AC718214 Dell 64GB PC4-23400 DDR4 ECC Memory Module

Dell AC718214 64GB PC4-23400 RAM

The Dell AC718214 64GB PC4-23400 DDR4 ECC Registered DIMM is engineered for enterprise-grade performance, ensuring reliability and speed for demanding workloads.

General Information

• Brand: Dell
• Model Number: AC718214
• Category: Server Memory Module

Technical Specifications

Capacity and Technology

• Storage Size: 64GB
• Memory Type: DDR4 SDRAM
• Module Count: 1 x 64GB

Performance Details

• Speed: 2933 MT/s (DDR4-23400 / PC4-2933)
• Error Correction: ECC (Error-Correcting Code)
• Signal Processing: Registered DIMM
• Latency: CL21
• Rank: 2Rx4

System Compatibility

Supported Dell PowerEdge Servers

• PowerEdge R640
• PowerEdge R740
• PowerEdge R940
• PowerEdge R740xd
• PowerEdge C6420
• PowerEdge T640
• PowerEdge FC640
• PowerEdge M640
• PowerEdge M640 VRTX
• PowerEdge C4140
• PowerEdge R840
• PowerEdge MX740c
• PowerEdge MX840c

Supported Dell Precision Workstations

• Precision 7820 Tower
• Precision 7920 Tower

Physical Characteristics

Form Factor

• 288-pin RDIMM

Dimensions

• Height: 1.00 inch
• Depth: 6.75 inches

Weight

• 0.20 lb

Dell AC718214 64GB 2933MT/s PC4-23400 DDR4 RAM Overview

The Dell AC718214 64GB 2933MT/s PC4-23400 CL21 ECC Registered Dual Rank x4 1.2V DDR4 SDRAM 288-Pin RDIMM Memory Module represents a high-capacity, enterprise-class memory solution engineered to support advanced workloads, next-generation server infrastructures, and performance-demanding environments. This type of RDIMM is specifically designed for mission-critical applications that rely heavily on stability, scalability, and consistent data throughput. With a focus on delivering reliable server memory expansion for modern data centers, virtualized workloads, and large-scale computing tasks, this module fits seamlessly into systems requiring elevated bandwidth and reduced latency. Its Registered DIMM architecture enhances signal integrity, allowing greater capacity and improved stability compared to unbuffered memory modules.

Technology Foundation

The progression from previous memory generations to DDR4 brought substantial performance improvements, such as increased speed, higher density, and greater overall efficiency. For servers and enterprise systems, these enhancements were necessary to handle growing workloads, escalating data traffic, and complex multi-application environments. The 2933MT/s transfer rate ensures fast and consistent data movement across platforms, contributing to minimized bottlenecks and accelerated processing times. In addition, DDR4 technology integrates lower operating voltage, advanced error correction, and architecture optimizations to ensure that systems remain responsive even during intensive operations. The Dell AC718214 module follows these advancements and integrates enterprise-grade features that align with server reliability standards.

DDR4 Architecture Advantages

The DDR4 architecture offers numerous design-level enhancements that have transformed memory performance in modern enterprise servers. The reduced power consumption plays a significant role in decreasing total operational costs, especially in large data centers where memory-related power draw contributes heavily to overall energy expenditure. Its internal structure supports denser memory configurations, allowing servers to accommodate substantial amounts of RAM without degradation in signal integrity. This scalability is essential for businesses managing cloud resources, virtualization clusters, and databases that demand persistently high throughput.

The Importance of RDIMM in Enterprise Hardware

Registered DIMM technology adds an additional layer of buffering to stabilize communication between the memory controller and the individual DRAM chips. This registration enables higher capacities and better overall reliability. RDIMM is particularly important in enterprise-grade systems where uptime is crucial and performance inconsistencies can have widespread effects. The Dell AC718214 module is engineered with these principles, ensuring that servers operate efficiently under heavy computational loads, large-scale virtualization demands, and high-transaction database environments.

