Hynix 32GB 3200MHz PC4-25600 CL22 ECC RDIMM Memory Module - HMAA4GR7AJR8N-XN
- — Free Ground Shipping
- — Min. 6-month Replacement Warranty
- — Genuine/Authentic Products
- — Easy Return and Exchange
- — Different Payment Methods
- — Best Price
- — We Guarantee Price Matching
- — Tax-Exempt Facilities
- — 24/7 Live Chat, Phone Support
- — Visa, MasterCard, Discover, and Amex
- — JCB, Diners Club, UnionPay
- — PayPal, ACH/Wire Transfer
- — Apple Pay, Amazon Pay, Google Pay
- — Buy Now, Pay Later - Affirm, Afterpay
- — GOV/EDU/Institutions PO's Accepted
- — Invoices
- — Deliver Anywhere
- — Express Delivery in the USA and Worldwide
- — Ship to -APO -FPO
- — For USA - Free Ground Shipping
- — Worldwide - from $30
Same product also available in:
SKU/MPN | Warranty | Price | Condition | You save |
---|---|---|---|---|
HMAA4GR7AJR8N-XN | Six-Month (180 Days) | $86.00 | New Sealed in Box (NIB) | You save: $63.85 (43%) |
HMAA4GR7AJR8N-XN | Six-Month (180 Days) | $72.00 | New (System) Pull | You save: $25.20 (26%) |
SK HYNIX HMAA4GR7AJR8N-XN 32GB DDR4 3200MT/s ECC Registered RDIMM Memory Module
Manufacturer Overview
- Brand: SK HYNIX
- Part Number: HMAA4GR7AJR8N-XN
- Product Name: 32GB DDR4 SDRAM Memory Module
Technical Specifications
- Capacity: 32GB
- Memory Technology: DDR4 SDRAM
- Module Configuration: 1 x 32GB
- Bus Speed: 3200MT/s (PC4-25600)
- Data Integrity Check: ECC (Error-Correcting Code)
- Signal Processing: Registered
- CAS Latency: CL22
- Rank Features: Dual Rank (2R x 8)
Physical Attributes
- Form Factor: 288-pin RDIMM
- Shipping Dimensions: 1.00" (Height) x 6.75" (Depth)
- Shipping Weight: 0.20 lb
Performance Advantages
- This DDR4 memory module operates at an impressive speed of 3200MT/s, enhancing overall system performance and responsiveness.
- With ECC technology, this module provides reliable data integrity by automatically correcting errors, making it ideal for critical applications.
- The registered design improves stability and performance, allowing for higher memory capacities and better scalability in enterprise environments.
- CAS Latency of CL22 ensures efficient access times, which is crucial for optimizing application performance in demanding workloads.
- Dual Rank (2R) architecture enhances memory throughput, making it well-suited for multi-threaded applications and heavy data processing tasks.
Use Case Scenarios
- Designed for use in high-performance servers and workstations requiring substantial memory for complex applications.
- Ideal for virtualization environments, where multiple operating systems run concurrently, demanding significant memory resources.
- Compatible with systems that support 288-pin DDR4 RDIMM modules, providing an adaptable solution for various server configurations.
Benefits for Data-Centric Applications
- The substantial 32GB capacity allows for enhanced multitasking capabilities and supports memory-intensive applications such as databases and analytics.
- Data integrity ensured by ECC technology minimizes the risk of data corruption, a critical feature for finance, healthcare, and enterprise applications.
- Registered memory design supports larger memory arrays, providing stability and reliability for large-scale server deployments.
Future-Ready Memory Solution
- This memory module is built for longevity, ensuring compatibility with upcoming technologies and expansions in server configurations.
- Its high-speed performance of 3200MT/s is tailored to meet current and future data processing demands efficiently.
- With its ECC support and dual-rank design, this module offers enhanced reliability and performance, making it an excellent choice for enterprise environments.
Capacity: 32GB
The Hynix HMAA4GR7AJR8N-XN Memory Module is equipped with a capacity of 32GB, making it an excellent choice for users who require a high-performance and reliable memory solution. With this impressive capacity, users can experience enhanced multitasking capabilities and improved overall system performance.
Benefits of 32GB Capacity
1. Increased System Performance: The 32GB capacity allows for smoother and more efficient data processing, reducing the occurrence of system lag and improving overall performance. It enables users to run resource-intensive applications and perform demanding tasks without experiencing significant slowdowns.
