HMCGM4MGBQB247N Hynix 96GB DDR5 5600MTs PC5-44800 CL46 SDRAM Memory

Product Overview of the Hynix 96GB DDR5 5600MT/s RAM

Hynix HMCGM4MGBQB247N 96GB DDR5 5600MT/s PC5-44800 CL46 SDRAM RDIMM Memory Module is a high-capacity server-grade memory solution designed to deliver stable performance, improved responsiveness, and efficient multitasking for modern data-intensive systems.

General Information

• Manufacturer: SK Hynix
• Manufacturer Part Number: HMCGM4MGBQB247N
• Product Name: 96GB DDR5-5600MT/s PC5-44800 RAM

Technical Specifications

• Memory Type: DDR5 SDRAM
• Module Configuration: Single 96GB
• Speed Rating: 5600MT/s
• Error Correction: ECC (Error-Correcting Code)
• Signal Type: Registered DIMM (RDIMM)
• CAS Latency: CL46
• Rank Architecture: 2Rx4

Performance

• Enhanced bandwidth for faster data processing
• Improved power efficiency compared to DDR4 modules
• Optimized for multi-core server workloads and virtualization tasks
• Stable performance under continuous heavy workloads

Compatibility

• Compatible with DDR5-enabled server motherboards supporting RDIMM architecture
• Works with enterprise-grade processors requiring ECC memory support
• Suitable for data centers, cloud infrastructure, and high-performance computing systems
• Ensures system stability when paired with 5600MT/s memory-supported platforms

The Hynix 96GB DDR5 5600MT/s PC5-44800 CL46 SDRAM

The Hynix HMCGM4MGBQB247N 96GB DDR5 5600MT/s PC5-44800 CL46 SDRAM RDIMM Memory Module belongs to the advanced class of enterprise memory solutions designed for high performance computing environments. This category of memory is engineered specifically for servers, data centers, cloud infrastructure platforms, virtualization clusters, and mission critical workloads where stability, throughput, and reliability are essential. Unlike standard desktop memory modules, registered DIMM architecture introduces an additional register layer between the memory controller and DRAM chips, which significantly improves signal integrity and allows for higher memory density configurations such as 96GB per module. DDR5 technology represents a generational advancement over previous DDR standards, delivering increased bandwidth, improved power efficiency, and enhanced error management capabilities. Operating at 5600MT/s, this memory module provides a substantial data transfer rate suitable for modern multi-core processors that require fast and consistent memory access. The PC5-44800 specification reflects the theoretical maximum bandwidth capacity of the module, making it appropriate for workloads involving large-scale data processing, artificial intelligence model training, virtualization density expansion, and enterprise database operations.

DDR5 SDRAM RDIMM Modules Environments

The DDR5 SDRAM RDIMM structure is built upon refined electrical and architectural improvements compared to previous generations. One of the primary enhancements is the introduction of dual independent 32-bit subchannels within each module, allowing more efficient memory access patterns and reducing latency bottlenecks under heavy workloads. This design ensures that simultaneous read and write operations can occur with greater efficiency, which is critical in multi-threaded server environments. Registered DIMM technology incorporates a register chip that buffers command and address signals, reducing electrical load on the memory controller. This allows server platforms to scale memory capacity without sacrificing stability. The Hynix 96GB module benefits from these improvements by maintaining consistent performance even under high-density configurations where multiple DIMMs are installed across multiple memory channels. Error correction support is another essential aspect of this category. ECC functionality is integrated to detect and correct memory errors in real time, ensuring data integrity in enterprise operations. This makes the module highly suitable for mission critical workloads where even minor memory corruption could result in significant system failures or data inconsistencies.

High-Capacity Memory Scaling for Modern Servers

A 96GB memory module represents a high-density solution tailored for systems that require large memory pools without occupying excessive physical DIMM slots. In modern server architecture, memory scalability is a key factor in determining system performance efficiency. By utilizing high capacity RDIMM modules, system architects can maximize total installed memory while preserving available slots for future upgrades or redundancy configurations. This type of memory scaling is especially important in virtualization environments where multiple virtual machines operate simultaneously on a single physical host. Each virtual machine requires dedicated memory allocation, and higher capacity modules reduce the need for excessive DIMM population, thereby improving thermal efficiency and reducing power consumption per gigabyte of memory installed. The Hynix 96GB DDR5 RDIMM module is designed to maintain stability in multi-DIMM configurations, ensuring that large memory arrays operate cohesively without signal degradation or performance inconsistency.

5600MT/s Data Transfer Performance

The 5600MT/s data rate of this memory module represents a significant improvement in bandwidth availability compared to earlier DDR generations. This high transfer rate allows processors to access data more rapidly, reducing idle cycles and improving overall system throughput. In data-intensive workloads such as real-time analytics, distributed computing, and in-memory databases, high memory bandwidth plays a critical role in maintaining system responsiveness. The increased bandwidth also benefits workloads involving large datasets, such as scientific simulations, financial modeling, and artificial intelligence inference tasks. In such environments, memory speed directly influences computational efficiency, making high-performance DDR5 RDIMM modules essential components of modern server infrastructure.