Characteristics of the Dell AC718214 RDIMM

This memory module’s 2933MT/s transfer speed and PC4-23400 bandwidth deliver the performance necessary to meet increasing compute requirements. As organizations expand their IT ecosystems, faster memory speeds help reduce latency, optimize the delivery of application responses, and decrease the waiting time between operations. The CL21 latency rating is designed to maintain a balance between speed and reliability, offering predictable performance even when numerous processes are executed simultaneously. Additionally, its dual rank configuration allows more efficient handling of large datasets by distributing memory loads across multiple ranks for improved throughput.

High Bandwidth for Demanding Workloads

Servers relying on memory-intensive workloads, such as scientific simulations, artificial intelligence models, and virtual machine clusters, benefit greatly from the bandwidth provided by PC4-23400 memory. The Dell AC718214 module enables high-speed access to frequently used datasets, making it suitable for real-time analytics, high-frequency trading infrastructures, and transaction-heavy database platforms. Its design ensures that data streams flow with minimal delays, contributing to the stability of mission-critical applications.

Latencies and Real-World Responsiveness

The CL21 latency designation allows for minimized delays between the memory controller’s requests and the data output process. While latency varies depending on workload and system configuration, modules like this one ensure consistent responsiveness during multitasking operations. Systems depending on large-scale in-memory databases, caching layers, or CPU-intensive processing routines benefit from reliable latency performance, maintaining smooth operational flows even during peak load cycles.

Dual Rank Structure Benefits

The dual rank architecture helps distribute data across two separate sets of memory chips, improving efficiency and enabling better utilization of memory bandwidth. This structure is beneficial for servers that require sustained performance in multitasking infrastructures, enabling higher throughput and more reliable application operation. As workloads increase, dual rank memory helps maintain responsiveness and reduces the strain placed on individual memory chips.

x4 DRAM Configuration Advantages

The x4 organization refers to the width of each DRAM chip’s data bus. A narrower bus width increases error resilience by isolating faults more effectively, which is critical in data-sensitive enterprise applications. Systems relying on error correction, particularly in virtualization hosts or multi-user environments, benefit from the Dell AC718214 module’s x4 configuration. It prioritizes reliability while supporting efficient data processing and memory-level redundancy.

ECC Error Correction Capabilities

Error-Correcting Code (ECC) memory is essential for enterprise environments that cannot risk data corruption or memory-level faults. The Dell AC718214 utilizes ECC technology to detect and correct common data corruption errors, ensuring that systems remain stable even under constant use. ECC functionality is particularly important in sectors where system integrity is indispensable, such as healthcare, finance, scientific computing, cloud infrastructure, and security-focused industries.

ECC Improves Data Reliability

ECC detects single-bit errors and corrects them automatically before the system registers the data. By maintaining high data accuracy, the risk of crashes or unexpected application failures is significantly reduced. This continuous verification ensures long-term server stability and reduces unplanned downtime. The ECC capabilities integrated in the Dell AC718214 memory module contribute significantly to its dependability in mission-critical tasks.

Benefits of ECC for Virtualization

Virtualization environments rely heavily on memory stability because multiple virtual machines operate simultaneously on the same physical hardware. ECC memory reduces the likelihood of errors that could affect multiple virtual systems and cause cascading failures. The Dell AC718214 memory module provides a consistent foundation for virtual machine hosts, containerized deployments, and cloud infrastructure platforms by ensuring data accuracy and system stability.

ECC in High Availability Systems

High availability servers require non-stop operation, and even minor data errors can result in significant disruptions. ECC memory enhances redundancy and ensures that data remains stable even as workloads scale. With the Dell AC718214 memory module, enterprises can maintain reliable performance in clustered server environments, enterprise cloud platforms, and distributed computing networks.

Energy Efficiency and Low Voltage Operation

Modern servers aim to maximize performance without excessively increasing power usage. The Dell AC718214 memory module operates at a low 1.2V, reducing energy consumption while maintaining high operational speed. Energy-efficient components help data centers lower cooling costs, extend hardware lifespan, and reduce total cost of ownership. This reduction in voltage still allows the module to deliver high transfer speeds and reliable performance.

