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Hynix HMT42GL7BMR4A-H9M1-AC 16GB DDR3-1333MHz LRDIMM 4Rx4 CL9 Memory
- 16GB DDR3 SDRAM capacity
- PC3-10600R (DDR3-1333MHz) speed rating
- LRDIMM (Load-Reduced DIMM) form factor for reduced electrical load
- 4Rx4 rank organization for increased bandwidth
- CL9 CAS Latency
- ECC (Error-Correcting Code) support for data integrity
- 240-pin DIMM connector
- Designed for server and high-end workstation platforms
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Product Overview
The Hynix HMT42GL7BMR4A-H9M1-AC is a high-performance 16GB DDR3 Load-Reduced DIMM (LRDIMM) memory module. Designed for server and workstation environments, it offers enhanced memory capacity and efficiency for demanding applications.
Technical Information
| Memory Type | DDR3 SDRAM |
| Capacity | 16GB |
| Speed | 1333MHz (PC3-10600R) |
| Form Factor | LRDIMM |
| Rank | 4Rx4 |
Additional Specifications
| CAS Latency | CL9 |
| Voltage | 1.5V |
| ECC | Yes |
| Buffered | Yes (Load-Reduced) |
| Pins | 240-Pin |
Product Description
The Hynix HMT42GL7BMR4A-H9M1-AC is a 16GB DDR3 LRDIMM module engineered to deliver robust performance and reliability in enterprise-level computing environments. Its DDR3 technology provides a balance of speed and power efficiency, making it suitable for a wide range of server applications that require substantial memory capacity. The LRDIMM (Load-Reduced DIMM) architecture is a key feature, designed to reduce the electrical load on the memory controller. This allows for higher memory densities and more memory channels to be populated on a motherboard, ultimately increasing overall system memory capacity and improving stability under heavy workloads. The 4Rx4 rank organization further enhances performance by providing more parallel data paths. With a speed of 1333MHz and a CAS Latency of CL9, this module ensures rapid data access for memory-intensive tasks such as virtualization, large database operations, and complex scientific simulations. The inclusion of ECC (Error-Correcting Code) provides critical data integrity by detecting and correcting single-bit errors, which is essential for mission-critical applications where data accuracy is paramount.
