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Hynix HMA84GR7CJR4N-XNTG 32GB DDR4-3200MHz RDIMM 2Rx4 CL22 Memory
- Capacity: 32GB
- Type: DDR4 RDIMM (Registered DIMM)
- Speed: 3200MHz
- Latency: CL22
- Configuration: 2Rx4 (Dual Rank x4)
- Voltage: Standard DDR4 voltage (typically 1.2V)
- ECC: Yes (Error-Correcting Code)
- Designed for server and high-performance computing environments
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Product Overview
The Hynix HMA84GR7CJR4N-XNTG is a high-performance 32GB DDR4 RDIMM memory module designed for servers and workstations. It operates at a speed of 3200MHz with a CL22 latency, offering significant improvements in data transfer rates and overall system responsiveness. This module features a 2Rx4 configuration, indicating dual-rank and quad-die organization, which enhances memory bandwidth and efficiency for demanding applications.
Technical Information
| Memory Type | DDR4 SDRAM |
| Form Factor | RDIMM |
| Capacity | 32 GB |
| Speed | 3200 MHz |
Additional Specifications
| CAS Latency | CL22 |
| Rank | 2R |
| Organization | x4 |
| ECC | Yes |
Product Description
The Hynix HMA84GR7CJR4N-XNTG is engineered to meet the rigorous demands of modern data centers and enterprise environments. Its 32GB capacity provides ample memory for complex multitasking, large datasets, and virtualization. The DDR4 technology ensures higher bandwidth and lower power consumption compared to previous generations, making it an efficient choice for scalable server infrastructure. The module's 3200MHz clock speed, coupled with a CL22 latency, translates to rapid data access and processing, crucial for applications such as high-frequency trading, scientific simulations, and big data analytics. The Registered DIMM (RDIMM) format includes onboard registers that reduce electrical load on the memory controller, allowing for higher memory capacities and improved signal integrity in systems with many memory modules. Featuring a 2Rx4 configuration, this memory module utilizes dual ranks, each with four data bits per chip. This design optimizes performance by allowing the memory controller to access different ranks independently, effectively doubling the data transfer rate for certain operations. The inclusion of Error-Correcting Code (ECC) is vital for maintaining data integrity by detecting and correcting single-bit errors, preventing system crashes and data corruption in critical applications.
