HMCT14AGERA Hynix 256GB 5600Mhz Pc5-44800 Cl52 Ecc Registered Octal Rank X4 1.2v 288-pin Rdimm RAM Module

Hynix HMCT14AGERA 256GB RAM

The Hynix HMCT14AGERA 256GB DDR5 SDRAM memory module delivers exceptional speed and reliability for advanced computing systems. Designed with cutting-edge technology, this registered DIMM ensures seamless performance for enterprise and high-demand environments.

Manufacturer Details

• Brand: Hynix
• Part Number: HMCT14AGERA
• Category: Memory Module

Technical Specifications

• Capacity: 256GB
• Memory Type: DDR5 SDRAM
• Module Count: 1 x 256GB

Performance Attributes

• Bus Speed: 5600MHz DDR5-44800 / PC5-5600MHz
• Error Correction: ECC (Error-Correcting Code)
• Signal Processing: Registered
• Latency: CL52
• Rank Features: 8Rx4

Physical Characteristics

Form Factor

• Design: 288-pin RDIMM

Dimensions and Weight

Shipping Measurements

• Height: 1.00 inches
• Depth: 6.75 inches

Shipping Weight

• Weight: 0.20 lb

Overview of Hynix HMCT14AGERA 256GB PC5-44800 RAM 

The Hynix HMCT14AGERA 256GB 5600MHz PC5-44800 DDR5 SDRAM 288-pin RDIMM memory module represents a highly optimized component engineered for enterprise-grade server environments that demand exceptional bandwidth, lower latency behavior, improved multi-core CPU utilization, and enhanced signal integrity. As modern workloads continue to evolve with more intensive data processing, machine learning execution, and virtualization scalability, the technological advantages of DDR5 modules become increasingly vital. This specific module leverages the advanced characteristics of DDR5 architecture, enabling significantly higher overall throughput while maintaining stable thermal performance and consistent data reliability, even during sustained high-capacity operations. By combining registered buffering with next-generation memory signaling, the module supports stable performance across multi-socket servers, ensuring optimal compatibility with enterprise systems requiring large-capacity memory footprints.

Architecture Enhancements and Data Management Innovations

At the core of the Hynix HMCT14AGERA module is a redesigned memory architecture that improves efficiency at every communication stage. The DDR5 generation introduces an expanded number of independent subchannels, enabling parallelized data flows that reduce operational bottlenecks and streamline workload allocation across controllers. The subdivided channel structure increases real-time memory responsiveness while supporting greater queue depth for demanding enterprise applications. This architectural enhancement allows the memory module to process complex computational tasks more fluidly, contributing to a more stable ecosystem for virtual machines, cloud-based operations, and large-scale transactional databases.

Another integral advancement is the transition of power management operations directly onto the module through the use of an integrated power management IC. By relocating these functions to the memory hardware rather than relying entirely on the system motherboard, power delivery becomes more precise and stable. This results in improved voltage regulation, decreased electrical noise, and smoother handling of dynamic workload fluctuations. The module’s refined energy-efficiency model enhances high-capacity application performance while reducing the likelihood of instability issues commonly encountered when systems operate at near-maximum loads for extended durations.

High-Speed Bandwidth and Frequency Optimization

Operating at 5600MHz, the Hynix HMCT14AGERA memory module delivers greatly accelerated transfer rates compared to traditional DDR4 solutions. This increases the number of simultaneous operations a system can manage, enabling servers to accommodate larger datasets and faster transactional processes. The PC5-44800 bandwidth rating reflects the module’s ability to sustain large-scale data throughput, ensuring that high-intensity tasks such as real-time analytics, large database indexing, AI algorithm processing, and high-volume virtualization clusters can perform with minimal slowdowns. With this level of optimized frequency and bandwidth capacity, enterprise platforms benefit from enhanced operational elasticity that supports long-term system expansion without significant architectural overhaul.

Thermal Efficiency and Operational Stability

Thermal optimization remains a crucial design feature of modern enterprise memory modules. The Hynix HMCT14AGERA incorporates advanced thermal dissipation materials that ensure consistent module temperature regulation during sustained high-frequency performance. The module’s registered design minimizes the electrical load on system controllers, contributing to improved thermal distribution and reduced strain on system components. This attention to thermal stability ensures that the memory module maintains dependable operation even within dense multi-module server environments. Through intelligent design and engineering, the memory module reduces thermally induced throttling risks, which allows server architectures to maintain uninterrupted performance throughout prolonged operational cycles.

Enterprise Application and Industry Use-Case

As organizations scale toward increasingly data-centric workflows, memory capacities must adapt accordingly. The Hynix HMCT14AGERA 256GB module provides substantial headroom for these expanding requirements. The module’s high capacity and advanced DDR5 design make it an optimal choice for industries relying heavily on large computational datasets, such as scientific simulation, financial modeling, deep learning training environments, and high-performance computing operations. Its stability and massive memory footprint enable systems to support multi-layered virtual desktop infrastructures while simultaneously delivering predictable responsiveness for mission-critical services.

