846740-001 HPE 16GB DDR4 2400MHz PC4-19200 288-Pin RAM

Overview of HPE 846740-001 16GB DDR4 2400MHz 2Rx4 PC4-19200 288-Pin DIMM ECC RAM

The HPE 846740-001 16GB DDR4 2400MHz 2Rx4 PC4-19200 288-Pin DIMM ECC RAM category represents a high-performance, enterprise-grade memory solution engineered for modern servers, business-critical applications, and data-intensive workflows. This memory category provides exceptional reliability, advanced error correction, high transfer speeds, and enhanced system stability, making it an essential component for organizations operating HPE ProLiant servers, workstation environments, and scalable IT infrastructures. The module’s 2Rx4 rank configuration, 2400MHz operating speed, and ECC capability ensure that servers maintain data integrity while handling complex workloads, supporting virtualization, database operations, cloud computing, and high-throughput data processing with consistent efficiency.

Technical Characteristics of HPE 846740-001 Memory Modules

The HPE 846740-001 16GB DDR4 memory category incorporates advanced DDR4 technology that delivers lower voltage consumption, higher performance, and improved reliability when compared to earlier DDR3-based systems. Its PC4-19200 classification represents a peak transfer rate of 19,200 MB/s, enabling high-speed data movement essential for modern business applications. The 288-pin form factor ensures optimal connectivity and improved signal integrity, allowing the memory to deliver consistent, stable performance under continuous workloads. The module’s 2Rx4 rank structure enhances memory density, providing improved throughput and efficiency, particularly in multi-channel server environments where bandwidth and parallel processing are crucial.

DDR4 Architecture and Performance Advantages

The DDR4 architecture featured in the HPE 846740-001 category provides significant improvements in both speed and power efficiency over its predecessors. The memory operates at 2400MHz, offering rapid data access and superior response times crucial for virtualization clusters, VDI deployments, data analytics systems, and enterprise applications requiring fast transactional processing. The lower voltage requirement reduces overall server power consumption, offering long-term cost savings for organizations with large-scale deployments or high-density data centers. These architectural improvements provide the foundation for increased memory capacity and improved server performance across a broad range of applications and workloads.

High-Speed Data Processing

The PC4-19200 speed rating ensures that the module can support environments requiring high memory bandwidth. Servers engaged in database indexing, real-time analytics, and dynamic content delivery benefit significantly from the high throughput offered by this memory category. The efficient data processing architecture reduces latency, allowing processors to access memory more quickly and improving overall system responsiveness. Businesses operating resource-hungry applications, such as ERP platforms, large-scale CRM systems, engineering simulations, or concurrent user environments, can depend on the HPE 846740-001 category for stable performance even under intense workloads.

Improved Signal Integrity and Stability

The 288-pin DDR4 DIMM structure supports advanced signaling technologies that minimize electrical interference and improve communication between the memory and CPU. This enhanced signal integrity ensures stable operation even during high-intensity workloads. The improved pin configuration contributes to consistent data flow, reduced transmission errors, and more efficient multitasking performance for mission-critical server operations. This makes the HPE 846740-001 category particularly valuable for organizations requiring consistent up-time and uninterrupted service delivery across their IT ecosystem.

ECC and Enterprise Reliability

One of the defining features of the HPE 846740-001 memory category is its use of ECC (Error-Correcting Code) technology. ECC memory plays a critical role in ensuring data accuracy and preserving system integrity, particularly in enterprise and mission-critical environments. The ECC mechanism detects and corrects single-bit memory errors, preventing data corruption and system instability. This reduces the risk of application crashes, system downtime, and data loss, which can have severe consequences for businesses relying on continuous server operation. The ECC functionality of these memory modules makes them ideal for high-reliability systems, such as financial servers, healthcare software platforms, government infrastructure, telecommunications networks, and large-scale e-commerce platforms.

Enhanced Fault Tolerance for Continuous Operation

Servers in demanding enterprise environments must maintain consistent performance and reliability. ECC memory modules like the HPE 846740-001 offer enhanced fault tolerance by proactively correcting memory errors before they affect applications or operating systems. This capability is essential for computational environments handling large user loads, sensitive data, or complex calculations. ECC memory helps maintain operational continuity and reduces downtime risk, ensuring that critical services remain available around the clock. System stability is particularly important in environments where even minor data corruption could disrupt operations or compromise sensitive information.

