Intel Memory Memory H10 designations Specifications

Optane Memory Intel H10 SSD will begin shipping systems from huge OEMs, so Intel is ready to set out more detailed information about the initial campaign on CES. The Optane Memory H10 is a big change from your current Optane Memory family results, and it's a special SSD 2-in-1 that connects 3D XPoint memory and flash QLC NAND memory on one M.2 module. . Firstly, the H10 confirms the existing Optane Memory M10 model and one driver the Intel 660p QLC SSD. The Optane section of the drive is intended to be used as a cache for QLC driving, using Optane Memory for Windows Windows drivers and Intel has been used previously for Optical Memory M.2 modules and hard drives. To date, Optane's products have struggled to access high-quality books with two M.2 slots and there is 2.5 "out of question question".

The Optane Memory H10 comes in three categories, with QLC NAND capabilities between 256GB and 1TB. The 256GB model will have 16GB of Optane storage and the 512GB and 1TB will have 32GB of Optane storage. The three functions are implemented as monolingual modules M.2, with half of the chart devoted to the Optane controller, the media and PMIC, and in others the Silicon Motion SM2263, DRAM and QLC NAND guides . The card as a whole has PCIe 3.0 x4 interface, but each of the two PCIe administrators has both PCIe series. Intel guidance software will help reading and writing data from both Optane and QLC at the same time, so signal the H10 for up to 2.4GB / s journeys even though half of it cannot exceed 2GB / to be alone.

Intel Optane Memory H10
Advertised ability 256 GB 512 GB 1TB
Faculty Form M.2 single-sided 2280
NAND Governor Silicon Motion SM2263
Flash NAND Intel 512Gb 64L 3D QLC
Optane Controller Intel SLL3D
Optane Media Intel 128Gb 3D XPoint
NAND QLC Competence 256 GB 512 GB 1024 GB
Optane's ability 16 GB 32 GB 32 GB
Read Sequential up to 2400 MB / s
Sequential write up to 1800 MB / s
4kB Read Random QD1 32k IOPS
QD2 55k IOPS
4kB Random Write QD1 30k IOPS
QD2 55k IOPS
L1.2 Power of Idea <15 mW
Warranty 5 years
Endurance 300 TB

For estimate I / O, Intel will calculate the H10 for 32k with randomly read ILAPS and 30k below writing IOPS at depreciation 1, and 55k IOPS for both QD2. The random levels of survey are much higher than we measure from the Intel 660p QLC SSD, but it is only a fraction of the capability that is compatible with Optane 32GB Memory, and so it is clear that Intel providing a more complicated version that shows how world use is not possible to remain completely within the Optane cache.

A total of 15mW power on the H10 power of H10 energy power is assessed as a result of the use of PCIe L1.2 sleeping states.

Up to 300 TB in level 1TB of sustainability rating, 50% increase over Intel 660p will be the QLC only. The QLC section of the Optane Memory still uses SLC writing caching, but the cache optane optimization will take a lot of the writing weight from the NAND. Optane Memory M10 and Intel 660p have their 5 year warranty period.

System requirements

Memane Memory H10 has more strict system requirements than the previous Optane Memory results. Intel has always wanted Kaby Lake or a system beyond his drivers for using Optane Memory caching, but Optane Memory's existing directors were NVMe training at the heart and could be used as a way to third party software in any NVMe SSDs device. Since the H10 positions two drivers on one card, hospitality slots will be required that will provide the four PCIe routes and support as two portfolios of two layers. They also have the potential to invest in Intel for Optane Memory calling their RST 17.2 drivers, the first series to be released on SSDe SSDs Optane Memory caching instead of just SATA. (In addition to the first release series to support processes with the image of Pentium and Celeron.)

Officially, Intel calls the H10 to be used by PCH 300-series and a mobile proxy U-series U, but this entirely reflects the platforms which will comprise giving the H10 at the time of launch. Intel is not yet committed to selling H10 to the market using desktop systems, but has set a foundation and up-to-date updates with many 300-series townships so that they can available from the H10. (The first public face called the Optane Memory H10 product came from menu manufacturers to support desktop 300-series.) Desk connections with chipsets can be 300-series and a minimum of two M.2 slots to achieve the outcome of the H10. uses an Intel 660p and Optane Memory M10 module, so there is no strong pressure for releasing H10. Optra Memory caching has an intrinsic functionality and NVMe RAID is currently using user platforms from the Skylake 100-series chipsets, but Intel has little interest in distributing firmware support to platforms older.

Our study on Optane Memory H10 is coming today, and we will have a full review later this month.

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