The HMA84GR7MFR4N-UHTD is a 32GB DDR4 ECC Registered DIMM manufactured by Hynix Semiconductor. Designed for servers and high-end workstations, this memory module provides a substantial capacity for memory-intensive applications and includes error correction for improved data integrity. The "UHTD" suffix likely denotes a specific speed, timing, or temperature rating within the DDR4 specifications.

Applications:

• Servers
• High-performance workstations
• Data centers
• Cloud computing infrastructure
• Virtualization platforms

Features:

• 32GB Capacity: Offers ample memory for demanding workloads and large datasets.
• DDR4 Technology: Provides faster data transfer rates and improved power efficiency compared to previous DDR generations.
• ECC (Error-Correcting Code): Detects and corrects single-bit errors, enhancing system reliability and preventing data corruption.
• Registered DIMM: Features a register between the memory controller and DRAM chips, improving signal integrity and allowing for larger memory configurations.
• High Bandwidth: Enables fast data access and processing.
• Low Voltage: Operates at a lower voltage (typically 1.2V), reducing power consumption and heat generation.

Benefits:

• Improved System Performance: Higher memory capacity and faster speeds enhance application responsiveness and overall system performance.
• Increased Reliability: ECC functionality minimizes data errors and prevents system crashes, ensuring data integrity.
• Enhanced Scalability: Registered DIMMs allow for larger memory configurations to accommodate growing workloads.
• Reduced Power Consumption: DDR4 technology optimizes energy efficiency, lowering operating costs.
• Optimized for demanding server and workstation environments.

Additional Details:

The HMA84GR7MFR4N-UHTD adheres to JEDEC DDR4 standards. Consult the Hynix datasheet for specific timing parameters and operating conditions. Compatibility with the target system's motherboard and CPU is essential; the system must support DDR4 ECC Registered DIMMs. Proper installation involves careful alignment and secure insertion of the module into the DIMM slot, ensuring the locking mechanisms are engaged.