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| Product Overview |
|---|
The MTC20F104XS1RC64B Micron module features a 48GB capacity with DDR5-6400 speed, PC5-51200 bandwidth, CL52 latency, and RDIMM architecture tailored for enterprise-grade server environments requiring robust memory performance and stability. |
| General Information | |
|---|---|
| Brand | Micron |
| Part Number | MTC20F104XS1RC64B |
| Technical Information | |
|---|---|
| Memory Technology | DDR5 |
| Module Type | RDIMM |
| RAM Standard | PC5-51200 |
| Pin Count | 288-Pin |
| Error Correction | ECC |
| Voltage | 1.1V |
| Performance | |
|---|---|
| Bus Speed | 6400 MT/s |
| Bandwidth | 51200 MB/s |
| Native Speed | 6400 MT/s |
| CAS | 52 |
| Physical Characteristics | |
|---|---|
| Package | FBGA |
| Weight | 0.50 |
| Condition | Refurbished |
| Miscellaneous | |
|---|---|
| Assembly Required | No |
| Product Description |
|---|
The MTC20F104XS1RC64B Micron 48GB DDR5-6400 PC5-51200 CL52 RDIMM Memory Module is designed to provide high-capacity and high-speed memory performance for advanced computing systems. This module operates at DDR5-6400 speeds, delivering efficient data throughput suitable for demanding applications. Typically found in enterprise servers and high-performance workstations, this memory module supports workloads requiring large memory footprints and fast access times. IT professionals and system architects benefit from its stability and scalability in data center environments. Key Features
This Micron memory module is engineered to meet the rigorous demands of modern computing infrastructures. Its advanced design helps maintain system stability and performance across a variety of intensive workloads. Integrating this module into compatible systems offers a reliable memory upgrade path for enhancing overall system efficiency and capability. |
| Use Cases |
|---|
The MTC20F104XS1RC64B Micron memory module is suitable for environments demanding large memory capacity and high-speed data processing. How It's Used:
Its design ensures compatibility with systems aimed at maximizing throughput and reliability in critical workloads. |