CAS Latency CL46 Enterprise

The CAS latency rating of CL46 indicates the number of clock cycles required for the memory module to access requested data. While latency values may appear higher in DDR5 compared to earlier DDR generations, the increased frequency and architectural optimizations compensate for this difference, resulting in improved overall performance. In enterprise workloads, consistency and predictability of latency are more important than raw minimum latency values. The Hynix module is engineered to maintain stable timing characteristics under sustained load conditions, ensuring that performance does not fluctuate unpredictably during peak utilization periods. This stability is particularly important for database systems and transaction processing environments where consistent response times are required.

Power Efficiency

DDR5 memory introduces improved power management features that reduce overall energy consumption per data transaction. The Hynix RDIMM module operates at optimized voltage levels, contributing to lower heat output compared to previous memory generations with similar capacity. This reduction in thermal load is particularly important in densely populated server racks where heat dissipation can become a limiting factor for system performance. On-module power management integrated circuits help regulate voltage delivery more efficiently, reducing strain on motherboard power delivery systems. This allows for more stable operation in large-scale deployments where hundreds or thousands of memory modules may be operating simultaneously across distributed server clusters.

Cloud Computing Infrastructure

In cloud computing environments, memory density and reliability are critical for maintaining service availability and scalability. The Hynix 96GB DDR5 RDIMM module supports large-scale virtualization platforms where multiple tenant workloads must operate concurrently without interference. High capacity modules reduce the need for frequent hardware expansion, enabling more efficient infrastructure scaling. Cloud service providers benefit from the improved bandwidth and error correction capabilities of DDR5 RDIMM memory, as these features help maintain consistent performance under variable and unpredictable workloads. The ability to handle burst traffic efficiently is essential in multi-tenant cloud environments where resource demands can fluctuate rapidly.

Database and High-Transaction Systems

Enterprise database systems rely heavily on memory performance to deliver fast query responses and transaction processing. High capacity RDIMM modules enable large in-memory databases to store more active datasets directly in RAM, reducing reliance on slower storage systems. This results in faster query execution times and improved transactional throughput. Financial systems, e-commerce platforms, and real-time analytics engines benefit from the consistent performance characteristics of ECC-enabled DDR5 memory. Error correction ensures that data integrity is maintained even under continuous heavy usage conditions, which is essential for systems that process sensitive or critical information.

Server Platform Support

The Hynix HMCGM4MGBQB247N module is designed for compatibility with modern server platforms that support DDR5 RDIMM memory. These platforms typically include enterprise-grade processors with multi-channel memory controllers capable of handling high bandwidth memory configurations. Proper compatibility ensures that memory modules operate at their rated speeds and maintain full stability under load. Server motherboard firmware and memory training algorithms play an important role in optimizing performance. During system initialization, memory parameters are automatically calibrated to ensure synchronization between modules and the memory controller, enabling reliable operation across diverse workload conditions.

Multi-Channel Memory Architecture

Modern server CPUs support multi-channel memory architectures that significantly increase total memory bandwidth. When multiple RDIMM modules are installed across these channels, the system can achieve parallel data access, improving performance for memory-intensive applications. The 96GB capacity of each module allows system designers to maximize memory density per channel while maintaining balanced system architecture. Balanced memory population is essential for achieving optimal performance, as uneven configurations can lead to reduced bandwidth utilization. The Hynix DDR5 RDIMM module integrates seamlessly into such architectures, supporting efficient memory distribution across channels.

Error Correction

ECC functionality is a core component of this memory category, enabling detection and correction of single-bit memory errors in real time. This ensures that transient hardware faults do not propagate into system-level failures or data corruption. In enterprise environments, such reliability features are essential for maintaining uptime and preventing data loss. Advanced fault management mechanisms also allow systems to log and monitor memory health over time, enabling predictive maintenance strategies. This helps data center operators identify potential issues before they impact system performance.

Long-Term Operational Stability

The Hynix DDR5 RDIMM module is engineered for continuous 24/7 operation, making it suitable for mission critical infrastructure. High-quality manufacturing processes and rigorous validation testing ensure that each module meets strict performance and reliability standards. Thermal stability, electrical consistency, and signal integrity are maintained across extended operational periods, reducing the likelihood of performance degradation over time. This long-term stability is essential for enterprise environments where system downtime must be minimized.

Signal Integrity and Electrical Optimization

Registered memory architecture enhances signal integrity by reducing electrical load on the memory controller. This allows for more memory modules to be installed without introducing instability. DDR5 further improves signal quality through advanced equalization techniques and improved circuit design. These enhancements are particularly important in high-density server environments where large numbers of DIMMs are installed within a single system chassis. Maintaining clean signal pathways ensures reliable data transmission at high speeds.

Scalability in Data Center Environments

Scalability is a fundamental requirement in modern data center design. The ability to expand memory capacity without replacing entire systems provides significant cost and operational advantages. High capacity DDR5 RDIMM modules allow for incremental upgrades that extend the lifecycle of server hardware. This scalability supports evolving workload demands, enabling infrastructure to adapt to increasing data processing requirements without requiring immediate full system replacement.

Workload Optimization and System Efficiency

Multi-core processors rely heavily on memory bandwidth to sustain parallel execution efficiency. High speed DDR5 memory ensures that each processing core receives timely data access, reducing idle cycles and improving overall computational efficiency. This is particularly important in workloads involving distributed computing, where multiple tasks are executed simultaneously across different processing threads.