The MCX516A CDAT is a high performance memory module designed for use in various computing applications that require high speed data transfer and efficient power management. Here is a concise introduction to its key attributes and model specification parameters:
1. Form Factor: The MCX516A CDAT is a DDR4 SODIMM (Small Outline Dual In line Memory Module), which is a compact form factor suitable for laptops, small form factor PCs, and other devices with limited space.
2. Capacity: This memory module comes in various capacities, typically ranging from 4GB to 16GB, allowing users to choose the amount of memory that best fits their needs.
3. Speed: It operates at high data transfer speeds, with typical speeds ranging from 2400MHz to 3200MHz, ensuring fast and efficient performance.
4. Voltage: The module operates at a low voltage, usually 1.2V, which contributes to energy efficiency and reduced heat generation.
5. Timing: The CAS latency (CL) timings vary depending on the speed of the module, but they are designed to provide a balance between speed and stability.
6. ECC (Error Correcting Code): The MCX516A CDAT supports ECC, which is crucial for applications that require high reliability and data integrity, such as servers and workstations.
7. Heat Spreader: Some versions of this module may include a heat spreader to help dissipate heat and maintain optimal operating temperatures.
8. Compatibility: It is designed to be compatible with a wide range of systems that support DDR4 SODIMM memory, ensuring a broad range of potential applications.
9. Manufacturer: The module is manufactured by Micron, a leading producer of memory and storage technologies, ensuring high quality and reliability.
10. Warranty and Support: Micron typically offers a limited warranty and technical support for its products, providing peace of mind for users.
In summary, the MCX516A CDAT is a versatile and efficient DDR4 SODIMM memory module that offers high speed performance, energy efficiency, and reliability, making it an excellent choice for a variety of computing applications.