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Dell 0C0NM1 16GB DDR3-1866MHz RDIMM 2Rx4 CL13 Memory
- 16GB capacity
- DDR3 SDRAM technology
- 1866MHz memory speed
- Registered DIMM (RDIMM) for server stability
- 2Rx4 module organization (Dual Rank, x4 data width)
- CL13 latency
- Designed for Dell PowerEdge servers
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Product Overview
The Dell 0C0NM1 is a 16GB DDR3-1866MHz RDIMM (Registered DIMM) memory module. It features a 2Rx4 configuration and CL13 latency, designed to provide reliable and high-speed memory upgrades for compatible Dell servers.
Technical Information
| Memory Type | DDR3 SDRAM |
| Capacity | 16GB |
| Speed | 1866MHz |
| Form Factor | DIMM |
| Type | RDIMM (Registered DIMM) |
Additional Specifications
| Rank | 2Rx4 (Dual Rank, x4) |
| CAS Latency | CL13 |
| Voltage | 1.5V |
| ECC | Yes (Registered ECC) |
Product Description
The Dell 0C0NM1 memory module is a high-performance component designed to enhance the capabilities of compatible Dell server systems. With a substantial 16GB capacity, it allows for increased multitasking, larger datasets to be processed in memory, and improved overall system responsiveness. This makes it an excellent choice for memory-intensive applications, virtualization, and database operations. Operating at a speed of 1866MHz, this DDR3 RDIMM ensures rapid data access and transfer rates, contributing to reduced latency and faster application execution. The Registered DIMM (RDIMM) design incorporates a register chip that buffers command and address signals, reducing electrical load on the memory controller and enabling higher memory capacities and improved stability, which is crucial for server environments. The 2Rx4 organization signifies that the module is dual-ranked, with each rank utilizing x4 (4-bit) data chips. This configuration can offer performance benefits in certain scenarios by allowing the memory controller to access different ranks concurrently. The CL13 CAS latency indicates the number of clock cycles required to access a specific memory column, providing a balance between speed and performance for demanding server workloads.