2. Enhanced Multitasking: With 32GB of memory, users can effortlessly switch between multiple applications, run virtual machines, and handle large datasets concurrently. This capability is particularly beneficial for professionals working with complex software applications such as video editing, 3D modeling, and data analysis.
3. Future-Proofing: As technology advances and software becomes more demanding, having a higher capacity memory module ensures compatibility with future software updates and releases. Investing in a 32GB module helps to future-proof your system, allowing it to handle upcoming applications and operating systems efficiently.
Importance of 32GB Capacity
1. Work Efficiency: The 32GB capacity enables users to work seamlessly without experiencing system slowdowns or memory-related bottlenecks. This is especially crucial for professionals who rely on their systems for productivity-intensive tasks, as it allows them to complete their work faster and more efficiently.
2. Gaming Performance: Gamers can benefit greatly from the 32GB capacity, as it provides ample memory for running modern games at higher settings and resolutions. It helps to prevent game stuttering, reduces loading times, and ensures a smooth gaming experience even in resource-intensive games.
3. Content Creation: Content creators working with high-resolution images, videos, and audio files will find the 32GB capacity invaluable. It allows for seamless editing and rendering of large multimedia files, significantly improving workflow efficiency and reducing time spent waiting for processes to complete.
Additional Considerations
1. System Requirements: Before purchasing the Hynix HMAA4GR7AJR8N-XN Memory Module, it is important to ensure that your system supports a capacity of 32GB. Check your motherboard's specifications and compatibility to avoid any compatibility issues.
2. Upgrading Existing Systems: If you are upgrading your existing system with this memory module, ensure that your motherboard supports the maximum capacity of 32GB. Some older systems may have limitations on memory capacity, so it is essential to verify compatibility before making a purchase.
3. Future Expansion: If you anticipate the need for even more memory in the future, consider purchasing multiple 32GB modules or opting for higher-capacity modules to accommodate your future requirements without needing to replace the entire memory solution.
Speed: 3200MHz
The Hynix HMAA4GR7AJR8N-XN Memory Module offers a blazing speed of 3200MHz, providing users with exceptional performance and responsiveness. With this impressive speed, users can experience faster data transfer rates, reduced latency, and overall smoother system operation.
Benefits of 3200MHz Speed
1. Improved System Responsiveness: The 3200MHz speed ensures that data is processed and accessed quickly, resulting in a more responsive system. This is particularly beneficial when launching applications, loading files, or performing tasks that involve frequent data access.
2. Enhanced Gaming Experience: Gamers can enjoy a significant performance boost with the 3200MHz speed. It reduces input lag, improves frame rates, and minimizes stuttering, resulting in a smoother and more immersive gaming experience. Games load faster, and gameplay is more fluid, enhancing overall enjoyment.
3. Efficient Data Processing: The high speed of 3200MHz facilitates faster data transfer between the memory module and other components, such as the CPU and storage devices. This is advantageous for tasks that involve large file transfers, such as video rendering, 3D modeling, and database management. It reduces the time required for these processes, increasing productivity.
Importance of 3200MHz Speed
1. Compatibility with Modern Systems: The 3200MHz speed is widely supported by modern systems and motherboards. Opting for this speed ensures compatibility with most current systems, allowing users to take full advantage of their hardware capabilities without any potential bottlenecks.
2. Overclocking Potential: For users interested in overclocking their system, a memory module with a high base speed like 3200MHz provides a solid foundation. It offers more headroom for increasing the clock speed further through manual adjustments in the system's BIOS, resulting in even better performance gains.
3. Future-Proofing: As software becomes more demanding and resource-intensive, having a higher speed memory module like 3200MHz is crucial to keep up with the evolving technology landscape. It ensures that your system remains capable of handling future software updates and releases efficiently.
Additional Considerations
1. System Compatibility: Before purchasing the Hynix HMAA4GR7AJR8N-XN Memory Module with a speed of 3200MHz, ensure that your system's motherboard supports this speed. Check the motherboard's specifications and compatibility to avoid any compatibility issues.
2. Overclocking Considerations: If you plan to overclock your system, ensure that your CPU and motherboard support the desired clock speed. Overclocking may involve adjusting voltages and timings, which should be done cautiously to avoid stability issues and potential damage to the hardware.
3. Cooling Solutions: Higher speed memory modules tend to generate more heat during operation. Consider investing in adequate cooling solutions such as additional case fans or a CPU cooler to maintain optimal operating temperatures and prevent any potential performance degradation due to thermal throttling.