Role of ECC in Data-Intensive Workloads

Data-intensive workloads such as database transaction processing, virtualization clusters, virtualization hosting, and scientific computing depend heavily on precise data handling. In such environments, undetected memory errors can accumulate and lead to significant performance issues, corrupted datasets, or system crashes. By employing ECC memory, the HPE 846740-001 category ensures that servers can process large volumes of data without risk of corruption. This reinforces application stability and guarantees the long-term reliability of analytics platforms, virtualization solutions, online transaction processing systems, and mission-critical enterprise workloads.

Increasing System Longevity with ECC Memory

ECC modules also contribute to the extended lifespan of server hardware. By reducing the likelihood of memory-related failures, these modules ensure smoother operations over the server’s lifetime. Organizations deploying HPE 846740-001 memory benefit from lower maintenance costs, reduced repair needs, and fewer disruptive incidents caused by hardware malfunctions. This heightened reliability supports long-term IT planning and infrastructure scalability, enabling businesses to expand their server environments confidently while maintaining the highest levels of data integrity and system performance.

HPE Server Platforms

HPE designs its server memory modules specifically for compatibility with ProLiant server systems, ensuring seamless integration and optimized performance across diverse workloads. The HPE 846740-001 category is engineered to work flawlessly with HPE Gen9 and Gen10 servers—systems widely used by enterprises, data centers, cloud service providers, and HPC environments. This tight integration ensures that memory operates at peak efficiency, adheres to HPE quality standards, and supports advanced server features such as memory mirroring, failover protection, interleaving, and enhanced thermal optimization.

Memory Interleaving

HPE servers equipped with 846740-001 memory modules benefit from improved memory interleaving, distributing workloads across multiple channels for faster data access. This enhances system throughput and optimizes CPU utilization, providing smoother performance for parallel workloads and multi-threaded applications. Businesses running databases, cloud hosting services, virtualization clusters, or application servers can take advantage of these interleaving capabilities to increase system responsiveness and efficiency.

Designed for ProLiant Server Architecture

The memory category is fully validated for use in HPE ProLiant rack servers, tower servers, and blade systems. HPE conducts rigorous testing to ensure each memory module maintains consistent performance under various workloads and environmental conditions. The module’s precise engineering ensures compatibility with firmware, BIOS configurations, and hardware components across multiple server series. This eliminates the risk of instability or inconsistencies and ensures that IT administrators can rely on the long-term operational integration of the 846740-001 memory category.

Ease of Serviceability

HPE memory modules are designed with installation efficiency in mind. The standardized 288-pin configuration and server-specific labeling ensure straightforward installation, minimizing downtime and simplifying server maintenance procedures. IT teams can scale memory capacity quickly in response to growing workload demands. This user-friendly design supports rapid deployment and reduces the time required for diagnostics, upgrades, and server expansions, helping organizations maintain agility in their IT operations.

Role in Cloud Computing

The HPE 846740-001 16GB DDR4 category is particularly valuable for virtualization environments, where memory performance directly impacts system scalability, virtual machine density, and workload distribution. High-speed RAM with ECC capability improves hypervisor performance and ensures stable resource allocation within virtual environments. Businesses using VMware, Hyper-V, KVM, or Proxmox virtualization technologies benefit from the improved data throughput and reliability of this memory category. These enhancements allow organizations to run more virtual machines concurrently, support diverse workloads, and ensure consistent application performance across cloud-based or hybrid environments.

Increasing Virtual Machine Density

Memory capacity is one of the most significant limitations in virtualization deployments. The 16GB configuration of the 846740-001 module provides a suitable balance between high capacity and efficient resource utilization. Its 2Rx4 rank structure improves throughput, allowing virtual machines to execute tasks without delays caused by memory bottlenecks. This makes the memory category ideal for organizations seeking to optimize VM density, reduce hardware expenses, and maximize resource allocation efficiency.

Cloud Hosting Benefits

Cloud computing platforms depend heavily on memory speed and reliability. Servers running cloud applications must handle high traffic volumes, dynamic workloads, and large databases without compromising performance. With high bandwidth and low latency, the 846740-001 memory category ensures that cloud applications remain responsive. The combination of ECC protection and high DDR4 speed contributes to uninterrupted cloud service delivery, supporting web hosting, online applications, containers, and distributed computing environments.

