Description
Random Access Performance
Random Access Performance refers to the time it takes for a storage device, such as the Kingston SKC3000D/4096G KC3000 4TB M.2 2280 PCIE 4.0 NVMe Internal SSD, to retrieve data from a random location on the disk.
The Kingston SKC3000D/4096G KC3000 4TB M.2 2280 PCIE 4.0 NVMe Internal SSD is a high-performance SSD that uses the NVMe protocol and a PCIE 4.0 interface, which provides fast data transfer speeds. The NVMe protocol allows for low latency and high parallelism, which results in fast random access times compared to traditional SATA-based SSDs.
The specific random access performance of the Kingston SKC3000D/4096G KC3000 4TB M.2 2280 PCIE 4.0 NVMe Internal SSD will depend on a variety of factors, including the workload, the hardware it’s used in, and the system configuration. However, in general, you can expect fast random access performance from this SSD due to its use of the NVMe protocol and PCIE 4.0 interface.
NVME Management Interface
The NVMe Management Interface (NVM Express, NVMe) is a standardized interface for accessing the non-volatile memory (NVM) of solid-state drives (SSDs) that are connected to a computer via the Peripheral Component Interconnect Express (PCIe) bus.
The Kingston SKC3000D/4096G KC3000 4TB M.2 2280 PCIE 4.0 NVMe Internal SSD is an example of an SSD that uses the NVMe interface. The “M.2 2280” form factor refers to the physical size of the drive (22mm wide, 80mm long) and the “PCIe 4.0” interface indicates the drive uses the fourth generation of the PCIe bus, which supports higher data transfer speeds than earlier versions.
The NVMe interface offers several advantages over older storage interfaces, including lower latency and higher transfer speeds, as well as support for advanced features such as fine-grained command queuing, multi-path I/O, and improved power management. These benefits make NVMe-compatible SSDs well-suited for high-performance computing, data center, and enterprise storage applications.
Temperature Management and Heat Dissipation
The Kingston SKC3000D/4096G KC3000 4TB M.2 2280 PCIE 4.0 NVMe Internal SSD uses an M.2 form factor, which is a compact and efficient design that saves space and reduces thermal issues. M.2 drives are typically mounted directly onto the motherboard, allowing for better heat dissipation compared to traditional 2.5-inch drives.
However, it’s important to note that solid-state drives generate heat during operation due to the high speed of the NAND flash chips used for data storage. To manage this heat, the KC3000 uses a thermal pad that helps to dissipate heat from the NAND flash chips to the motherboard. This helps to prevent overheating and improve overall performance and stability of the drive.
Additionally, the use of NVMe (Non-Volatile Memory Express) protocol for communication between the drive and the computer helps to reduce latency and increase data transfer speeds. NVMe also allows for optimized thermal management by taking advantage of the parallelism offered by modern multi-core processors, which can distribute the thermal load across multiple cores.
In conclusion, the Kingston SKC3000D/4096G KC3000 4TB M.2 2280 PCIE 4.0 NVMe Internal SSD has been designed to provide optimal temperature management and heat dissipation through its form factor, thermal pad, and use of the NVMe protocol.
Main Specifications about this Kingston SKC3000D/4096G
- Part Number or SKU# SKC3000D/4096G
- Manufacturer: Kingston
- Type: Solid State Drive
- Capacity: 4TB SSD
Key Information of 4TB Solid State Drive
- Nand Flash Memory Type: 3d Triple-level Cell (TLC)
- Form Factor: M.2 2280
- Interface: PCI Express NVMe
- Features: Nvm Express (NVMe), Phison E18 Controller
Performance for PCIE NVMe SSD
- SSD Endurance: 3276.80TB
- Internal Data Rate: 7000 MBPS (read) / 7000 MBPS (write)
- 4kb Random Read: 1000000 Iops
- 4kb Random Write: 1000000 Iops
- Mtbf: 1,800,000 Hours
Expansion & Connectivity
- Interfaces: 1 X PCI Express 4.0 X4 (NVME) – M.2 Card
- Compatible Bay: M.2 2280
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