Technology: DDR4 SDRAM
The Hynix HMAA4GR7AJR8N-XN Memory Module utilizes DDR4 SDRAM technology, offering significant advantages over its predecessors. DDR4 SDRAM provides higher data transfer rates, improved power efficiency, and increased module densities, making it an ideal choice for users seeking enhanced system performance and energy efficiency.
Benefits of DDR4 SDRAM
1. Faster Data Transfer Rates: DDR4 SDRAM offers faster data transfer rates compared to previous generations of memory technology. This ensures that data is processed quickly, reducing bottlenecks and improving overall system performance. Users can experience faster application loading times, smoother multitasking capabilities, and improved responsiveness.
2. Improved Power Efficiency: DDR4 SDRAM operates at lower voltage levels compared to its predecessors, resulting in increased power efficiency. This not only reduces energy consumption but also helps in keeping the system cooler during operation. Improved power efficiency is particularly beneficial for laptops and other portable devices, as it contributes to extended battery life.
3. Increased Module Densities: DDR4 SDRAM allows for higher module densities, enabling users to install more memory in their systems. This is advantageous for users who require large amounts of memory for resource-intensive tasks such as video editing, 3D rendering, and virtualization. Higher module densities also provide room for future upgrades without replacing the entire memory solution.
Importance of DDR4 SDRAM
1. Compatibility with Modern Systems: DDR4 SDRAM is the current industry standard and is widely supported by modern systems and motherboards. Opting for DDR4 ensures compatibility with most current systems, allowing users to take full advantage of their hardware capabilities without any potential compatibility issues.
2. Future-Proofing: As technology advances, software becomes more demanding, and system requirements evolve. Choosing DDR4 SDRAM ensures that your system remains capable of handling future software updates and releases efficiently. It provides a level of future-proofing, allowing your system to remain relevant for a longer period.
3. Energy Efficiency: The improved power efficiency of DDR4 SDRAM helps in reducing energy consumption, contributing to a greener and more environmentally friendly computing experience. It can result in cost savings over time, particularly in scenarios where systems are consistently utilized for extended periods.
Additional Considerations
1. System Compatibility: Before purchasing the Hynix HMAA4GR7AJR8N-XN Memory Module with DDR4 SDRAM technology, ensure that your system's motherboard supports this memory type. Check the motherboard's specifications and compatibility to avoid any compatibility issues.
2. Mixing Memory Technologies: It is generally recommended to avoid mixing different memory technologies within the same system. Ensure that all installed memory modules are of the same type (DDR4) to maintain optimal stability and performance.
3. Overclocking Considerations: DDR4 SDRAM can offer additional overclocking potential, allowing users to increase the memory clock speed beyond the base specification. However, overclocking should be done cautiously, considering factors such as system cooling and stability, and within the limits supported by the motherboard and CPU.
Ecc: 1
The Hynix HMAA4GR7AJR8N-XN Memory Module features ECC (Error-Correcting Code) technology with a rating of 1, offering enhanced data integrity and reliability. ECC memory is designed to detect and correct errors that occur during data storage or transmission, providing an added layer of protection against potential data corruption.
Benefits of ECC Technology
1. Data Integrity: ECC memory ensures that stored or transmitted data remains intact and free from errors. It detects and corrects single-bit errors, preventing potential data corruption that could lead to system crashes, application failures, or data loss. This is particularly crucial in mission-critical environments where data accuracy is paramount.
2. Enhanced System Stability: By detecting and correcting errors, ECC memory contributes to improved system stability. It reduces the occurrence of random crashes, system freezes, or application instabilities that could result from memory-related issues. This is especially important for systems that operate continuously or handle large amounts of critical data.
3. Reliability in High-Stress Environments: ECC memory is highly recommended for systems operating in high-stress environments where errors are more likely to occur due to factors such as increased temperature, electromagnetic interference, or cosmic radiation. It ensures that the system remains reliable and error-free even under challenging conditions.
Importance of ECC Technology
1. Server Environments: ECC memory is particularly crucial in server environments where data integrity is of utmost importance. In such scenarios, even a single bit error can have significant consequences, leading to data corruption, system crashes, or compromised server performance. ECC memory provides an essential layer of protection against such errors.
2. Workstations and Professional Applications: Workstations used for resource-intensive tasks such as CAD/CAM, video editing, or scientific simulations can benefit from ECC memory. These applications often involve handling large datasets that need to remain accurate and error-free throughout the processing pipeline.
