Q1: What is the Micron MTA18ASF2G72HZ-3G2R1?
A1: The Micron MTA18ASF2G72HZ-3G2R1 is an 8GB DDR4 registered DIMM (RDIMM) memory module designed for server and high-performance workstation applications. It provides reliable, high-speed memory with ECC support and registered buffering, ensuring stable and efficient operation in mission-critical computing environments.
Q2: What type of memory is the MTA18ASF2G72HZ-3G2R1?
A2: The MTA18ASF2G72HZ-3G2R1 is DDR4 SDRAM with registered DIMM (RDIMM) architecture. DDR4 provides higher bandwidth, lower voltage operation, and improved signal integrity compared to DDR3, making it suitable for high-performance servers and data-intensive applications.
Q3: What is the memory capacity of the MTA18ASF2G72HZ-3G2R1?
A3: The MTA18ASF2G72HZ-3G2R1 has a memory capacity of 8GB per module. This capacity supports multitasking, virtualization, and large datasets in server and workstation environments, enabling efficient processing for high-performance computing tasks.
Q4: What is the data transfer rate of the MTA18ASF2G72HZ-3G2R1?
A4: The MTA18ASF2G72HZ-3G2R1 operates at a data rate of 2400 MT/s. This high transfer rate allows rapid access to memory, which improves system performance for database servers, virtual machines, and other memory-intensive workloads.
Q5: What is the operating voltage of the MTA18ASF2G72HZ-3G2R1?
A5: The MTA18ASF2G72HZ-3G2R1 operates at a low voltage of 1.2V, which reduces power consumption and heat generation compared to earlier DDR3 modules. This efficiency is particularly important in high-density server environments where multiple DIMMs are installed.
Q6: What form factor does the MTA18ASF2G72HZ-3G2R1 use?
A6: The MTA18ASF2G72HZ-3G2R1 uses a 288-pin DIMM form factor, which is standard for DDR4 memory modules in servers and workstations. This form factor ensures compatibility with most enterprise-class motherboards supporting DDR4 RDIMMs.
Q7: Does the MTA18ASF2G72HZ-3G2R1 support error correction?
A7: Yes, the MTA18ASF2G72HZ-3G2R1 supports ECC (Error-Correcting Code). ECC detects and corrects single-bit errors automatically, enhancing system reliability, preventing data corruption, and maintaining stable operation for mission-critical applications.
Q8: What is the rank configuration of the MTA18ASF2G72HZ-3G2R1?
A8: The MTA18ASF2G72HZ-3G2R1 is organized as a dual-rank memory module. Dual-rank modules allow for higher memory density and improved performance in multi-channel memory configurations, enhancing overall system throughput.
Q9: What type of register does the MTA18ASF2G72HZ-3G2R1 use?
A9: The MTA18ASF2G72HZ-3G2R1 uses a fully buffered register (RDIMM). The register reduces electrical loading on the memory controller, improves signal integrity, and supports reliable operation in systems with multiple memory modules installed.
Q10: What is the CAS latency of the MTA18ASF2G72HZ-3G2R1?
A10: The MTA18ASF2G72HZ-3G2R1 has a typical CAS latency of 17 cycles. CAS latency indicates the delay between issuing a read command and data availability, balancing high-speed access with stable operation for server workloads.
Q11: What is the operating temperature range of the MTA18ASF2G72HZ-3G2R1?
A11: The MTA18ASF2G72HZ-3G2R1 operates within a temperature range of 0°C to 85°C. This wide range ensures reliable operation in server rooms, data centers, and industrial environments where temperature variations may occur.
Q12: How does the MTA18ASF2G72HZ-3G2R1 ensure reliability in servers?
A12: Reliability is ensured through ECC error correction, registered DIMM buffering, high-quality DRAM components, and thermal tolerance. These features prevent data corruption, maintain stable operation under heavy workloads, and reduce the risk of system downtime.
Q13: Can the MTA18ASF2G72HZ-3G2R1 be used in multi-channel memory configurations?
A13: Yes, the MTA18ASF2G72HZ-3G2R1 is designed for multi-channel memory configurations. Dual-rank organization and registered DIMM architecture enable multiple modules to work efficiently together, increasing memory bandwidth and system performance in servers and high-performance workstations.
Q14: What is the typical power consumption of the MTA18ASF2G72HZ-3G2R1?
A14: The MTA18ASF2G72HZ-3G2R1 has low power consumption due to its 1.2V operation, typically around 4–5 watts under active load. This efficiency reduces heat generation, helping maintain cooling efficiency and reliability in dense memory systems.
Q15: How does the MTA18ASF2G72HZ-3G2R1 compare to unbuffered DIMMs?
A15: Compared to unbuffered DIMMs (UDIMMs), the MTA18ASF2G72HZ-3G2R1 provides registered buffering and ECC support. This ensures greater stability, signal integrity, and higher memory capacity, making it more suitable for enterprise servers and mission-critical workstations.
Q16: What applications is the MTA18ASF2G72HZ-3G2R1 ideal for?
A16: The MTA18ASF2G72HZ-3G2R1 is ideal for enterprise servers, data centers, virtualization environments, cloud computing platforms, and high-performance workstations. Its combination of high capacity, low latency, and ECC support ensures dependable performance for demanding workloads.
Q17: How does the MTA18ASF2G72HZ-3G2R1 handle thermal stress in dense systems?
A17: The module is built with thermal-tolerant DRAM components and low-voltage operation, reducing heat generation and ensuring stable performance in high-density server environments. This design allows reliable operation even in tightly packed memory configurations.
Q18: What signaling voltage does the MTA18ASF2G72HZ-3G2R1 use?
A18: The MTA18ASF2G72HZ-3G2R1 uses a 1.2V signaling voltage, standard for DDR4 memory. This low voltage improves power efficiency and allows for faster and more reliable operation in modern server and workstation architectures.
Q19: How does the MTA18ASF2G72HZ-3G2R1 support high-speed data access?
A19: High-speed access is supported through DDR4 technology, 2400 MT/s data rate, dual-rank organization, and registered buffering. These features reduce signal degradation, improve bandwidth, and provide faster access to memory for demanding applications such as virtualization and database servers.
Q20: What features ensure long-term reliability for the MTA18ASF2G72HZ-3G2R1?
A20: Long-term reliability is ensured by ECC error correction, registered DIMM buffering, high-quality DRAM components, low-voltage operation, and thermal tolerance. These features collectively prevent data errors, maintain stable system performance, and support extended operation in enterprise-grade memory systems.
