Description
Endurance and Data Retention
“Endurance and Data Retention” refers to the longevity and stability of data stored on an SSD over time. These factors are important to consider when choosing an SSD, as they can impact the reliability and performance of the system.
Endurance refers to the number of write cycles an SSD can handle before its performance begins to deteriorate. This is important because write cycles cause the NAND flash memory cells in an SSD to wear out over time, which can result in data loss or corruption. The endurance of an SSD is usually measured in terabytes written (TBW), which represents the total amount of data that can be written to the SSD over its lifetime.
Data Retention refers to the stability of data stored on an SSD over time, even when the SSD is not powered on. This is important because if data is not properly retained on an SSD, it can result in data loss or corruption. The data retention of an SSD is usually measured in years, and it can be impacted by factors such as temperature, humidity, and voltage fluctuations.
To ensure the longevity and stability of data stored on an SSD, it is important to choose an SSD with high endurance and data retention ratings, and to take steps to protect the SSD from environmental factors that can impact its performance, such as temperature and voltage fluctuations.
Power Management and Energy Efficiency
“Power Management and Energy Efficiency” refers to the power consumption and energy efficiency of an SSD. These factors are important to consider because they can impact the performance and battery life of systems using the SSD, as well as the cost of operating and cooling the system.
Power Management refers to the amount of power consumed by an SSD during its normal operation. This is important because higher power consumption can result in lower battery life and increased cooling costs. Power management features, such as DevSleep and low-power modes, can help to reduce power consumption and extend battery life.
Energy Efficiency refers to the amount of energy required to perform a given task on an SSD. This is important because higher energy efficiency can result in lower operating costs and reduced carbon footprint. Energy-efficient SSDs use less power to perform the same tasks as less efficient SSDs, which can result in lower energy costs and reduced environmental impact.
To ensure that an SSD is energy-efficient and consumes minimal power, it is important to choose an SSD with power management features and a high level of energy efficiency. Additionally, it is important to use power management features in the operating system to minimize power consumption and extend battery life.
Environmental Compliance and Sustainability
“Environmental Compliance and Sustainability” refers to the compliance of an SSD with environmental regulations and the sustainability of its design and manufacturing processes.
Environmental Compliance refers to the compliance of an SSD with various environmental regulations, such as RoHS (Restriction of Hazardous Substances), WEEE (Waste Electrical and Electronic Equipment), and REACH (Registration, Evaluation, Authorisation and restriction of Chemicals). These regulations are aimed at reducing the environmental impact of electronic products and their disposal. An SSD that is compliant with these regulations is less likely to harm the environment through its manufacture, use, or disposal.
Sustainability refers to the long-term environmental impact of an SSD, including its manufacturing processes, materials used, and disposal methods. An SSD that is designed and manufactured with sustainability in mind is likely to have a smaller environmental footprint and a lower impact on natural resources.
Choosing an SSD that is environmentally compliant and sustainable can help to reduce the environmental impact of electronic products and protect the planet for future generations. To ensure that an SSD is environmentally compliant and sustainable, it is important to choose an SSD from a manufacturer that has a strong commitment to environmental responsibility and to recycle old SSDs responsibly.
Detail Description
- Manufacturer: Dell
- MPN: DXVK2
- Type : Solid State Drive (SSD)
- SSD Type : SATA 6GBPS
- SKU: DXVK2
- Capacity: 3.84 TB
Technical Information
- Interface : SATA 6GBPS
- Form Factor : 2.5 Inch
- Features : Advanced Format 512e, Read-intensive Endurance
Expansion & Connectivity
- Interfaces : 1 X SATA 6GB/S
- Compatible Bays : 1 X Hot Plug – 2.5 Inch
Dimensions & Weight
- Height: 0.63 Inch
- Width: 3.10 Inch
- Depth: 5.45 Inch
- Weight: 1.50 LBS
Compatibility
- Poweredge M600
- Poweredge M605
- Poweredge M610
- Poweredge M610x
- Poweredge M710
- Poweredge M710hd
- Poweredge M905
- Poweredge M910
- Poweredge M915
- Poweredge R310
- Poweredge R320
- Poweredge R415
- Poweredge R420
- Poweredge R510
- Poweredge R515
- Poweredge R520
- Poweredge R610
- Poweredge R620
- Poweredge R710
- Poweredge R715
- Poweredge R720
- Poweredge R810
- Poweredge R815
- Poweredge R820
- Poweredge R910
- Poweredge T310
- Poweredge T320
- Poweredge T410
- Poweredge T415
- Poweredge T420
- Poweredge T610
- Poweredge T620
- Poweredge T710
