Description
Advanced Error Correction and Data Protection
Advanced error correction and data protection refer to the techniques and mechanisms used to ensure the integrity and reliability of data stored on a solid state drive. These features are designed to detect and correct errors that may occur during the storage and retrieval of data, as well as protect the drive from potential data loss due to physical damage or other issues.
Error correction is typically achieved through the use of error correction codes (ECC) that can detect and correct errors that may occur during data transfer. These codes are applied to the data as it is written to the drive, and then checked when the data is read back. If an error is detected, the drive will use the ECC information to correct the error and return the correct data to the host system.
Data protection is typically achieved through a variety of mechanisms, including the use of RAID configurations, advanced data encryption, and other techniques. These mechanisms are designed to protect the drive from physical damage, power failures, and other issues that may result in data loss.
NVMe 1.3 Protocol
NVMe (Non-Volatile Memory Express) is a host controller interface and storage protocol that enables high-speed communication between a computer’s processor and solid state drives (SSDs) or other non-volatile memory devices. NVMe 1.3 is the latest version of this protocol, which was released in March 2020.
NVMe 1.3 offers several new features and enhancements over previous versions, including:
- Improved error handling: NVMe 1.3 includes enhanced error handling capabilities to improve data integrity and reliability.
- Larger namespace support: NVMe 1.3 allows for larger namespace sizes, making it possible to use larger storage devices with more capacity.
- Increased security: NVMe 1.3 includes new security features, such as the ability to encrypt data at rest and secure firmware updates.
- Improved power management: NVMe 1.3 includes new power management features, such as the ability to enter a low-power state during idle periods, which can help reduce energy consumption.
- Enhanced performance: NVMe 1.3 includes new features to improve performance, such as support for command queuing and a new feature that allows for more efficient use of memory.
Enhanced Power Efficiency
Enhanced power efficiency refers to the ability of the Micron MTFDKCB3T2TFC-1AZ1ZA 3.2TB PCI-E Gen4 solid state drive to consume less power while in operation. This is achieved through several design and technology choices, such as the use of low-power NAND flash memory, advanced power management features, and optimized firmware algorithms. These power-saving features help to extend the lifespan of the drive and reduce overall energy consumption, making it more environmentally friendly. Additionally, enhanced power efficiency can also help to reduce operating costs and prolong battery life in mobile or portable devices.
Low Latency and High Sequential Read and Write Speeds
Low latency refers to the amount of time it takes for data to be accessed and processed by the computer. The lower the latency, the faster the system can respond to requests for data. High sequential read and write speeds refer to the speed at which data can be read from and written to the solid state drive.
The Micron MTFDKCB3T2TFC-1AZ1ZA 3.2TB PCI-E Gen4 solid state drive has a low latency and high sequential read and write speeds due to its PCI-E Gen4 interface, which allows for faster data transfer between the drive and the computer. This means that the drive can quickly access and process data, resulting in faster system performance and improved responsiveness. Additionally, the drive’s high sequential read and write speeds allow for faster data transfer, which can improve boot and application load times, as well as overall system performance.
Main Information about this Micron MTFDKCB3T2TFC-1AZ1ZA
- Manufacturer: Micron
- Model Number or SKU# MTFDKCB3T2TFC-1AZ1ZA
- Type: Solid State Drive (SSD)
- SSD Type: PCI-Express
Technical Information of 3.2TB Solid State Drive
- Capacity: 3.2TB Storage
- Form Factor : U.3 (7MM)
- Interface : Pcie Gen4
- Product Series: 7400
Performance for PCI-Express SSD
- Sequential Read : 6,600 MBPS
- Sequential Write : 3,500 MBPS
- Random Read Iops : 800,000
- Random Write Iops : 347,000
Product Dimensions & Weight
- Height: 0.6 inch
- Width: 2.7 inch
- Depth: 3.9 inch
- Weight: 0.35 lbs
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