Hynix HMN82GR7AFR4N-UH 16GB Pc4-19200 DDR4 2400MHz SDRAM Rdimm RAM Module

Highlights of Hynix 16GB DDR4 2400MHz RAM

The Hynix HMN82GR7AFR4N-UH 16GB PC4-19200 DDR4 2400MHz SDRAM Registered DIMM is a premium memory upgrade designed to deliver dependable speed, stability, and efficiency for enterprise-grade systems.

Manufacturer Details

• Brand Name: Hynix
• Model Number: HMN82GR7AFR4N-UH
• Category: Server Memory Module

Technical Specifications

Core Features

• Storage Capacity: 16GB
• Memory Technology: DDR4 SDRAM
• Configuration: Single 16GB module

Performance Attributes

• Speed Rating: 2400MHz
• Standard Compliance: DDR4-2400MHz / PC4-19200
• Error Detection: ECC (Error-Correcting Code)
• Operating Voltage: 1.2V
• Type: Registered DIMM (RDIMM)

Physical Characteristics

Design and Build

• Form Factor: 288-pin DIMM

Dimensions and Weight

Measurements

• Height: 2.00 inches
• Depth: 7.00 inches

Weight

• Shipping Weight: 0.20 lbs

Hynix HMN82GR7AFR4N-UH 16GB PC4-19200 DDR4 ECC RAM

The Hynix HMN82GR7AFR4N-UH 16GB PC4-19200 DDR4 2400MHz SDRAM RDIMM memory module represents an essential tier of enterprise-class system memory designed for scalable, reliable, and high-performance computing infrastructures. Its architecture is built around DDR4 technology, delivering a stable data transfer rate, improved bandwidth efficiency, and operational consistency suitable for modern servers and complex data-center environments. This category of memory modules aligns with the increasing performance demands of virtualization workloads, database optimization tasks, multi-threaded processing activities, and continuous enterprise operations that require unwavering platform stability and predictable memory behavior.

Role of DDR4 2400MHz RDIMM in Enterprise-Grade Systems

The category of DDR4 2400MHz RDIMM modules emphasizes a structured blend of reliability and efficiency for business-critical servers. These memory components use registered buffering to ensure that signal integrity remains stable as memory capacity increases, allowing systems to utilize larger total memory quantities without compromising performance. This makes RDIMM memory ideal for organizations deploying cloud infrastructure, compute nodes, machine learning servers, virtualization hosts, financial platforms, engineering applications, and environments operating heavy workloads. The 2400MHz transfer speed ensures a consistent data rate while the PC4-19200 specification upholds a bandwidth level that supports multi-tasking and heavy computational processes with reduced latency.

Data Handling Efficiency and Memory Bandwidth

Within this category, memory modules are optimized to enhance bandwidth throughput and improve data handling efficiency in networked, clustered, or local server solutions. The Hynix HMN82GR7AFR4N-UH module adheres to these principles by delivering balanced bandwidth per channel, ensuring that servers can manage simultaneous instruction sets without memory bottlenecking. Its operational voltage maintains DDR4 efficiency standards, granting improved thermal output, stable power draws, and reduced energy consumption during peak processing cycles. These attributes make DDR4 RDIMM memory a dependable choice for round-the-clock enterprise deployments that thrive on uninterrupted data movement.

Compatibility Structure and Performance Synchronization

This memory category is developed to align with multi-generation server mainboards supporting DDR4 RDIMM slots. Compatibility structures ensure that server architectures utilizing Intel Xeon or AMD EPYC processors recognize the registered buffering method, synchronize memory timings, and deliver optimized frequency stability during operations. The standardized 2400MHz frequency serves as a balanced middle tier for extensive platforms that need reliable operational baselines rather than overclocked performance bursts. This synchronization reduces risk factors associated with system downtime, unresponsive workloads, or memory timing failures.

Operational Benefits in Data-Intensive Environments

The category of 2400MHz registered memory modules supports demanding environments where data intensity is a constant factor. Whether deployed inside enterprise private clouds, edge computing nodes, virtualization platforms, or heavy analytical systems, the Hynix HMN82GR7AFR4N-UH delivers consistent throughput for applications that depend on rapid memory access cycles. These modules are crafted to support advanced memory pipelines, enhance cache interactions, and offer predictable timing behaviors essential for mission-critical performance stability.

Enhanced Stability through Registered Buffering

Registered buffering is a core characteristic of RDIMM modules and functions to protect the memory controller from excessive electrical load. As servers expand memory density, the electrical demand on components increases, and RDIMM buffering counteracts this by ensuring clean signal transmissions and uniform memory flow. This category positions RDIMM modules as superior choices for server-class machines requiring high uptime rates and operational resilience. In practice, this stability supports extensive database reads, virtual machine scaling, multi-user system access, and performance-intensive computational routines without hindering speed or reliability.

Thermal Stability and Power Management

DDR4 RDIMM modules, including the HMN82GR7AFR4N-UH, are engineered for improved thermal performance and controlled power consumption, particularly under heavy processing conditions. Data-center infrastructures demand memory components that manage heat efficiently, and this category integrates lower default voltages with advanced circuit design to maintain sustained performance. This balance ensures reduced operational strain on server cooling systems and preserves internal component longevity, making these memory modules suitable for long-term enterprise usage.

