Hynix HMCG88AHBRA292N 32GB 6400MHz PC5-51200 DDR5 SDRAM Memory Module.

Highlights of Hynix HMCG88AHBRA292N 32GB DDR5 RDIMM Ram

The Hynix HMCG88AHBRA292N 32GB DDR5 6400MHz RDIMM is a next-generation server memory module engineered for exceptional performance, reliability, and speed. Designed for demanding enterprise tasks, it supports heavy workloads, virtualization, and high-efficiency computing environments.

General Information

• Manufacturer: Hynix
• Part Number: HMCG88AHBRA292N
• Product Category: Server Memory Module
• Memory Interface: 32GB DDR5 6400MHz

Technical Specifications

• Capacity: 32GB
• Technology: DDR5 SDRAM
• Module Count: 1 x 32GB
• Speed Rating: 6400MT/s (PC5-51200)
• Error Correction: ECC (Error-Correcting Code)
• Signal Processing: Registered
• CAS Latency: CL52
• Rank Configuration: Dual Rank x8 (2Rx8)

Physical Characteristics

• Form Factor: 288-pin RDIMM
• Dimensions: 1.00" (Height) × 6.75" (Depth)
• Weight: 0.20 lb

Compatible Dell PowerEdge Servers

• PowerEdge C6620
• PowerEdge HS5610
• PowerEdge HS5620
• PowerEdge MX760c
• PowerEdge R660
• PowerEdge R660xs
• PowerEdge R770
• PowerEdge R760xa
• PowerEdge R760xd2
• PowerEdge R760xs
• PowerEdge T550

Overview of Hynix HMCG88AHBRA292N 32GB DDR5 Memory

The Hynix HMCG88AHBRA292N 32GB DDR5 6400MHz PC5-51200 Dual Rank SDRAM Memory Module for Server represents a major advancement in next-generation enterprise memory technology. Designed for modern server environments that demand exceptional bandwidth, reliable error handling, and highly efficient data throughput, this module delivers superior performance for virtualization, cloud computing, artificial intelligence, machine learning workloads, distributed computing, and large-scale analytics. With its dual-rank DDR5 architecture, optimized PMIC power regulation, enhanced bandwidth, and improved signal integrity, this memory module supports the growing performance needs of businesses that rely on server-driven operations.

Next-Generation DDR5 Architecture

DDR5 memory marks a revolutionary shift in server memory engineering, and the HMCG88AHBRA292N module fully harnesses its enhancements to deliver performance beyond previous DDR4 generations. With significantly increased bandwidth, improved energy efficiency, and enhanced channel architecture, DDR5 enables servers to operate with far greater speed and reliability. The architecture includes dual 32-bit subchannels, allowing for more concurrent operations and superior management of high-density memory workloads. This design is instrumental in supporting multi-threaded CPU architectures that require continuous, high-speed memory throughput to deliver optimal performance.

Improved Channel Architecture and Burst Length for Accelerated Data Access

The advanced channel architecture in DDR5 allows the HMCG88AHBRA292N to handle multiple simultaneous data requests with reduced latency. With longer burst lengths and improved bank structures, workloads execute more efficiently even under intense operational strain. Each subchannel functions independently, enabling faster read and write operations and improved performance for multi-core processors in enterprise servers. This architectural evolution significantly boosts the memory’s ability to support high-speed data environments, including virtualization clusters, AI training pipelines, and real-time processing systems.

6400MHz Operating Speed

Operating at 6400MHz, the HMCG88AHBRA292N provides exceptionally high bandwidth, making it ideal for demanding enterprise workloads. High-frequency operation ensures that memory-intensive applications receive continuous high-speed access to critical data. In environments where computational efficiency and responsiveness are essential, such as artificial intelligence modeling, database indexing, and scientific simulation, the 6400MHz operating speed ensures stable, predictable, and powerful performance throughout demanding processing cycles.

PC5-51200 Advanced Data Throughput

With a maximum throughput of PC5-51200, the HMCG88AHBRA292N provides some of the fastest memory performance available in contemporary server infrastructure. This bandwidth supports extremely rapid data retrieval and transfer, which is essential for systems that must analyze or compute vast quantities of data in real time. Servers equipped with this module benefit from enhanced multitasking, superior data streaming performance, and decreased latency during memory-intensive operations. These advantages are vital for businesses operating cloud-based services, virtual machines, and distributed networks requiring continuous data interaction.

Maximizing CPU Potential Memory

Modern server processors feature increasing numbers of cores and threads, and these require high-bandwidth memory solutions to operate at peak capabilities. By providing consistent access to bandwidth at PC5-51200, the HMCG88AHBRA292N allows server CPUs to maintain high efficiency across numerous tasks and processes. This optimal pairing between processor and memory ensures improved system performance, increased throughput, and minimized performance bottlenecks. Server applications such as multi-threaded simulations, cloud orchestration, virtual server hosting, and high-frequency transactional systems benefit significantly from this balanced architecture.

