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Micron MT9HTF3272Y-667BZES 256MB DDR2-667MHz ECC Registered CL5
- 256MB DDR2 SDRAM capacity
- 667MHz clock speed
- ECC Registered (RDIMM) for error correction and stability
- CL5 latency timing
- Designed for server and workstation environments
- 1.5V voltage operation
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Product Overview
The Micron MT9HTF3272Y-667BZES is a 256MB DDR2 SDRAM module designed for servers and high-performance workstations. It operates at a speed of 667MHz and features ECC (Error-Correcting Code) functionality for enhanced data integrity. This module is registered, meaning it includes a register between the DRAM core and the system's memory controller, reducing electrical load and allowing for higher clock speeds and larger capacities.
Technical Information
| Capacity | 256MB |
| Memory Type | DDR2 SDRAM |
| Speed | 667MHz |
| Form Factor | DIMM |
Additional Specifications
| ECC | Registered ECC |
| CAS Latency | CL5 |
| Voltage | 1.5V |
Product Description
The Micron MT9HTF3272Y-667BZES is a high-quality memory module engineered to meet the demanding requirements of server and workstation applications. Its 256MB capacity, coupled with DDR2 technology, provides a solid foundation for multitasking and data-intensive operations. The module's adherence to the 667MHz speed standard ensures efficient data transfer rates, crucial for maintaining system responsiveness under load. Key to its reliability is the inclusion of ECC (Error-Correcting Code) Registered functionality. ECC memory actively detects and corrects single-bit errors, preventing data corruption and system crashes that can occur with standard unbuffered memory. This makes the MT9HTF3272Y-667BZES an ideal choice for environments where data integrity is paramount, such as financial systems, scientific computing, and critical database management. Furthermore, the module's CL5 latency rating indicates a specific timing parameter that influences its performance. When integrated into a compatible system, this memory module contributes to overall system stability and performance, offering a reliable and robust memory solution for professional computing needs.
