| Product Type | Memory Module |
|---|---|
| Memory Capacity | 16 GB |
| Memory Technology | DDR4 |
| Product Voltage | 1.2V |
| RAM Speed | 2400MHz |
| RAM Standard | DDR4-2400/PC4-19200 |
| Error Identifying | ECC |
| Signal Type | Registered |
| Column Access Strobe (CAS) | CL17 |
| Rank | Dual Rank x8 |
| Quantity of Pins | 288-pin |
| RAM Genre | RDIMM |
This 16GB DDR4-2400 Registered ECC RDIMM is purpose-built for enterprise server platforms, delivering robust data integrity for virtualized workloads, in-memory databases, and mission-critical applications. Its dual-rank x8 architecture and registered signaling enhance signal stability and memory channel efficiency while ECC error correction ensures resilient, low-latency operation at 1.2V.
1. ECC protection silently corrects single-bit memory errors, preserving data accuracy for transaction-heavy databases and financial services that cannot tolerate silent corruption.
2. Registered buffer technology isolates the memory controller from heavy electrical loads, preserving signal integrity across fully populated server boards essential for large-scale virtualization hosts.
3. Dual-rank organization interleaves internal banks to sustain higher effective bandwidth, preventing bottlenecks when hypervisors consolidate dozens of actively paging virtual machines.
4. The module’s density allows a single server to host far more memory-resident containers and VMs, directly improving consolidation ratios and lowering per-workload hardware cost.
5. Operation at DDR4’s energy-efficient voltage level reduces aggregate power draw per rack, helping dense data centers achieve thermal and power-usage-effectiveness goals without sacrificing stability.
In the data center, this Micron RDIMM is engineered where errors are not an option and every watt counts. As a registered DDR4-2400 module, its ECC actively scrubs single-bit flips caused by cosmic radiation — a critical shield for financial databases where silent corruption risks transaction integrity. The registered signal buffer ensures rock-solid signal integrity across densely populated channels, letting you confidently populate all 24 DIMM slots in a virtualization cluster without stability degradation, so your hypervisor hosts more VMs reliably. Dual-rank x8 architecture unlocks rank interleaving, delivering higher sustained bandwidth that shrinks query latency in Redis or SAP HANA in‑memory databases, allowing real-time analytics to run faster on the same clock speed. Meanwhile, the 1.2V operating voltage directly lowers energy draw and thermal load across racks of servers, driving down your TCO while maintaining 16GB of high-density capacity per stick. For virtualized enterprise workloads and data-crucial applications, this module turns technical specs into tangible uptime and efficiency gains.
General Virtualization
Deploy these 16 GB Registered ECC DDR4 modules in balanced sets across all memory channels—typically six or eight DIMMs per dual-socket server. This configuration provides generous headroom for multiple virtual machines while registered buffering and ECC maintain data integrity under constant multi-tenant pressure. Populate identical modules identically per CPU to avoid NUMA imbalances and preserve 2400 MT/s throughput.
In-Memory Database
Maximise capacity and reliability by filling every available slot with these dual-rank x8 RDIMMs. A fully populated 12- or 16-DIMM layout delivers the low-latency, high-bandwidth access that in-memory engines like Redis or SAP HANA require, and ECC prevents silent data corruption in mission-critical datasets. Keep the 1.2 V modules well-cooled to sustain peak clock speed during long analytical runs.
High-Performance Computing
Install symmetric DIMM quantities per processor socket (e.g., 8 × 16 GB for a 4-channel platform) to enable optimal memory interleaving. The registered architecture allows dense configurations without signal degradation, keeping floating-point pipelines saturated. The 16 GB capacity per stick offers a sweet spot between cost, core-count matching, and thermal efficiency in scale-out clusters.
Rigorously tested, compatible with Dell PowerEdge R740, HPE ProLiant DL380 Gen10, Lenovo ThinkSystem SR650.
Q: Can I mix this MTA18ASF2G72PDZ-2G3D1QG with other memory modules of different brands or speeds?
A: Mixing RDIMMs of different brands or speeds is not recommended. It may cause signal integrity issues or force all modules to the lowest common speed, compromising server stability and performance.
Q: Is this memory compatible with my system?
A: This DDR4-2400 RDIMM is designed for Intel Xeon E5-2600 v3/v4 and AMD EPYC platforms using DDR4. Please verify your server board supports registered ECC memory and 2400MHz speeds.
Q: What is the recommended DIMM population order for optimal performance?
A: Follow your server board's manual; typically, populate identical DIMMs per channel starting farthest from the CPU. Balanced loading across memory channels ensures optimal throughput and dual-rank interleaving benefits.
Q: Does this module support overclocking or XMP profiles?
A: No. This registered server memory adheres to JEDEC DDR4-2400 standards and does not support overclocking or XMP profiles, as reliability under sustained enterprise workloads is the priority.
Q: What warranty and typical failure rate can I expect?
A: This module includes a one-year warranty. As an enterprise-grade RDIMM, it has a very low annualized failure rate, typically around 0.1–0.2%, ensuring reliable 24/7 operation in data centers.