GB model. This isn't unexpected; in January 2012, research firm IDC predicted that prices of SSDs would tumble this year. (Of course, hard drive prices have also plummeted. These days, you can pick up a 7200rpm, 1TB laptop hard drive for a little more than $100. )
One thing hasn't changed, though: While they may never beat out hard drives in price, SSDs will always have one major advantage: No moving parts. This means no mechanics to break, even when a machine is jostled or dropped. SSDs are natively more resilient than hard drives, particularly when it comes to mobile applications.
A hard disk with mechanics vs. a solid state drive with NAND flash chips (source: Intel)