Impact of Low Voltage on Server Environments

Lower voltage contributes significantly to power savings when multiplied across dozens or hundreds of memory modules in large-scale facilities. Energy reductions accumulate over time, enabling companies to improve sustainability and reduce environmental impact. Memory modules like the Dell AC718214 are engineered to operate efficiently under modern energy-saving standards while maintaining responsiveness and accuracy.

Heat Reduction and Thermal Stability

Lower voltage also results in reduced thermal output, improving the system’s thermal balance. Servers running memory at lower power output generate less heat, lowering the burden on cooling systems. The more consistent thermal stability reduces wear and tear on components and increases overall system longevity. The Dell AC718214 module supports stable operation in multi-socket servers, high-density racks, and clustered compute environments.

Compatibility in Enterprise Hardware Ecosystems

The Dell AC718214 is designed to fit a wide array of enterprise server platforms. As a Dell-certified memory module, it adheres to strict quality, durability, and compatibility standards. Its Registered DIMM design ensures seamless integration with systems designed for ECC RDIMM configurations. Compatibility extends to servers requiring high bandwidth, large capacity, and stable error-correcting memory configurations.

Compatibility with Dell PowerEdge Servers

This module is engineered for optimal performance in Dell PowerEdge systems, where memory reliability and performance are essential. These servers commonly support extensive virtualization clusters, cloud-based applications, and business-critical workloads. The memory module supports scalable configurations and allows administrators to upgrade systems as workloads evolve.

Support for Multi-Processor Platforms

Multi-CPU servers require memory modules that can sustain balanced performance across multiple memory channels. The Dell AC718214 module is engineered to handle this type of demanding environment, ensuring efficient workflows, reduced latency, and consistent data throughput across all processors in the system.

Advanced Chipset Support

The memory module works with chipsets designed for next-generation performance, ensuring seamless communication between memory and CPU. Support for optimized memory routing helps maintain signal integrity even under heavy load.

Reliability Across Complex Infrastructures

Enterprises with layered infrastructure, cloud platforms, and multi-site deployments require dependable memory modules like the Dell AC718214. Its reliability ensures that applications remain responsive and stable regardless of load changes or system demands.

Ideal Use Cases and Workload Applications

The Dell AC718214 64GB RDIMM is engineered to serve environments that rely on sustained performance, stability, and fault tolerance. Its large capacity and high-speed capabilities make it suitable for data-intensive tasks and modern computing frameworks. Whether powering virtualized environments, advanced analytics, or distributed workloads, this module plays a critical role in supporting consistent performance.

Virtualization and Cloud Computing

Virtualization platforms often require large memory pools to support multiple running virtual machines. The Dell AC718214 module’s 64GB capacity allows servers to maintain efficient allocation of resources while minimizing bottlenecks. With advanced ECC error correction and dual rank design, this module ensures that cloud infrastructures and virtualized workloads remain stable and responsive.

Enterprise Databases and Data Warehousing

Large-scale databases depend on high-capacity memory to store and access frequently used tables and operations. The consistent performance of this DDR4 RDIMM allows enterprise database servers to maintain smooth transaction processing and predictable query performance. Its ability to support reduced latency and continuous data validation helps minimize database errors and maintains system accuracy.

Advanced AI Workloads and Machine Learning Frameworks

Artificial intelligence frameworks require fast access to high volumes of data. This RDIMM’s speed and capacity make it suitable for training machine learning models, running predictive analytics, and supporting AI-driven services. Its ECC capabilities help ensure data accuracy, which is critical in environments where precise computations are essential.

Durability and Long-Term Stability

Enterprise memory must deliver consistent performance throughout years of operation. The Dell AC718214 module is built with components that meet strict enterprise standards, ensuring durability even under constant load. Its Registered DIMM technology reduces the stress placed on memory controllers and improves operational sustainability. The error correction ensures that data remains trustworthy throughout prolonged use.

Component-Level Quality Assurance

Each memory module is built using enterprise-grade DRAM chips that undergo rigorous testing. This ensures that the module can endure stress factors such as high temperatures, continuous workloads, and demanding computational tasks. The stability gained from the RDIMM architecture ensures predictable performance even under extensive daily use in large-scale infrastructures.