P65256-001 HPE 96GB 5600MHz PC5-44800 ECC DDR5 SDRAM 288-Pin RDIMM RAM

Highlights of HPE P65256-001 96GB DDR5 PC5-44800 Memory

The HPE P65256-001 96GB 5600MHz PC5-44800 CL42 ECC Registered Dual Rank x4 1.1V DDR5 SDRAM 288-Pin RDIMM Smart Memory module is a high-performance enterprise-grade memory solution designed for modern HPE server platforms. Built on advanced DDR5 architecture, this module delivers exceptional bandwidth, improved energy efficiency, and enhanced reliability for mission-critical workloads. It is optimized for HPE ProLiant servers and supports demanding applications such as virtualization, cloud computing,high-performance computing, and large-scale database processing environments requiring stable and scalable memory performance.

Next-Generation DDR5 Architecture

DDR5 represents a major advancement in server memory technology, delivering significantly higher bandwidth and improved efficiency compared to DDR4. The HPE Smart Memory module is engineered to leverage these improvements for enterprise workloads. It features enhanced internal architecture, improved power management, and increased memory density. These enhancements allow servers to handle more simultaneous operations and larger datasets with improved performance consistency.

Advanced Memory Bank Group Architecture

DDR5 introduces a more efficient bank group structure that increases parallelism within the memory module. This allows multiple operations to occur simultaneously, reducing latency and improving throughput. It enhances performance in multi-threaded enterprise applications. Improved bank structure also supports better workload balancing.

Improved Internal Data Flow Efficiency

DDR5 optimizes internal data routing within the DRAM chips, improving efficiency and reducing bottlenecks. This allows faster processing of large datasets. It enhances responsiveness in enterprise workloads. Improved data flow ensures consistent performance under load.

96GB High-Capacity Design

The 96GB capacity provides a powerful balance between memory density and scalability for enterprise servers. It enables large memory configurations without excessive DIMM usage. This is ideal for virtualization platforms, cloud systems, and database servers. High-capacity modules reduce system complexity and improve infrastructure efficiency.

DIMM Slot Utilization in Enterprise Servers

High-capacity modules allow servers to achieve large memory footprints using fewer DIMM slots. This improves airflow and reduces thermal load within the server chassis. It also simplifies hardware upgrades and system planning. Efficient slot utilization is essential for modern data centers.

Enhanced Virtual Machine Density

The 96GB capacity supports higher virtual machine density per server. This improves resource utilization and reduces infrastructure costs. It allows better consolidation of workloads. Higher density improves virtualization efficiency significantly.

5600MHz DDR5 Frequency

Operating at 5600MHz, this DDR5 RDIMM delivers high-speed memory performance suitable for enterprise workloads. It provides increased bandwidth compared to lower-frequency modules. This ensures faster data transfer between CPU and memory subsystems. High frequency improves responsiveness in demanding applications.

Accelerated Data Throughput for Server Applications

The 5600MHz speed significantly improves memory bandwidth, allowing faster processing of large datasets. This reduces bottlenecks in enterprise applications. It enhances system responsiveness under heavy workloads. Faster throughput improves overall performance efficiency.

Performance for Multi-Core CPU Architectures

Modern CPUs rely heavily on memory bandwidth for optimal performance scaling. This module ensures smooth data flow to multiple cores simultaneously. It reduces contention and improves parallel processing efficiency. Optimized memory support enhances CPU utilization.

PC5-44800 Standard for High-Bandwidth Enterprise

The PC5-44800 specification provides up to 44.8GB/s theoretical bandwidth per module. This ensures compatibility with modern DDR5 server platforms. It supports high-performance workloads including AI, analytics, and cloud computing. Standardized bandwidth ensures predictable system performance.

Data Processing for Enterprise Workloads

This bandwidth level enables efficient handling of large datasets in enterprise systems. It reduces latency and improves throughput. It enhances application performance under load. Efficient processing improves workload execution speed. Virtualized systems require consistent memory performance across multiple workloads.

ECC Registered Smart Memory

HPE Smart Memory includes ECC Registered functionality that detects and corrects memory errors automatically. This ensures high levels of data integrity and system reliability. Registered buffering improves signal stability in multi-DIMM configurations. ECC protection is essential for mission-critical enterprise systems.

Automatic Correction System

The ECC system continuously monitors memory operations for errors. It corrects single-bit errors before they impact system performance. This prevents data corruption and system instability. Automatic correction improves reliability in enterprise environments.

Improved System Uptime and Stability

By preventing memory-related failures, ECC improves overall system uptime. This is essential for enterprise servers requiring continuous availability. It reduces downtime and operational risks. Stability ensures business continuity.

