KXG50ZNV512G NVMe TOSHIBA 512GB
User Benchmarks
Model | Type | Score | Seq. Read MB | Seq. Write MB | Read 4k64QD | Write 4k64QD | Read Access msek. | Write Access msek. |
KXG50ZNV512G NVMe TOSHIBA 512GB | 512 | 0 | 0 | 0 | 0.00 | 0.00 |
The measurement of the KXG50ZNV512G NVMe TOSHIBA 512GB was carried out on Windows. Similar read and write speeds could certainly be achieved with the KXG50ZNV512G NVMe TOSHIBA 512GB under Linux and MacOS. Of course, the correct hard drive driver should be installed and the correct interface for the KXG50ZNV512G NVMe TOSHIBA 512GB should be used.
KXG50ZNV512G NVMe TOSHIBA 512GB is a NVMe (Non-Volatile Memory Express) SSD from Toshiba designed for high-speed storage solutions. It offers high capacity and performance for modern computing applications. Here is a detailed description that includes technical details, features, application areas and other important information:
General Description
The Toshiba KXG50ZNV512G is a 512 GB NVMe SSD module that comes in an M.2 2280 form factor. It uses NVMe technology, which is optimized for fast data transfer and high performance compared to older interfaces such as SATA. This SSD is designed to offer high data transfer speeds, making it ideal for performance-intensive applications and system upgrades.
Technical details
Basic features
- Model name: Toshiba KXG50ZNV512G
- Capacity: 512 GB
- Form factor: M.2 2280 (80 mm x 22 mm)
- Interface: PCIe Gen3 x4 (NVMe 1.3)
- Controller: Toshiba TC58NCP070GSB
- Memory chip type: 3D NAND Flash (Triple-Level Cell, TLC)
Performance
- Maximum sequential read speed: Up to 2,500 MB/s
- Maximum sequential write speed: Up to 2,000 MB/s
- Maximum random read performance (IOPS): Up to 260,000 IOPS
- Maximum random write performance (IOPS): Up to 180,000 IOPS
- Latency: Typically less than 50 µs (microseconds) for read operations
Power Consumption
- Power Consumption:
- Operating: Approximately 4 W (watts)
- Idle: Approximately 0.4 W
- Energy Efficiency: Designed for energy efficient operation, ideal for laptop and desktop computers to minimize power consumption.
Reliability
- MTBF (Mean Time Between Failures): Typically 1,500,000 hours or more
- TBW (Total Bytes Written): Up to 400 TBW (depending on usage and specific requirements)
- Operating Temperature: Typically between 0°C and 70°C
- Operating Conditions: Designed for high reliability under typical desktop and laptop applications.
Features
- NVMe Protocol: The NVMe protocol enables direct communication between the SSD and the CPU, resulting in significantly faster speeds and lower latency compared to SATA-based SSDs.
- PCIe Gen3 x4 Interface: Supports high bandwidth through four PCIe lanes, maximizing data transfer speeds.
- 3D NAND Storage: The use of 3D NAND flash technology ensures higher density and better performance compared to traditional 2D NAND designs.
- TRIM Support: Improves SSD performance and longevity by optimizing no longer needed data blocks during write operations.
Application
- Desktop Computers: Ideal for upgrading desktop systems to improve overall system speed and responsiveness.
- Laptops: Perfect for use in laptops to ensure high performance with lower power consumption, which extends battery life.
- Gaming PCs: Increases loading times and performance in intensive games through faster data transfers and reduced latencies.
- Professional applications: Suitable for applications that process large amounts of data or require high write and read operations, such as video editing, graphic design and scientific calculations.
Advantages and challenges
Advantages
- High performance: The combination of NVMe protocol and PCIe Gen3 x4 interface enables high data transfer rates and fast response times.
- Capacity: With 512 GB, the SSD offers sufficient storage space for the operating system, applications and a considerable amount of data.
- Energy efficiency: Low energy consumption improves battery life in laptops and reduces heat generation.
- Durability: High reliability and long service life thanks to modern 3D NAND technology and advanced error correction mechanisms.
Challenges
- Cost: NVMe SSDs are typically more expensive than SATA SSDs, despite offering better performance.
- Compatibility: M.2 NVMe SSDs require a compatible M.2 slot and supporting NVMe-compatible hardware, which can limit compatibility with older systems.
- Capacity vs. HDDs: While 512GB is sufficient for many applications, this can seem limited when compared to large HDDs that offer terabyte capacities.
Conclusion
The Toshiba KXG50ZNV512G is a high-performance 512GB capacity NVMe SSD optimized for use in modern computers and laptops. With its high data transfer rate, low latency, and power efficiency, it offers excellent performance for a wide range of applications, from everyday computing tasks to demanding software and gaming. The SSD is particularly useful for users looking for a significant improvement in system speed and responsiveness without sacrificing large storage capacities.
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KXG50ZNV512G NVMe TOSHIBA 512GB and the compatible operating systems
Windows Server 2025, 2022, 2019, 2016, ... or 2008 and higher
Windows 12, 11, 10 or Windows 7 and higher
Linux (various distributions)
macOS (from version 10.6)
Please note that the exact functions and areas of application may vary depending on the firmware version and configuration of KXG50ZNV512G NVMe TOSHIBA 512GB.
The KXG50ZNV512G NVMe TOSHIBA 512GB is a reliable disk in case of problems, failures, file loss and other errors, check the drivers of the KXG50ZNV512G NVMe TOSHIBA 512GB regardless of whether it is under Windows 12, 11, 10, etc. or Linux and Apples macOS.