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Hynix HMA84GR7AFR4N-VKTF-AA 32GB DDR4-2666MHz RDIMM 2Rx4 CL19 Memory
- Capacity: 32GB
- Memory Type: DDR4 SDRAM
- Form Factor: RDIMM (Registered DIMM)
- Speed: 2666MHz (PC4-21300)
- Rank: 2Rx4 (Dual Rank x4)
- CAS Latency: CL19
- Voltage: 1.2V
- ECC: Yes (Error-Correcting Code)
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Product Overview
The Hynix HMA84GR7AFR4N-VKTF-AA is a 32GB DDR4 Registered DIMM (RDIMM) memory module. It operates at 2666MHz with a 2Rx4 configuration and a CAS Latency of CL19, designed for high-performance servers and workstations requiring substantial memory capacity.
Technical Information
| Memory Size | 32GB |
| Memory Type | DDR4-2666MHz RDIMM |
| Module Type | RDIMM |
| Rank | 2Rx4 |
Additional Specifications
| Speed | 2666 MT/s |
| CAS Latency | CL19 |
| Voltage | 1.2V |
| ECC | Registered ECC |
Product Description
This Hynix 32GB DDR4 RDIMM, model HMA84GR7AFR4N-VKTF-AA, is a high-capacity memory module engineered for demanding server and workstation environments. Its substantial 32GB capacity is ideal for memory-intensive applications such as large databases, complex simulations, and extensive virtualization deployments. The module utilizes DDR4 technology, offering enhanced bandwidth and power efficiency compared to previous generations. It operates at a speed of 2666MHz, providing rapid data access and processing capabilities. The CAS Latency of CL19 is a measure of the delay in clock cycles for accessing data. As a Registered DIMM (RDIMM), it includes an onboard register that buffers address and command signals, reducing the electrical load on the memory controller and enabling systems to support higher memory capacities and configurations. The 2Rx4 configuration indicates that the module is dual-rank, with each rank composed of four data bits per memory chip. This organization is common in high-density server memory and can contribute to improved performance through rank interleaving. The inclusion of ECC (Error-Correcting Code) is a critical feature for server-grade memory, providing robust data integrity by detecting and correcting memory errors, thereby ensuring system stability and reliability for mission-critical operations.



