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Kingston KVR1333D3N9K3/12 12GB Kit (3x 4GB) DDR3-1066MHz PC3-8500 Non-ECC Unbuffered CL7 240-Pin UDI...
- Kit Capacity: 12GB
- Module Capacity: 3x 4GB
- Memory Type: DDR3 SDRAM
- Speed: 1333MHz (PC3-10600)
- Latency: CL9
- Form Factor: 240-Pin UDIMM
- Voltage: 1.5V
- Features: Non-ECC, Unbuffered
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Product Overview
The Kingston KVR1333D3N9K3/12 is a 12GB memory kit comprised of three 4GB DDR3 SDRAM modules. Designed for enhanced multitasking and performance, this kit operates at 1333MHz (PC3-10600) with a CAS Latency of 9, offering a significant capacity boost for compatible systems.
Technical Information
| Kit Capacity | 12GB |
| Module Configuration | 3 x 4GB |
| Memory Type | DDR3 SDRAM |
| Speed | 1333MHz |
| PC Speed | PC3-10600 |
Additional Specifications
| CAS Latency | CL9 |
| Voltage | 1.5V |
| ECC | Non-ECC |
| Registered | Unbuffered |
| Form Factor | 240-Pin UDIMM |
Product Description
This Kingston ValueRAM kit, SKU KVR1333D3N9K3/12, provides a total of 12GB of memory, distributed across three 4GB DDR3 modules. It is specifically designed for users who require increased memory capacity for demanding applications, virtual machines, or heavy multitasking environments. The 1333MHz speed (PC3-10600) ensures efficient data transfer, while the CL9 latency offers a good balance of performance and stability. Each module in the kit is a 240-pin Unbuffered DIMM (UDIMM) operating at a standard 1.5V, making them compatible with a wide array of DDR3-enabled motherboards. The Non-ECC nature of these modules makes them suitable for standard desktop and workstation use where advanced error correction is not a primary requirement. The inclusion of three modules suggests potential for triple-channel configurations on motherboards that support it, although they can also be used in dual-channel or single-channel setups depending on the system's architecture. This kit represents a cost-effective way to significantly upgrade the memory capacity of a compatible system, enhancing overall responsiveness and application performance.
