![standard nvm express controller driver hp standard nvm express controller driver hp](https://i.stack.imgur.com/Nikj4.png)
To benefit fully from an NVMe SSD, you must be able to boot the operating system from it.
![standard nvm express controller driver hp standard nvm express controller driver hp](https://www.techpowerup.com/img/12-09-06/33a.jpg)
All recent versions of the major operating systems provide drivers, and regardless of the age of the system you will have a very fast drive on your hands.
#Standard nvm express controller driver hp Pc#
It’s obviously best if your system already supports NVMe and has M.2 slots, but it’s still possible to add an NVMe drive to any PC with an PCIe slot via a $25 adapter card. We’ve already seen that caching employed by the super-cheap Toshiba RC100 we recently reviewed, which forgoes that onboard DRAM cache that most NVMe drives use, but still performs well enough to give your system that NVMe kick in the pants for everyday chores. The NVMe standard has continued to evolve to the present version 1.31, with the addition of such features as the ability to use part of your computer’s system memory as a cache. Even version 3.3 is far slower slower than what today’s SSD technology is capable of, especially in RAID configurations. Though the SATA bus has evolved to 16Gbps as of version 3.3, nearly all commercial implementations remain 6Gbps (roughly 550MBps after communications overhead). Knowing well the ultimate performance potential of NAND-based SSDs even when they first showed up, it was clear to the industry that a new bus and protocol would eventually be needed. But, as the first SSDs were relatively slow (and bulky), it proved far more convenient to use the existing SATA storage infrastructure. But for your operating system, programs, and oft-used data, you want an NVMe SSD if your system supports it, or a SATA SSD if it can’t. Hard drives still offer tremendous bang for the buck in terms of capacity and are wonderful for less-used data. Some drives in each category might do better, some will do worse. Shorter bars are better, but this is an overall average. HD = 2-5 millisecond seek, SATA SSD = 0.2 millisecond seek, NVMe SSD = 0.02 millisecond seek. The CPU and GPU development curve pales in comparison to that of storage over the last 10 years. HDD = 200MBps, SATA SSD = 550MBps, NVMe SSD = 3GBps. Not that you need sustained throughput like this very often, but NVMe makes short work of transferring files of any size.