HMAA8GR7MJR4N-XN Hynix 64GB DDR4-3200 ECC CL22 288-Pin DIMM

The Hynix 64GB PC4-25600 DDR4-3200MHz ECC Memory Module

The Hynix HMAA8GR7MJR4N-XN 64GB PC4-25600 DDR4-3200MHz ECC CL22 288-Pin DIMM memory module is a premium server-grade product designed for high-performance computing, data management, and reliable system operation. This module belongs to the advanced DDR4 server memory category, known for its strong bandwidth, stable performance, and robust power efficiency. It is engineered to meet the needs of modern data centers, enterprise servers, virtualization environments, scientific computing platforms, and intensive cloud applications. With error-correcting technology, dual-rank structure, and x4 organization, this memory module is able to support environments that require consistency, stability, and predictable performance at all times.

The Hynix HMAA8GR7MJR4N-XN ECC Server Memory

Server memory modules like the Hynix HMAA8GR7MJR4N-XN are engineered differently than consumer memory. This category focuses on stability, system integrity, and operational reliability. Unlike standard desktop memory, ECC DDR4 memory includes advanced data protection, lower failure rates, and extremely consistent output. These memory modules are essential in systems that require maximum uptime.

Importance of Dual Rank x4 Architecture

One of the structural strengths of this category is the dual-rank x4 configuration. This design improves memory bandwidth and allows for more efficient system performance. Servers built with dual-rank modules often achieve higher operational speed because the system can alternate between ranks when processing data.

Large-Scale Deployments

With a voltage requirement of only 1.2V, DDR4 memory is significantly more power-efficient than previous memory generations. This category focuses on reducing power consumption without compromising output. For data centers and enterprises with large clusters, these power savings become substantial.

Performance of the DDR4-3200MHz PC4-25600 ECC Memory

DDR4-3200MHz memory in this category offers extremely strong performance metrics suitable for modern computing demands. The classification “PC4-25600” reflects a peak bandwidth of 25,600 MB/s, which is vital in data-heavy operations. Applications involving virtualization, cloud-based processing, and large-scale databases rely heavily on such speed.

High  Data-Intensive Workloads

Bandwidth is one of the biggest advantages in this memory classification. Fast memory reduces delays and accelerates system responsiveness. Whether a system is managing real-time workloads, handling large datasets, or supporting multiple users simultaneously, the ability to move data quickly is essential.

Latency

The CL22 latency value is typical for high-capacity ECC server memory modules. While lower latency is often required in gaming or consumer applications, server memory emphasizes stability and capacity over minimal latency. CL22 in DDR4 modules ensures that the module handles large-scale tasks consistently.

Enterprise-Grade Systems

This memory category includes modules designed for full compatibility with server chipsets, workstation motherboards, and enterprise platforms. These modules work reliably with Intel and AMD server processors, including models in the Xeon and EPYC families.

Use Cases

The Hynix HMAA8GR7MJR4N-XN 64GB module belongs to a category that supports a wide range of enterprise and advanced computing uses. These modules are typically deployed in systems requiring consistent performance, error-free data processing, and high memory density.

Enterprise Workloads

Businesses running servers for ERP systems, customer resource applications, or internal software rely heavily on stable and secure memory modules like those in this category. ECC memory plays a crucial role in maintaining service uptime.

Virtualization and Cloud Computing

Virtualized environments often require large amounts of RAM to support multiple virtual machines simultaneously. Higher capacity modules ensure that computational resources are divided efficiently without performance degradation.

DDR4 ECC Memory Modules

The 1.2V operating requirement is a defining feature of DDR4 technology within this category. Lower power usage leads to smaller electricity bills and reduced cooling costs—factors that matter in high-density server deployments.

Environmental Benefits

Lower power consumption means fewer heat emissions. This results in a greener, more energy-efficient server environment that aligns with modern sustainability goals.

Intel Xeon Platforms

This category of memory is fully compatible with modern Intel Xeon processors, including configurations used for cloud computing, workstation design, and large-scale enterprise servers.

AMD EPYC Platforms

AMD EPYC systems, known for extremely high core counts and multi-socket performance, benefit greatly from dual-rank ECC memory. The strong bandwidth aligns well with EPYC processing capabilities.