Performance Optimization Across Workloads

Applications that rely on consistent data movement benefit greatly from the architectural strengths of this memory category. Whether used for scientific simulations, parallel computing environments, large-scale file operations, or enterprise resource management systems, DDR4 2400MHz RDIMM modules maintain steady performance levels throughout prolonged workloads. The predictable behavior of registered memory allows systems to operate efficiently without sudden performance drops or irregular timing cycles.

Category Relevance in Server Scalability

In enterprise environments where scalability is essential, this category of memory plays a major role in enabling multi-socket platforms to operate substantial memory footprints. Servers designed for workload scaling, user expansion, and virtualization density rely on RDIMM memory to achieve higher total capacities than standard unbuffered memory would permit. This expands opportunities for businesses to develop highly efficient server clusters that maximize available system resources and meet evolving computational needs.

Support for Multi-Processor Platforms

Memory modules such as the Hynix HMN82GR7AFR4N-UH are built for compatibility with platforms housing multiple processors. Each processor interacts with its own memory channels and registered memory ensures uniform electrical stability across these channels. This design supports enterprise workloads where multiple CPUs operate simultaneously, processing numerous commands, queries, or algorithmic instructions in parallel. Server platforms used in cloud distribution hubs, virtual machine hosting, or large web environments benefit from this level of memory orchestration.

Scalable Memory Infrastructure

Businesses that require expanding memory architecture over time rely on this memory category due to its capacity for supporting increased module density. DDR4 RDIMM modules enable servers to populate multiple DIMM slots per channel, extending overall system memory beyond levels achievable by UDIMM memory. This capacity becomes invaluable for organizations handling large cloud applications, data science environments, enterprise AI systems, or retained-memory processing tasks. Scalability mitigates the need for frequent hardware replacement and contributes toward long-term infrastructure sustainability.

Efficient Resource Allocation in Virtual Environments

Virtualization platforms depend heavily on memory allocation capabilities. This category of memory ensures that virtual machines host sufficient high-speed RAM to operate simultaneously with minimal contention. The Hynix HMN82GR7AFR4N-UH supports platforms that deploy numerous VMs or containers across distributed workloads, ensuring that each instance receives reliable memory throughput. Efficient allocation supports application responsiveness, predictable interaction speeds, and administration simplicity for IT teams managing numerous virtual nodes.

Characteristics Defining the DDR4 2400MHz RDIMM

The technical attributes associated with this category form the foundation of its performance, compatibility, and use-case versatility. The PC4-19200 data rate establishes a bandwidth framework capable of supporting demanding workloads while maintaining lower power consumption in comparison to earlier memory generations. Enterprises operating compute-heavy applications rely on these specifications to maintain predictable performance values that scale effectively within various system environments.

Data Rate and Transfer Capabilities

DDR4 memory modules marked with the PC4-19200 specification deliver a theoretical peak bandwidth that supports high-volume data processing. The 2400MHz clock speed contributes to consistent memory cycles, making this category well-suited for environments requiring constant data readiness. This includes server-side rendering, automated trading algorithms, multi-threaded processing tasks, and robust database indexing engines.

Registered Signal Management

One of the defining elements of this memory category is registered buffering. This architecture reduces electrical loading on the system memory controller by channeling incoming memory instructions through a register before passing them onward. Such structured buffering strengthens signal reliability and reduces risk factors that often emerge in high-density memory deployments. The result is a more dependable operational environment with minimized chances of errors or disruptions during peak workloads.

ECC Error Correction Integration

ECC support is central to the RDIMM memory category. It ensures that data integrity remains intact throughout memory operations by detecting and correcting common single-bit errors and preventing data corruption. This functionality is indispensible for mission-critical servers and platforms that handle sensitive financial, medical, engineering, or analytical data. ECC-enabled modules enhance confidence in system reliability, supporting continuous operation without unexpected malfunction or data integrity compromise.

Server Environment Suitability

The Hynix HMN82GR7AFR4N-UH module fits into a broad category of memory designed for environments where stability, consistent speed, and high availability are priorities. These memory components are engineered for deployment in situations where extended reliability and efficient memory distribution directly influence business output and technological infrastructure reliability.

Enterprise Database Servers

Database servers rely on robust memory systems to ensure that queries, indexing, and transactional operations perform without interruption. This memory category supports structured data operations and helps maintain rapid access times crucial for real-time data analytics, cloud database platforms, and enterprise management systems. Memory stability and ECC capabilities play major roles in ensuring that operations remain error-free and consistently responsive.

Virtualization Systems and Cloud Infrastructures

Cloud platforms and virtualization clusters demand memory with the capacity to handle multi-layered resource distribution. This category enables systems to assign memory resources across a large number of virtualized instances while maintaining stable performance across all operational layers. High memory density, predictable timing, and advanced error correction allow servers to operate efficiently even at high utilization rates.

High-Performance Computing Nodes

In HPC environments, memory speed and integrity significantly influence the efficiency of compute operations. The DDR4 2400MHz RDIMM category provides the structured performance behavior required for scientific computing tasks, parallelized workloads, weather modeling systems, and engineering simulations. Its architecture allows for stable workloads that extend over long periods without performance degradation.