3. Peace of Mind: ECC memory offers peace of mind to users who rely on their systems for critical tasks or precious data storage. Knowing that the memory module has error detection and correction capabilities provides reassurance that the system is protected against potential data corruption and ensures reliable operation.
Additional Considerations
1. System Compatibility: Before purchasing the Hynix HMAA4GR7AJR8N-XN Memory Module with ECC technology, ensure that your system's motherboard supports ECC memory. Not all motherboards are compatible with ECC, so it is essential to verify compatibility before making a purchase.
2. Mixing ECC and Non-ECC Memory: Mixing ECC and non-ECC memory modules within the same system may result in compatibility issues or disable the ECC functionality altogether. It is recommended to use ECC modules exclusively or non-ECC modules exclusively to maintain optimal stability and performance.
3. Cost Considerations: ECC memory modules are generally priced higher than their non-ECC counterparts due to the additional error correction capabilities. Evaluate your requirements and assess whether the added level of data integrity and reliability justifies the cost difference for your specific use case.
Registered: 1
The Hynix HMAA4GR7AJR8N-XN Memory Module features registered memory technology with a rating of 1, providing enhanced signal integrity and stability for higher-capacity memory configurations. Registered memory modules utilize a register to buffer memory signals, reducing electrical loading on the memory bus and allowing for larger memory capacities with improved performance.
Benefits of Registered Technology
1. Increased Memory Capacity: Registered memory allows for higher memory capacities by reducing electrical loading on the memory bus. This enables users to install larger amounts of memory in their systems without sacrificing stability or performance. It is particularly beneficial for servers and workstations that require extensive memory configurations.
2. Improved Signal Integrity: The register in registered memory modules helps to improve signal integrity by buffering and amplifying the memory signals. This reduces the chances of data corruption or signal degradation, ensuring reliable data transmission and storage. It is especially important for systems operating at higher clock speeds or with large memory configurations.
3. Enhanced Performance: By reducing electrical loading on the memory bus, registered memory modules help to minimize signal delays and improve overall system performance. This is particularly noticeable in scenarios that involve memory-intensive tasks or large datasets, such as database management, virtualization, or scientific simulations.
Importance of Registered Technology
1. Server Environments: Registered memory is highly recommended for server environments that require large memory configurations and optimal system stability. Servers often handle multiple concurrent processes and large datasets, making registered memory an essential component for reliable operation.
2. Workstations and High-Performance Computing: Workstations used for resource-intensive tasks such as 3D rendering, video editing, or scientific simulations can benefit from registered memory. These applications frequently require extensive memory configurations to ensure smooth operation and efficient data processing.
3. Error Correction Support: Registered memory modules often include support for advanced error correction technologies such as ECC (Error-Correcting Code). The combination of registered and ECC memory provides both increased memory capacity and enhanced data integrity, making it ideal for critical applications that demand high levels of reliability.
Additional Considerations
1. System Compatibility: Before purchasing the Hynix HMAA4GR7AJR8N-XN Memory Module with registered technology, ensure that your system's motherboard supports registered memory. Not all motherboards are compatible with registered modules, so it is essential to verify compatibility before making a purchase.
2. Mixing Registered and Unbuffered Memory: Mixing registered (buffered) and unbuffered memory modules within the same system may result in compatibility issues or disable the registered functionality altogether. It is recommended to use either registered modules exclusively or unbuffered modules exclusively to maintain optimal stability and performance.
3. Cost Considerations: Registered memory modules are generally priced higher than their unbuffered counterparts due to the additional buffering and signal integrity features. Evaluate your requirements and assess whether the benefits provided by registered memory justify the cost difference for your specific use case.
Rank: Dual Rank
The Hynix HMAA4GR7AJR8N-XN Memory Module features dual rank configuration, providing increased memory density and improved performance for compatible systems. Dual rank memory modules have two sets of memory chips on each side, effectively doubling the amount of memory that can be stored per module.
Benefits of Dual Rank
1. Increased Memory Density: Dual rank memory allows for higher memory densities by utilizing two sets of memory chips on each side of the module. This enables users to install larger amounts of memory in their systems without sacrificing stability or performance. It is particularly beneficial for servers and workstations that require extensive memory configurations.
2. Improved Performance: Dual rank memory modules can provide improved performance in certain scenarios. The additional memory chips allow for better parallelism and increased data transfer rates, resulting in faster access to stored data. This can be advantageous for memory-intensive tasks or applications that benefit from larger