The ATTO Disk Benchmark performance measurement tool is compatible with Microsoft Windows. To aid in the testing of the drive, Intel kindly supplied us with a U.2 adaptor and the appropriate data/power cabling. A response of disabledeletenotify =0 confirms TRIM is active. Trim is confirmed as running by typing fsutil behaviour query disabledeletenotify into the command line. Intel Core i7-7700K with 16GB of DDR4-3200 RAM, Sapphire R9 390 Nitro and an Asus Prime Z270-A motherboard.Īll our results were achieved by running each test five times with every configuration this ensures that any glitches are removed from the results. SEQUENTIAL TESTING AT INTEL UPGRADEThis is a good way to measure potential upgrade benefits. SEQUENTIAL TESTING AT INTEL FREEWe try to use free or easily available programs and some real world testing so you can compare our findings against your own system. These are for Intel’s SSD Optimizer, two drive diagnostic scans, one quick the other full, secure erase, firmware updates, a system tuner and a page for system information.įor testing, the drives are all wiped and reset to factory settings by HDDerase V4. There are seven buttons on the right hand side of the utility main screen. The home screen displays information about the drive, how the capacity is being used, its health and estimated life remaining. Intel's Toolbox SSD management utility supports the DC P4510 and is a pretty comprehensive tool for looking after your SSD. The drive uses a PCIe 3.1 x4, NVMe 1.2 U.2 interface. The second PCB carries all of the remaining 64-layer Intel 3D TLC NAND packages that make up the drives capacity. One carries the Intel controller along with the DRAM cache chips, a large capacitor for the power loss protection and some of the NAND packages. We didn't open up the P4510 to look at the internal layout, but what we do know is that it uses two PCBs joined together with a data ribbon. The bottom of the case is made from heavy-duty cast aluminium and has a finned heatsink design that helps dissipate the heat from the drive. NAND Components: Intel 512Gb 64-layer TLC 3D NAND Intel rate the endurance of the 8TB drive at up to 13.88PBW and back the drive with a 5 year warranty. Random performance for the rest of the line-up is 4TB, 625,000 IOPS reads and 113,500 IOPS writes, 637,000 IOPS and 81,500 IOPS for the 2TB drive and 465,000 IOPS and 70,000 IOPS for the 1TB unit. Random 4K performance for the 8TB drive is quoted at up to 637,000 IOPS for reads and up to 139,000 IOPS for writes. Sequential writes for the other drives in the family are 2,900MB/s for the 4TB drive, 2,000MB/s for the 2TB unit and 1,100MB/s for the 1TB drive. The 1TB drive gets a rating of up to 2,850MB/s. Incidentally the 2TB drive has the same figure for Sequential reads as the 8TB drive but the 4TB drive is rated slightly less at 3,000MB/s. Official Sequential performance figures for the 8TB drive are up to 3,200MB/s for reads and up to 3,000 MB/s for writes. Built on a 15mm 2.5in format the drives use a U.2 (PCIe 3.1 x4, NVMe 1.2) interface and Intel's 2nd generation NVMe SSD controller, which was also at the heart of the P45** and P46** family of drives. Intel's P4510 family of drives consists of four capacities 1TB, 2TB, 4TB and the flagship 8TB model which is the one Intel kindly provided to us for review. This enables larger capacities to be brought to the table in the 2.5in format than the previous generation 32-layer equipped DC P4500 series. SEQUENTIAL TESTING AT INTEL SERIESThe drives use Intel's 64-layer TLC 3D NAND technology, the first Intel drive series in the enterprise space to do so. Intel's SSD DC P4510 family of drives have been designed to support a wide range of cloud workloads in the enterprise environment.
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