CL42 CAS Latency Optimized

The CL42 latency rating is optimized for DDR5 operation at 5600MHz. It ensures balanced performance between speed and stability. While DDR5 latencies are higher than DDR4, increased bandwidth compensates for real-world performance gains. This ensures efficient enterprise computing performance.

Balanced Latency for Stable Server Operation

CL42 timing ensures synchronization between memory controller and DRAM chips. This maintains system stability under heavy workloads. It supports consistent server performance. Balanced latency improves efficiency.  This module ensures stability and predictable operation. It reduces performance fluctuations. Stability is critical for enterprise virtualization platforms.

Improved Real-World Application Responsiveness

Despite higher latency values, DDR5 delivers superior real-world performance due to increased bandwidth. Applications benefit from faster data access. This improves responsiveness in enterprise systems. Real-world gains are significant.

1.1V Low Power Consumption

This DDR5 RDIMM operates at 1.1V, significantly reducing power consumption compared to DDR4 modules. Lower voltage reduces heat output and improves energy efficiency. This helps reduce cooling requirements in dense server environments. Energy efficiency is critical for modern data centers.

Reduced Thermal Output in High-Density Server Racks

Lower power consumption reduces heat generation in server environments. This improves cooling efficiency and system stability. It helps maintain optimal operating temperatures. Reduced thermal load extends hardware lifespan.

Lower Operational Costs for Enterprise Deployments

Energy-efficient memory reduces electricity usage in large-scale deployments. This contributes to lower operational expenses. It improves long-term cost efficiency. Lower TCO is essential for enterprise IT planning.

Dual Rank x4 Architecture

The dual rank x4 architecture enhances memory parallelism and efficiency. It allows the memory controller to access multiple DRAM banks independently. This increases throughput under heavy workloads. Dual rank design improves overall server performance.

Improved Memory Interleaving

Memory interleaving allows simultaneous access to multiple memory banks. This reduces latency and improves throughput. It enhances multi-threaded workload performance. Interleaving improves system efficiency significantly.

Balanced Load Distribution Across Memory Channels

Dual rank architecture distributes workloads evenly across memory channels. This reduces bottlenecks and improves system stability. It enhances responsiveness in enterprise environments. Balanced distribution improves performance consistency.

288-Pin RDIMM Form Factor for HPE Server

The 288-pin RDIMM form factor ensures full compatibility with HPE server platforms. It provides stable electrical signaling and supports enterprise memory configurations. Registered architecture improves signal integrity in multi-DIMM systems. This ensures reliable performance in production environments.

Stable Electrical Signal Integrity in Servers

Registered buffering enhances signal quality between CPU and memory modules. This reduces electrical load and improves stability. It ensures consistent performance under heavy workloads. Signal integrity is essential for enterprise systems.

Scalable Multi-DIMM Server Configurations

The RDIMM design supports multiple memory modules in a single server system. This enables scalable memory expansion. It supports enterprise infrastructure growth. Scalability is essential for modern data centers.

HPE Smart Memory for Enterprise Servers

HPE Smart Memory is specifically engineered and validated for HPE server platforms. It ensures maximum compatibility, reliability, and performance. Each module is tested under enterprise workloads to guarantee stability. Smart Memory enhances system efficiency and dependability.

Validated with HPE Server Ecosystem

HPE performs rigorous testing on Smart Memory modules. This ensures seamless integration with ProLiant servers. It reduces compatibility risks in enterprise deployments. Validation improves system reliability.

Server Performance and Efficiency

Smart Memory improves overall system efficiency by optimizing memory configuration. It enhances workload performance and stability. This improves resource utilization. Efficiency is critical for enterprise IT systems.

Cloud Infrastructure

This DDR5 RDIMM is ideal for virtualization and cloud workloads requiring high memory capacity and bandwidth. It supports multiple virtual machines and dynamic resource allocation. ECC protection ensures data integrity in shared environments. This improves scalability and performance consistency.

Multi-Tenant Resource Allocation

Cloud environments require efficient memory distribution across tenants. This module supports balanced allocation of resources. It improves workload isolation. Efficient allocation enhances cloud performance.

Improved Virtual Machine Responsiveness

Faster memory access improves VM responsiveness and performance. It reduces latency in virtual environments. This enhances user experience. Responsiveness is critical for cloud systems.

High-Performance Computing

This module supports AI, machine learning, and HPC workloads requiring large memory capacity and bandwidth. It accelerates data processing and model training. ECC ensures computational accuracy. It is suitable for advanced enterprise computing environments.

Faster Model Training Cycles

High-capacity memory reduces training time for AI models. It improves data throughput and processing efficiency. This enhances productivity in machine learning workflows. Faster training improves development cycles. Scientific workloads require stable and fast memory access.