The command then consolidates existing data on an SSD so that it can be read sequentially and not randomly, which improves read performance.
While many of today’s SSDs contain a garbage collection algorithm in their controller’s firmware, it can create write amplification, or increased data movement on the NAND flash memory, which causes the drive to wear out more quickly.
Consumer NAND flash, which is used to make SSDs for desktop and laptop systems, typically has no more than 10,000 erase-write cycles, where existing data is first erased and then re-written along with new data. The most expensive single-level cell (SLC) NAND, used in servers, has up to 100,000 erase-write cycles before the drive wears out.
The TRIM command works independently of controller firmware, handling the garbage collection overhead.
Microsoft Windows 7 also supports the TRIM command, which prompted SSD manufacturers like Intel to add firmware upgrades to their products to take advantage of the command.
Apple also is one of the only companies to make laptops that support the serial ATA 3.0 specification, which allows twice the throughput of SATA 2.0 drive interfaces.
For example, Apple’s MacBook Pro , which was released in February, added support for SSDs manufactured with SATA 3.0 interfaces. Most SSDs manufactured today support the SATA 3.0 spec.
The top-end Apple MacBook Pro now uses the SATA 3.0 specification for the internal drive connection, which offers 6Gbps link speed.
Apple has bet big on SSD technology, a trend borne out by the fact that is now ranks as the world’s top consumer of NAND flash memory.