The Transcend TS256MFB72V6U-T is a 2GB DDR2 ECC Fully Buffered DIMM (FBDIMM) server memory module. Designed to enhance the performance and stability of server systems, this module features ECC (Error-Correcting Code) for detecting and correcting memory errors, ensuring data integrity and system reliability. Fully Buffered DIMMs are designed to overcome the limitations of traditional DDR2 memory architectures by using an Advanced Memory Buffer (AMB) chip to manage the communication between the memory modules and the memory controller. This allows for higher memory densities and improved signal integrity in server environments.

Applications

• Servers
• High-End Workstations
• Data Centers
• Cloud Computing Environments
• Virtualization Platforms

Features

• 2GB Capacity
• DDR2 Technology
• ECC (Error-Correcting Code)
• Fully Buffered DIMM (FBDIMM)
• PC2-5300F (667MHz) Speed
• 240-Pin DIMM

Benefits

• Enhanced Reliability: ECC functionality corrects memory errors, preventing system crashes and data corruption.
• Increased Memory Density: FBDIMM architecture supports higher memory capacities in server environments.
• Improved Signal Integrity: AMB chip ensures stable and reliable communication between memory modules and the memory controller.
• Faster Data Transfer Rates: DDR2 technology provides faster data transfer rates compared to older memory standards.
• Optimized for Server Applications: Designed to meet the stringent requirements of server environments.

Additional Details

The TS256MFB72V6U-T operates at a speed of 667MHz (PC2-5300F). It is a 240-pin DIMM, which is the standard form factor for DDR2 memory. FBDIMMs require a specific motherboard that supports the FBDIMM architecture. They are typically used in older server platforms that require high memory capacity. The module is designed to meet JEDEC standards, ensuring compatibility with a wide range of server motherboards. Using ECC Fully Buffered memory is essential for maintaining the integrity of data in critical server applications, especially those that demand high levels of uptime and reliability. It improves overall system performance and prevents costly data loss due to memory errors.