Produktbeskrivelse
|
Samsung SM963 MZQKW960HMJP - SSD - 960 GB - U.2 PCIe 3.0 x4 (NVMe)
|
Type
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Solid state-drev - intern
|
Kapacitet
|
960 GB
|
Hardware kryptering
|
Ja
|
Krypterings algoritme
|
256-bit AES-XTS
|
Model
|
2.5"
|
Grænseflade
|
U.2 PCIe 3.0 x4 (NVMe)
|
Egenskaber
|
Enhanced Power Loss Data Protection, Samsung Polaris Controller, S.M.A.R.T.
|
Dimensioner (B x D x H)
|
70 mm x 100 mm x 7 mm
|
Vægt
|
70 g
|
Produktdatablad |
|
Enhedstype |
Solid state-drev - intern |
Kapacitet |
960 GB |
Hardware kryptering |
Ja |
Krypterings algoritme |
256-bit AES-XTS |
Model |
2.5" |
Grænseflade |
U.2 PCIe 3.0 x4 (NVMe) |
Egenskaber |
Enhanced Power Loss Data Protection, Samsung Polaris Controller, S.M.A.R.T. |
Bredde |
70 mm |
Dybde |
100 mm |
Højde |
7 mm |
Vægt |
70 g |
Drive Writes Per Day (DWPD) |
3.6 |
SSD-udholdenhed |
6307 TB |
Intern datahastighed |
2000 MBps (læs) / 1400 MBps (skriv) |
4KB Random Read |
430000 IOPS |
4KB Random Write |
33000 IOPS |
MTBF (forventet tid mellem fejl) |
2,000,000 timer |
Ikke-korrigerbare fejl |
1 pr. 10^17 |
Interface |
1 x PCI Express 3.0 x4 (NVMe) - U.2 (SFF-8639) |
Kompatibel bås |
2.5" |
Strømforbrug |
7.4 Watt (aktiv) ¦ 2.5 Watt (ledig) |
Overensstemmelsesstandarder |
RoHS, halogenfri |
Pakketype |
En gros |
Min. driftstemperatur |
0 °C |
Maks. driftstemperatur |
70 °C |
Min. lagertemperatur |
-40 °C |
Maks. Opbevaringstemperatur |
85 °C |
Fugtighedsgrad ved brug |
5 - 95 % (ikke-kondenserende) |
Modstandsdygtighed over for stød (non-operativ) |
1500 g |
Vibration tolerance (non-operativ) |
20 g |
Samsung Enterprise solid state drives are being used increasingly as data storage media in computing, communication, and multimedia devices. Most SSDs use NAND Flash memory as the storage media, which is capable of retaining data without an external power supply. The primary advantage of using Samsung SSDs is their lack of moving parts, resulting in extremely short startup and shutdown/standby times. SSDs offer superior reliability compared to traditional hard disk drives. Advances in semiconductor flash memory technologies have enabled the development of SSDs that are equal in capacities to HDDs and can be used as direct replacements. SSDs also prove to be highly cost effective in-use due to their much lower power consumption and maintenance costs.