NVMe CL4-3D256-Q11 NVMe SSSTC 256GB
User Benchmarks
| Model | Type | Score | Seq. Read MB | Seq. Write MB | Read 4k64QD | Write 4k64QD | Read Access msek. | Write Access msek. |
| NVMe CL4-3D256-Q11 NVMe SSSTC 256GB | 256 | 5537 | 2365 | 1913 | 540.87 | 375.65 | 0.08 | 0.02 |
The measurement of the NVMe CL4-3D256-Q11 NVMe SSSTC 256GB was carried out on Windows. Similar read and write speeds could certainly be achieved with the NVMe CL4-3D256-Q11 NVMe SSSTC 256GB under Linux and MacOS. Of course, the correct hard drive driver should be installed and the correct interface for the NVMe CL4-3D256-Q11 NVMe SSSTC 256GB should be used.
NVMe CL4-3D256-Q11 NVMe SSSTC 256GB
The NVMe CL4-3D256-Q11 NVMe SSSTC 256GB is a solid state drive (SSD) based on the NVMe (Non-Volatile Memory Express) interface and manufactured by SSSTC (Solid State Storage Technology Corporation). The model name provides clues to the specifications and technologies used in this drive. Here is a detailed description, including technical details, features and application areas of the device:
General Description
The NVMe CL4-3D256-Q11 NVMe SSSTC 256GB is a high-performance NVMe SSD optimized for high data transfer rates and low latency. With a capacity of 256 GB, this drive offers a balance between sufficient storage space and high performance. The use of the NVMe interface allows the drive to take full advantage of modern PCIe (Peripheral Component Interconnect Express) bus technology.
Technical details
- Model name: NVMe CL4-3D256-Q11 NVMe SSSTC 256GB
- Storage capacity: 256 GB
- Form factor: M.2 2280 - A common form factor for NVMe SSDs that has a length of 80 mm and a width of 22 mm.
- Interface: NVMe over PCIe – NVMe (Non-Volatile Memory Express) is an interface that communicates over the PCIe (Peripheral Component Interconnect Express) bus and is designed for high speed and low latency.
- Memory Chip Type: NAND Flash – The exact details of the NAND type (SLC, MLC, TLC, QLC) can vary, but typically SSDs of this type use TLC (Triple-Level Cell) or QLC (Quad-Level Cell) NAND.
- Controller: The controller manages the data flows between the NAND memory and the PCIe bus. The specific model of controller can vary, but is critical to the performance of the SSD.
- Read Speed: Up to 2,500 MB/s – The maximum data transfer rate when reading data. This speed may vary depending on the system and usage.
- Write Speed: Up to 1,800 MB/s – The maximum data transfer rate when writing data. This speed also depends on various factors such as system configuration and operating conditions.
- Access times: Very low latencies compared to traditional SATA SSDs and HDDs. NVMe SSDs generally offer access times in the microsecond range.
Features
- High performance: The NVMe interface offers significant performance improvements over older SATA SSDs, especially for simultaneous read and write operations.
- Fast boot times: The high read performance ensures faster operating system boot times and fast application load times.
- Efficient data management: The NVMe controller enables efficient management of data streams and reduces latency, which is particularly beneficial for data-intensive applications.
- Encryption: Many NVMe SSDs offer hardware encryption to protect the data on the drive. Specific support depends on the model and manufacturer.
- TRIM support: TRIM command supports maintenance and optimization of SSD performance by freeing up data blocks that are no longer needed.
Application area
- Desktop PCs: NVMe SSDs are ideal for desktop PCs where high performance and fast data transfer rates are required. This is especially true for high-end workstations and gaming PCs.
- Laptops: They offer a significant performance increase in laptops that support M.2 NVMe slots. This results in faster booting, improved loading times and better overall performance.
- Servers and data centers: Due to their high performance and low latency, NVMe SSDs are also suitable for servers and data centers, where they offer fast data access and high IOPS (Input/Output Operations Per Second).
- Data-intensive applications: Ideal for applications that need to process large amounts of data, such as video editing, 3D rendering and scientific computing.
Benefits and Challenges
Benefits
- High Speed: NVMe SSDs offer significantly faster read and write speeds compared to SATA SSDs and HDDs.
- Low Latency: The NVMe interface enables very low latency, resulting in faster response times and better overall performance.
- Scalability: NVMe is scalable and can handle high data transfer rates and many simultaneous data streams.
Challenges
- Cost: NVMe SSDs tend to be more expensive than SATA SSDs and HDDs, although prices have been reduced in recent years.
- Compatibility: Not all systems and motherboards support NVMe SSDs. It is important to ensure the system supports the M.2 NVMe form factor.
- Capacity: At 256GB, capacity is limited for some applications and users. Larger capacities are often available, but cost more.
Conclusion
The NVMe CL4-3D256-Q11 NVMe SSSTC 256GB is a high-performance SSD that takes advantage of the NVMe interface to deliver high data transfer rates and low latency. With 256GB capacity, it is well suited for high-performance desktops, laptops, and data-intensive applications. While it comes with a higher cost than SATA-based alternatives, it offers significant performance gains that are beneficial for many modern applications and users.
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NVMe CL4-3D256-Q11 NVMe SSSTC 256GB 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 NVMe CL4-3D256-Q11 NVMe SSSTC 256GB.
The NVMe CL4-3D256-Q11 NVMe SSSTC 256GB is a reliable disk in case of problems, failures, file loss and other errors, check the drivers of the NVMe CL4-3D256-Q11 NVMe SSSTC 256GB regardless of whether it is under Windows 12, 11, 10, etc. or Linux and Apples macOS.