High-Concurrency Environments

In cloud and virtualization environments, many tasks occur simultaneously. High concurrency requires reliable and high-speed memory modules that can sustain consistent throughput. The HPE 846740-001 category meets this requirement effectively, maintaining stability even when servers handle dozens or hundreds of simultaneous processes. This results in improved workload balancing, reduced latency, and enhanced user experience for cloud-based services and hosted applications.

Database and Analytics Workloads

The HPE 846740-001 memory category is particularly suitable for database servers and analytics applications requiring rapid memory access and high data throughput. Modern relational databases, NoSQL systems, data warehouses, and in-memory analytical platforms rely heavily on RAM performance to deliver real-time responses. With its 16GB capacity, 2400MHz speed, and ECC technology, the memory category ensures that servers can handle large datasets, fast indexing, high transaction volumes, and multi-user concurrency without performance degradation.

High Transaction Rates

Transactional systems such as financial software, retail management systems, and ERP solutions demand stable memory performance to maintain accuracy and throughput. The 846740-001 category allows these applications to process transactions efficiently while minimizing latency spikes. Its robust architecture helps maintain data consistency and system responsiveness during periods of high activity, improving service quality and operational reliability.

Accelerating Data Analytics

Analytics platforms often perform intensive computations, real-time querying, and memory-resident data processing. The high bandwidth of PC4-19200 memory ensures that analytics engines can quickly retrieve and manipulate data stored in memory. This leads to faster processing times for reporting, data mining, business intelligence dashboards, and machine learning operations. Organizations relying on analytics-driven decision-making benefit from the improved throughput and reduced latency offered by this memory category.

Query Performance

Database querying often involves rapid data retrieval and parallel operations. With its efficient architecture and large cache buffer, the HPE 846740-001 category enhances query execution speeds, delivering more consistent responses for high-demand workloads. The improved memory bandwidth reduces bottlenecks, contributing to smoother database operations and increased productivity across data-driven applications and services.

Reduced Consumption for Large Deployments

Lower voltage consumption translates directly into reduced operational costs, particularly for organizations deploying dozens or hundreds of memory modules across large server fleets. The energy-efficient design helps businesses reduce electricity costs, improve cooling efficiency, and lower the overall environmental impact of their IT operations. These advantages are especially important for enterprises running high-density racks or blade environments where efficient power usage is essential.

Enhanced Heat Dissipation Technologies

The module incorporates advanced PCB materials and thermal optimization techniques that help dissipate heat evenly across the memory structure. Efficient heat management reduces the risk of thermal throttling and extends the lifespan of both the memory module and surrounding server components. Improved thermal characteristics provide stability during high-intensity workloads and contribute to consistent long-term performance in data center environments where temperature control is crucial.

Reliability in Continuous Operation

Servers often operate continuously, sometimes for years at a time. The energy-efficient and thermally optimized design of the 846740-001 memory category ensures that it performs reliably under continuous workloads. Reduced heat output and efficient cooling contribute to lower failure rates, making this memory category ideal for mission-critical servers requiring nonstop availability. This long-term reliability supports business continuity and ensures that essential services remain accessible without interruptions.

Scalability Server Infrastructure

As businesses expand, their IT infrastructures must scale to support increasing workloads. The HPE 846740-001 memory category is engineered with scalability in mind, allowing organizations to upgrade memory capacity gradually without disrupting operations. Its compatibility with HPE ProLiant servers ensures seamless integration during upgrades, enabling IT teams to increase memory density, improve application performance, and meet growing data demands over time.

Server Expansion

Whether an organization is implementing additional virtual machines, expanding databases, deploying new applications, or increasing user loads, memory upgrades are often one of the most effective ways to enhance server performance. The 846740-001 category provides a reliable path for scaling memory resources, enabling servers to handle more complex tasks and higher concurrency levels without hardware replacement.

Flexible Capacity Planning

The 16GB capacity of this module fits well into modular expansion strategies. Businesses can add additional modules as needed to meet changing requirements. This flexibility is crucial for growing enterprises, cloud service providers, and data-driven companies that must adapt quickly to evolving workload patterns. The ability to expand memory incrementally allows organizations to maintain operational efficiency while optimizing budget allocation.

Future Technologies

HPE designs its memory modules to meet evolving industry standards and to support future server platforms. The high-speed DDR4 interface, robust ECC protection, and optimized rank configuration ensure that the 846740-001 category remains relevant even as software applications, virtualization environments, and data-processing demands become increasingly complex. This future-proof design supports long-term infrastructure planning and mitigates the need for frequent hardware upgrades.