Enterprises managing hyper-converged infrastructure platforms benefit from this module’s ability to optimize multi-threaded application performance. The increased data bandwidth ensures smoother application orchestration, accelerating container-based workflows and improving distributed processing throughput. Additionally, systems that require extensive in-memory caching, such as in-memory databases or large-scale analytics engines, gain significant performance advantages due to reduced latency and expanded memory headroom. By enabling more efficient handling of large datasets, the module ensures improved response times across the entire application stack.

Compatibility Features and Registered Module Advantages

As a registered memory module, the Hynix HMCT14AGERA incorporates buffering elements that stabilize communication between the memory and CPU. This helps reduce electrical load across the memory bus and improves overall system reliability, especially in large server configurations featuring numerous modules. Registered DIMM technology excels at maintaining signal clarity and synchronization across large memory arrays, ensuring consistent performance across diverse enterprise system architectures. This registered design also enables servers to handle higher-capacity modules without compromising system integrity.

Compatibility is reinforced by the module’s adherence to the DDR5 industry standard, ensuring that it functions seamlessly with server architectures supporting DDR5 RDIMM technology. Enterprise-grade motherboards and multi-socket platforms benefit from the module’s optimized design, which allows for smoother integration into systems that require expansive memory arrays for AI inference operations, cloud orchestration frameworks, and clustered computing systems. Additionally, the module’s firmware and SPD configurations support enhanced system diagnostics and performance tuning capabilities, enabling administrators to monitor system behavior with greater accuracy.

Error Management and Data Integrity Innovations

The Hynix HMCT14AGERA memory module integrates advanced error correction features designed to maintain impeccable data accuracy during high-volume operations. DDR5 introduces on-die ECC technology that improves error detection and correction efficiency at the cell level. This reduces the likelihood of corruption during internal data transfers, ensuring more consistent system reliability. When combined with server-side ECC support, the module offers multi-layered data protection, reducing the risk of data corruption that could disrupt enterprise applications.

Improved parity mechanisms and refined data checking algorithms enable the module to maintain consistent signal accuracy across all read and write operations. This is essential for workloads involving sensitive financial calculations, large-scale simulations, or cloud services that demand reliable data consistency across distributed environments. With enhanced internal safeguards, the module provides a stable and resilient foundation for critical workloads.

Scalability Considerations for High-Performance Environments

Scalability is one of the foremost considerations for enterprise IT planners, and the Hynix HMCT14AGERA’s 256GB capacity plays a pivotal role in meeting long-term operational growth. As server infrastructures expand to accommodate more applications, container clusters, or virtualization environments, memory availability becomes a defining factor in overall performance. The module supports scalable configurations that allow enterprise systems to gradually increase memory resources as operational requirements evolve. This capacity expansion capability ensures that servers remain adaptable to workload growth without requiring substantial hardware redesign.

The module’s high density also supports larger virtualization pools, enabling organizations to implement more complex and multi-layered cloud environments. Additional capacity allows for increased virtual machine density, faster migration operations, and improved workload balancing across nodes. With advanced DDR5 efficiency benefits, the module provides a scalable platform for long-term infrastructure optimization across various enterprise workloads.

Technological Improvements Over Previous Generations

The transition from DDR4 to DDR5 memory solutions represents one of the most substantial leaps in enterprise memory technology in recent years. DDR5 significantly increases the base frequency ceiling, enabling modules such as the Hynix HMCT14AGERA to deliver higher data transfer capabilities with greater operational consistency. The dual-channel architecture within each DIMM enhances data parallelism, improving read and write efficiency across all workloads. This not only accelerates multi-threaded operations but also enhances application responsiveness during peak processing cycles.

Advanced power efficiency improvements further distinguish DDR5 memory solutions from their predecessors. With optimized voltage operation and integrated power delivery mechanisms, DDR5 memory modules reduce total power draw while improving stability under heavy loads. This is particularly beneficial for data center environments aiming to optimize energy efficiency without sacrificing performance. Lower voltage requirements reduce thermal strain on memory controllers, enabling improved long-term system reliability.

Signal Integrity and Communication Enhancements

The Hynix HMCT14AGERA introduces enhancements in signal integrity that facilitate cleaner and more accurate communication between the memory subsystem and the system processor. Improved channel architecture minimizes crosstalk and enhances the clarity of data signaling, ensuring consistent performance even when multiple DIMMs are deployed simultaneously. These improvements are crucial in high-capacity configurations where signal degradation can negatively impact overall data throughput.

By leveraging improved data buffering mechanisms and advanced circuit design, the module ensures better synchronization for multi-core processors, leading to enhanced task distribution across the system. These refined communication characteristics contribute to improved application performance, particularly in scenarios requiring parallel execution of diverse workloads.

Enhanced Module Durability and Enterprise Reliability Standards

The Hynix HMCT14AGERA adheres to rigorous enterprise hardware standards, ensuring consistent operation under demanding environmental conditions. High-grade construction ensures that the module retains stable performance throughout extended operational cycles. Thorough factory testing ensures long-term reliability when deployed in mission-critical applications where stability and data accuracy are paramount.

With an emphasis on maintaining operational consistency, the module supports system administrators in ensuring predictable application performance and dependable resource allocation. This focus on durability strengthens the module’s suitability for environments where uptime and system resilience are essential components of everyday operation.