If you have a PCIe slot in your PC, or an M.2 slot that supports PCIe in your laptop, you really should upgrade to an NVMe drive such as Plextor’s M8Pe. Why? Outrageously quick access times, 2GBps reads, and 1GBps writes. That’s roughly 15 times and 10 times the speed of a hard drive, respectively. The difference in the feel of your PC will amaze. That’s of course assuming you can boot from an NVMe drive, something many mainstream PCs are incapable of, unfortunately.
But if you have a BIOS that can handle it, the Plextor M8Pe will not only deliver that scintillating performance, it will look good while doing it. Designed with gamers in mind, the M8Pe’s sleek red-and-black heatsink makes it look fast even before you turn it on. Hit the juice, and the triangular dome lights up, as red LEDs peek out from the top edge to flash the device’s status. Ooh . Ah!
Plextor A side view of Plextor’s fast M8Pe PCIe/NVMe SSD.
Even if your PC lacks a window through which to view its spendiferous interior, don’t totally dismiss the M8Pe’s bling—the ominous slow blinking of the status lights alerted me to the drive’s unhappiness when I first powered on the test bed. Closer inspection revealed a SATA power connector that needed attaching. (What? Read the setup sheet? Hey, we’re trained professionals here.)
Testing oddities and revelations
The M8Pe performs as advertised: 2GBps reads, 1GBps writes, and application windows that appear quicker than expected. That was true in our real-world 20GB copy tests, and CrystalDiskMark agreed with those results. But AS SSD showed the drive as writing at just 300MBps. Huh? The thing is, all the tests were correct.
Turning off Windows write caching for the M8Pe brought CrystalDiskMark into agreement with AS SSD’s lower number. We’ve seen this issue before, and it’s typically remedied by installing a driver. Plextor doesn’t provide a proprietary driver though, instead relying on the native Microsoft NVMe driver.
A very fast reader, but not as fast writing as other PCIe/NVMe drives on adapter cards we’ve tested. Note that the OCZ RD400 and Intel 750 use their own drivers, while the M8Pe uses the native Windows NVMe driver.
The difference is the FUA, or Forced Unit Access, command issued by AS SSD, as well as Windows when write caching is turned off. FUA tells the driver and SSD to write directly to the NAND, bypassing Window’s own RAM cache as well as the 512MB of DRAM cache on our 512GB test M8Pe. This eliminates any danger of data loss when the power fails.
But writing to NAND is a far slower process than writing to DRAM (or reading from NAND) hence the significantly reduced write performance when FUA is in effect. Proprietary drivers of the past have ignored the FUA command, hence the huge disparity in performance when using those drivers and the native Windows driver.
Think of AS SSD as testing the absolute speed of a drive’s NAND (Toshiba 15nm toggle MLC with a Marvell 88SS1093 controller in this instance), CrystalDiskMark as your best case scenario, and our real-world copy tests as what you’ll actually experience.