Micron MTFDKCC1T9TFR-1BC15A 1.92TB SSD PCIe 4.0 U.3 15MM

Capacity: 1.92TB

Enhanced Storage Capacity

The Micron MTFDKCC1T9TFR-1BC15A Solid State Drive offers a remarkable storage capacity of 1.92TB, making it an ideal choice for users who require ample space to store their data. Whether you are a professional photographer, videographer, or simply a data enthusiast, having a high-capacity storage solution is crucial to accommodate your needs. With 1.92TB of storage, you can store a vast amount of data, including thousands of photos, hours of high-definition videos, and numerous software applications. This capacity ensures that you won't have to worry about running out of space any time soon.

Seamless Workflow

The generous capacity of 1.92TB enables you to maintain a seamless workflow without the need for frequent data transfers or external storage devices. You can conveniently access your files, edit them, and save them directly on the drive, eliminating the hassle of constantly juggling multiple storage options. Whether you are working on large multimedia projects or handling extensive databases, the Micron MTFDKCC1T9TFR-1BC15A Solid State Drive's 1.92TB capacity ensures that you have enough room to handle your tasks efficiently. This not only saves you time but also enhances your productivity by eliminating the need for constant file management.

Reduced Data Fragmentation

One of the significant advantages of having a high-capacity drive like the Micron MTFDKCC1T9TFR-1BC15A is reduced data fragmentation. When you have sufficient space on your drive, there is less chance of files getting fragmented across different storage devices. Data fragmentation occurs when files are divided and scattered across different sectors on a drive, leading to slower file access times. With a 1.92TB capacity, you can keep your files in one place, reducing the likelihood of fragmentation and ensuring faster data retrieval.

Future-Proof Investment

Investing in a solid-state drive with a 1.92TB capacity is a future-proof decision. As technology advances and file sizes continue to increase, having ample storage space becomes increasingly important. By choosing a drive with a significant capacity, like the Micron MTFDKCC1T9TFR-1BC15A, you are ensuring that your storage solution will remain relevant and functional for years to come. Whether you are an individual user or a business owner, having a future-proof storage solution saves you from the hassle and expense of constantly upgrading your drives to keep up with evolving storage requirements. The 1.92TB capacity of this drive provides you with the assurance that you can handle upcoming data demands without any issues.

Interface: PCIe 4.0 (NVMe)

Lightning-Fast Data Transfer Speeds

The Micron MTFDKCC1T9TFR-1BC15A Solid State Drive features a cutting-edge PCIe 4.0 interface with NVMe (Non-Volatile Memory Express) support. This interface offers lightning-fast data transfer speeds, significantly surpassing the capabilities of traditional SATA interfaces. With PCIe 4.0, you can experience blazingly fast read and write speeds, allowing you to transfer large files or access data-intensive applications with minimal latency. Whether you are working on multimedia projects, running resource-intensive software, or gaming, the PCIe 4.0 interface ensures that your drive can keep up with your demanding tasks.

Optimized Performance

The PCIe 4.0 interface not only enhances data transfer speeds but also optimizes overall drive performance. By utilizing the NVMe protocol, this interface reduces latency and maximizes the potential of the solid-state drive. With faster data access and reduced latency, the Micron MTFDKCC1T9TFR-1BC15A Solid State Drive can deliver exceptional performance in various scenarios. Whether you need to boot your operating system quickly, open large files in an instant, or run multiple applications simultaneously, the PCIe 4.0 interface ensures smooth and efficient operation.

Compatibility with Modern Systems

PCIe 4.0 is the latest generation of the PCIe standard, offering improved performance and capabilities compared to its predecessors. By choosing a drive with PCIe 4.0 support, like the Micron MTFDKCC1T9TFR-1BC15A, you are ensuring compatibility with modern systems that utilize this advanced interface. As technology progresses, more and more devices and motherboards are adopting PCIe 4.0 as their primary interface. By investing in a drive with PCIe 4.0 support, you are future-proofing your system and ensuring seamless compatibility with upcoming hardware upgrades.

Form Factor: U.3 15MM

Compact Design

The Micron MTFDKCC1T9TFR-1BC15A Solid State Drive boasts a compact form factor of U.3 15MM. This compact design allows for easy integration into various devices without occupying excessive space. Whether you are building a custom PC, upgrading your laptop, or installing the drive in a server rack, the U.3 15MM form factor ensures that it can fit seamlessly into your chosen setup. The compactness of this form factor also enables efficient airflow within your system, contributing to better temperature management and overall performance.

Hot-Pluggable Capability

The U.3 form factor offers hot-pluggable capability, allowing you to connect and disconnect the drive without needing to power down the entire system. This feature is particularly valuable in enterprise environments where uninterrupted operation is crucial. With hot-pluggable capability, you can easily replace or upgrade drives without interrupting critical workflows or causing system downtime. This enhances system reliability, reduces maintenance time, and ensures uninterrupted productivity.

Enterprise-Grade Reliability

The U.3 15MM form factor is widely used in enterprise environments due to its robustness and reliability. It is designed to withstand demanding workloads and operate efficiently in high-stress conditions. Whether you are deploying the Micron MTFDKCC1T9TFR-1BC15A Solid State Drive in a data center, server farm, or any other enterprise setting, its U.3 15MM form factor ensures that it can withstand continuous operation without compromising performance or reliability. This reliability translates into reduced downtime, improved data integrity, and enhanced overall system stability.