Safe Checkout
Secure Payments
Fast Delivery
Order Today
Free Shipping
Across the US
Easy Returns
Hassle-Free
Samsung M393A4G43BB4-CWEBY 32GB DDR4-3200MHz RDIMM 2Rx8 CL22 Memory
- 32GB DDR4 SDRAM
- 3200MHz Memory Speed
- RDIMM (Registered DIMM)
- 2Rx8 (Dual Rank x8)
- CL22 CAS Latency
- 1.2V Voltage
- ECC (Error-Correcting Code) support
- High-performance server and workstation memory
Free U.S. Ground Shipping
Typically 1-2 handling + 3-7 transit days
Purchase orders accepted
For government, enterprise, data center, and small business customers.
Bulk Purchase Inquiry
Volume pricing and availability
Product Overview
The Samsung M393A4G43BB4-CWEBY is a high-capacity 32GB DDR4 RDIMM memory module, operating at 3200MHz with a 2Rx8 configuration and CL22 latency. It is designed for demanding server and workstation environments requiring significant memory bandwidth and capacity.
Technical Information
| Memory Capacity | 32GB |
| Memory Type | DDR4 SDRAM |
| Form Factor | RDIMM |
| Speed | 3200MHz |
Additional Specifications
| Rank | 2Rx8 |
| CAS Latency | CL22 |
| Voltage | 1.2V |
| ECC | Yes |
Product Description
This 32GB DDR4 Registered DIMM (RDIMM) from Samsung, identified by SKU M393A4G43BB4-CWEBY, represents a significant leap in memory performance and capacity for enterprise-grade systems. Operating at a rapid 3200MHz, it delivers exceptional bandwidth, crucial for memory-intensive applications such as large-scale virtualization, high-performance computing, and complex data analytics. The 2Rx8 configuration signifies a dual-rank design, which can further enhance performance by allowing the memory controller to access different ranks of memory concurrently. Coupled with ECC support, this module ensures high levels of data integrity and system stability, essential for mission-critical server operations. The CL22 CAS Latency is standard for this speed class, balancing responsiveness with overall throughput. Designed for server and workstation platforms, this RDIMM is built to handle the rigorous demands of continuous operation. Its substantial capacity and high speed make it an ideal choice for upgrading systems that require substantial memory resources to maximize processing power and efficiency.