Computing and Large-Scale Data Operations

The extremely high data throughput supported by PC5-51200 is essential for organizations that rely on immediate access to large datasets or memory-intensive workloads. Whether powering enterprise-level financial analytics, machine learning systems, or real-time data processing engines, the HMCG88AHBRA292N ensures that performance remains steady and reliable. The module sustains continuous data access at high speeds, alleviating latency issues and optimizing server performance for a wide range of enterprise applications.

Dual Rank Design for Enhanced

The dual-rank architecture of the HMCG88AHBRA292N enhances overall system efficiency by enabling simultaneous access to multiple memory banks. Dual-rank modules offer improved performance stability and lower latency due to the ability to alternate between ranks during data access. This structural configuration provides higher effective bandwidth and improved performance for servers that must manage numerous operations concurrently. The design is especially beneficial for virtualization platforms, in-memory databases, deep learning inference, and other workloads that require rapid and continuous data operations.

Memory Interleaving for Smoother Data Processing

Memory interleaving plays a critical role in improving the responsiveness and efficiency of multi-core server processors. The dual-rank configuration in the HMCG88AHBRA292N supports more advanced interleaving, allowing servers to access different memory banks without interruption. This minimizes delays and maintains a consistent flow of data across the CPU cores. Efficiency improvements from memory interleaving benefit applications that demand real-time responses, including transactional systems, data warehouses, and advanced computation platforms.

Real Advantages for High-Intensity Enterprise Environments

In enterprise environments that utilize continuous high-intensity operations, the dual-rank design of the HMCG88AHBRA292N provides significant operational benefits. Servers with dual-rank memory modules perform more efficiently under heavy workloads and maintain consistent speed during peak activity. This ensures uninterrupted workflow for data-sensitive applications, reducing processing delays, maintaining data stability, and enhancing overall system performance during complex computing tasks.

Advanced SDRAM Technology for Server Stability

The Hynix HMCG88AHBRA292N employs advanced SDRAM technology tailored to server-grade reliability and stability. SDRAM offers synchronized data transfer relative to the server’s system clock, allowing consistent timing accuracy and predictable performance. This synchronization ensures that critical server processes operate smoothly without timing mismatches or delays. High-end server infrastructures require such precision to maintain consistent applications, transactional operations, and cloud workloads.

Consistent Timing and Command Execution

Synchronous DRAM ensures a predictable pattern of operations, enabling processors to efficiently manage memory access cycles. This precision enhances communication between the server CPU and memory subsystem, preventing bottlenecks and ensuring accurate command execution. SDRAM’s design complements the advanced architecture of DDR5, providing both speed and reliability for enterprise solutions.

Reliability in High-Traffic Server Environments

Servers processing high volumes of data require memory modules capable of maintaining consistent performance over time. The HMCG88AHBRA292N’s SDRAM architecture enables stable data flow and accurate timing, which are essential for applications prone to continuous computational load. Whether supporting massive data transactions, large search indexes, or distributed computing frameworks, this memory module provides dependable performance for extended periods.

288-Pin Form Factor Physical Layout

The Hynix HMCG88AHBRA292N uses the industry-standard 288-pin RDIMM form factor, providing reliable physical connectivity and electrical performance for DDR5-based systems. Its optimized pin layout ensures superior signal integrity and enhances stability during high-speed operations. The design supports advanced power distribution, improved heat dissipation, and enhanced data transfer consistency, all of which contribute to the module’s high-performance capability.

Precision PCB Engineering Stability

The module’s multi-layer PCB is engineered to provide secure signal routing, minimized interference, and stable transfer of high-frequency data. These design enhancements reduce disturbances caused by electromagnetic noise and ensure smooth operation across all server workloads. Servers running 24/7 benefit from this stability, as it prevents performance interruptions, timing errors, and potential data inconsistencies.

Built for High-Density Server Configurations

The 288-pin RDIMM format supports dense memory configurations, which are essential in servers that require maximum memory capacity to handle diverse workloads. With its stable electrical signaling and efficient power distribution, the HMCG88AHBRA292N integrates seamlessly into fully populated memory banks, delivering consistent performance across all installed modules. This ensures that servers do not experience delays or performance deficits even when operating at peak capacity.

Integrated PMIC Distribution

The on-module Power Management IC provides fine-tuned control over voltage levels, reducing power noise and improving stability at high frequencies. With more localized control over power regulation, the module minimizes electrical inconsistencies and ensures consistent operation across varied workloads. This is especially important in data center environments where power stability directly affects the performance and reliability of large-scale server deployments.

