Description
Performance and Reliability
Enterprise-grade reliability refers to the level of dependability and durability that a hard drive is designed to provide for use in demanding enterprise environments, such as data centers, cloud computing environments, and other mission-critical applications.The Dell 1VPV2 1 Dell .8TB 10K RPM SAS-12GBPS SFF Hard Drive is designed to provide enterprise-grade reliability through a combination of features and technologies. These may include:High MTBF (Mean Time Between Failure) ratings, which indicate how long a drive is expected to last before failing.RAID support, which allows for data to be spread across multiple drives for increased redundancy and protection against data loss.
Error correction and data recovery features, which help to protect against data loss due to disk errors or other issues.
Advanced power management features, which can help to prolong the life of the drive and protect against data loss due to power outages or other disruptions.
The SAS-12Gbps interface provides faster data transfer rates, improved data integrity and greater scalability than earlier SAS interfaces.Additionally, enterprise-grade hard drives typically undergo rigorous testing and quality control procedures to ensure that they meet the high standards required for use in mission-critical applications. This will ensure that the Dell 1 Dell .8TB 10K RPM SAS-12GBPS SFF Hard Drive will be able to perform in demanding environments and provide the high level of reliability that is expected from enterprise-grade storage.
Small Form Factor (SFF) Design
The Small Form Factor (SFF) design of the Dell 1VPV2 1 Dell .8TB 10K RPM SAS-12GBPS SFF Hard Drive refers to the physical size and dimensions of the drive. SFF drives are smaller in size than traditional 3.5-inch hard drives, making them suitable for use in compact or space-constrained environments, such as blade servers, 1U rackmount servers, and other similar applications.The SFF design of this drive allows for increased space efficiency within the server or storage enclosure, which can be particularly useful in data centers and other high-density environments. It also allows for increased airflow and cooling within the enclosure, which can help to prolong the life of the drive and improve overall system performance.
In addition, SFF drives are also designed to consume less power, which can help reduce energy costs and improve overall system efficiency. SFF drives are designed to make the most efficient use of the available space, power and cooling resources, making them ideal for high-performance storage systems in enterprise environments.
High Speed 10K RPM
The Dell 1VPV2 1 Dell .8TB 10K RPM SAS-12GBPS SFF Hard Drive has a high rotational speed of 10,000 RPM (revolutions per minute). This high speed allows for faster data access times and improved performance compared to hard drives with lower rotational speeds, such as 7200 RPM drives.The faster rotational speed of the drive’s platters allows the drive’s read/write head to access data more quickly, reducing the time it takes to complete tasks such as reading and writing data. This can be particularly beneficial in high-performance storage systems that require fast data access and high throughput.Additionally, faster rotational speeds can improve the drive’s ability to handle random I/O operations, which can be important in environments where many small files are frequently accessed. This can help to reduce the number of disk seeks required to complete a task, which can also improve performance.
Main Specification about the Dell 1VPV2
- Manufacturer: Dell
- Part Number or SKU # 1VPV2
- Device Type: Hard Drive
Technical Information
- Device Type : Hard Drive – Internal
- Storage Capacity : 1.8 TB
- Interface : SAS 12GB/S
- Form Factor : 2.5 Inch
- Features : 512e Crypto
Performance
- Data Transfer Rate: 1200 MBPS External
- Spindle Speed : 10000 RPM
- Interfaces : 1 X SAS 6GB/S
- Compatible Bays : 1 X Internal – 2.5inch
Compatibility
- Poweredge C4130
- Poweredge R220
- Poweredge R330
- Poweredge T110 II