Reduced Operating Voltage

Operating at a reduced voltage compared to DDR4 modules, the HMCG88AHBRA292N generates less heat and consumes less energy. Improved thermal efficiency ensures that the module maintains stable operation even during extended workloads. This contributes to lower cooling costs and enhanced sustainability for data center operations. Memory-dependent tasks such as machine learning model training, hyper-scale analytics, and high-volume transactions run more efficiently due to these energy optimizations.

Real-World Server Applications

The Hynix HMCG88AHBRA292N excels in a wide range of real-world server applications. Its high-speed architecture, dual-rank design, and robust SDRAM technology enable unparalleled performance across various enterprise and cloud-based environments. Whether deployed in high-performance computing clusters, virtualized environments, AI infrastructure, or large-scale data platforms, the module guarantees efficient data processing and reliable system responsiveness.

Superior Cloud Computing

Cloud computing environments rely heavily on memory speed and stability, especially when hosting multiple virtual machines simultaneously. The HMCG88AHBRA292N supports high-density VM deployment, ensuring that each virtual instance receives stable performance without latency spikes. Its superior data throughput assists virtualization platforms in delivering consistent and responsive services across distributed cloud systems.

Data Analytics and Enterprise Databases

Servers running advanced analytics or in-memory databases require consistent memory access for rapid query performance and transaction processing. The HMCG88AHBRA292N ensures that data pipelines function without slowdown, improving the responsiveness of analytics platforms, enhancing real-time reporting capabilities, and enabling faster data retrieval for enterprise-level workloads.

HPC and Scientific Computing

High-performance computing environments depend on stable, predictable memory behavior. With its advanced architecture and high-speed capabilities, the HMCG88AHBRA292N supports complex calculations, physical simulations, rendering tasks, and scientific workloads with consistent efficiency. Its dual-rank design ensures that the module provides continuous performance, even when subjected to intense computational demand.

Scalability Server

The HMCG88AHBRA292N is engineered for compatibility with a broad range of DDR5-supported server platforms, including servers powered by next-generation Intel Xeon and AMD EPYC processors. Its scalable design enables administrators to expand system memory with confidence, ensuring high stability and balanced performance across multi-channel memory configurations.

Designed for Modern Multi-Core Server Architectures

As servers continue to evolve toward architectures with higher core counts, memory systems must keep pace to ensure full utilization of processing capabilities. The HMCG88AHBRA292N’s high bandwidth and dual-rank design ensure that modern CPUs are not bottlenecked by insufficient memory throughput, enabling consistent performance across demanding multi-threaded workloads.

Fully Populated Memory Configurations

Many enterprise servers require maximum memory density to support virtualization clusters, distributed computing frameworks, and advanced analytic systems. This memory module is engineered to operate effectively even in fully populated environments, ensuring stable communication between the CPU and multiple memory banks while preserving overall system integrity.

Enterprise-Grade Reliability and Quality Assurance

The HMCG88AHBRA292N undergoes rigorous testing procedures to ensure high reliability, endurance, and long-term stability. Designed for 24/7 operation in critical environments, it incorporates high-quality components, advanced signal management, precise timing control, and enhanced thermal performance. These attributes ensure reliable operation across diverse workloads and continuous data processing cycles.

Enhanced Component Quality

Hynix employs premium-grade components that are engineered to withstand electrical stress, temperature fluctuations, and prolonged operational cycles. The robust construction of the HMCG88AHBRA292N ensures dependable performance, reduced failure rates, and improved system longevity. Data centers and enterprise server operators benefit immensely from reduced downtime and dependable memory performance.

High Stability Under Continuous Workloads

Servers often operate under heavy loads for extended periods, requiring highly stable memory modules that can endure sustained performance demands. The HMCG88AHBRA292N provides exceptional stability under long-duration workloads, maintaining consistent data throughput and minimizing performance interruptions. Its advanced timing architecture ensures precise and accurate memory behavior, even under near-constant processing demand.

Design for Server Infrastructure

As enterprise computing environments continue to evolve, the HMCG88AHBRA292N offers a future-proof memory solution that meets the requirements of advanced server platforms and emerging computational technologies. With DDR5’s innovation-driven architecture and Hynix’s engineering excellence, this module remains a dependable choice for organizations looking to evolve their server infrastructure for the future.

Evolving Workloads and Computational Demands

Emerging technologies such as real-time AI inference, quantum simulation, autonomous systems, and next-gen cloud-native applications require increasingly efficient memory solutions. The HMCG88AHBRA292N meets those growing demands with its high bandwidth, excellent stability, and versatile performance capabilities.

Meeting the Demands of Scalable Computing Environments

The memory module provides scalable performance that integrates smoothly with future processor generations, ensuring long-term value for organizations looking to enhance their data processing pipelines. Its versatile design and robust DDR5 features allow it to support expanding workloads across various industries, making it an excellent long-term investment for data centers and enterprise IT infrastructures.