HMAA8GR7MJR4N-XN Hynix 64GB DDR4-3200 ECC CL22 288-Pin DIMM

Capacity - 64GB

Enhanced Performance and Multitasking

The Hynix HMAA8GR7MJR4N-XN Memory Module offers an impressive capacity of 64GB, making it an ideal choice for users who require high-performance computing and multitasking capabilities. With this large capacity, you can seamlessly run multiple applications simultaneously without experiencing any lag or slowdowns. Whether you are a professional working with resource-intensive software or a gaming enthusiast seeking smooth gameplay, the 64GB capacity ensures that your system can handle any task with ease.

Efficient Data Storage

The 64GB capacity of this memory module allows you to store and access a vast amount of data quickly and efficiently. Whether it's large multimedia files, databases, or software applications, you can rely on the ample storage space to keep your data organized and readily accessible. This is particularly beneficial for professionals working with large datasets or individuals who require extensive storage for their media files.

Future-Proofing Your System

Investing in a memory module with a high capacity like 64GB ensures that your system remains relevant and capable of handling future software updates and advancements. As technology continues to evolve, applications and operating systems often become more demanding in terms of hardware requirements. By opting for the Hynix HMAA8GR7MJR4N-XN Memory Module with its 64GB capacity, you can future-proof your system and ensure that it can handle new software releases without the need for frequent upgrades.

Speed - 3200MHz

Improved System Responsiveness

The Hynix HMAA8GR7MJR4N-XN Memory Module operates at a speed of 3200MHz, providing exceptional system responsiveness and performance. With higher speed, data can be transferred and processed faster, resulting in reduced loading times for applications and improved overall user experience. Whether you are working on complex tasks or engaging in resource-intensive gaming, the 3200MHz speed ensures that your system can keep up with your demands.

Seamless Multitasking

A faster memory speed allows for smoother multitasking, enabling you to switch between applications seamlessly without experiencing any noticeable delays. This is particularly beneficial if you often work with multiple software tools simultaneously or engage in tasks that require heavy multitasking, such as video editing or 3D rendering. The 3200MHz speed ensures that your system can handle these demanding tasks efficiently without sacrificing performance.

Gaming Performance

Gamers will appreciate the 3200MHz speed of this memory module as it enhances the overall gaming experience. Faster memory speed translates to quicker data access and reduced input lag, resulting in smoother gameplay and improved frame rates. Whether you are playing fast-paced first-person shooters or immersive open-world role-playing games, the 3200MHz speed ensures that you can enjoy a seamless and lag-free gaming experience.

Technology - DDR4

Improved Data Transfer Rates

The Hynix HMAA8GR7MJR4N-XN Memory Module utilizes DDR4 technology, which offers significant improvements in data transfer rates compared to its predecessor, DDR3. With DDR4 technology, you can expect faster data access and processing speeds, resulting in improved overall system performance. Whether you are working with large files, running memory-intensive applications, or engaging in heavy multitasking, the DDR4 technology ensures that your system can handle these tasks efficiently.

Energy Efficiency

DDR4 technology is more energy-efficient compared to previous generations, resulting in lower power consumption. This not only reduces your system's carbon footprint but also helps prolong the battery life of laptops and other portable devices. By choosing a memory module with DDR4 technology like the Hynix HMAA8GR7MJR4N-XN, you can enjoy improved performance without sacrificing energy efficiency.

Compatibility and Future-Proofing

DDR4 technology has become the standard in modern computing systems, ensuring compatibility with a wide range of devices. By opting for a memory module with DDR4 technology, you can future-proof your system and ensure compatibility with future hardware and software releases. This is particularly important as technology continues to advance, and older memory technologies become obsolete.

ECC - 1

Error Correction and Data Integrity

The Hynix HMAA8GR7MJR4N-XN Memory Module features ECC (Error-Correcting Code) functionality, which plays a vital role in ensuring data integrity and system stability. ECC technology detects and corrects errors that occur during data transmission or storage, preventing data corruption and system crashes. This is especially crucial for professionals working with critical data, such as financial records or scientific computations, where accuracy and reliability are paramount.

Enhanced System Reliability

The ECC functionality of this memory module enhances system reliability by providing an additional layer of protection against memory errors. By automatically detecting and correcting errors, ECC helps maintain system stability, minimizing the risk of crashes or data loss. This is particularly important in mission-critical environments where system downtime can result in significant financial losses or compromise sensitive information.

Long-Term Cost Savings

Investing in a memory module with ECC functionality can result in long-term cost savings. By preventing data corruption and system failures, ECC helps minimize the need for costly repairs or data recovery services. Additionally, the enhanced system stability provided by ECC reduces the likelihood of productivity losses due to system downtime. In industries where every minute of operation counts, such as finance or healthcare, the cost savings achieved through ECC can be substantial.

CAS Latency - 22

Faster Memory Access

The CAS latency of a memory module refers to the delay between a memory request and the actual retrieval of data. A lower CAS latency, such as 22 in the case of the Hynix HMAA8GR7MJR4N-XN Memory Module, results in faster memory access and improved overall system performance. With reduced latency, data can be accessed more quickly, allowing for smoother multitasking and faster application loading times.

Enhanced Gaming Experience

Gamers can benefit greatly from a memory module with lower CAS latency. The faster memory access provided by a lower CAS latency helps reduce input lag and improves responsiveness in gaming. This means that actions performed in games will have shorter delays, resulting in a more immersive and enjoyable gaming experience. Whether you are engaged in intense multiplayer battles or exploring vast open worlds, the 22 CAS latency ensures that your gaming sessions are smooth and responsive.

Increased System Efficiency

A lower CAS latency contributes to overall system efficiency by reducing the time it takes for data to be retrieved from memory. This improved efficiency is especially noticeable when running memory-intensive applications or working with large datasets. The 22 CAS latency ensures that your system can handle these demanding tasks efficiently, allowing you to work more productively and complete tasks in less time.

Pin Configuration - 288-Pin DIMM

Universal Compatibility

The Hynix HMAA8GR7MJR4N-XN Memory Module features a 288-Pin DIMM pin configuration, which is a widely adopted standard in the industry. This ensures compatibility with a broad range of motherboards and systems, making it easy to integrate this memory module into your existing setup. Whether you are upgrading your current system or building a new one, the 288-Pin DIMM pin configuration ensures that this memory module can be seamlessly installed.

Easy Installation

The 288-Pin DIMM pin configuration offers a straightforward installation process. With a clear design and standardized layout, users can easily align the memory module with the corresponding memory slots on their motherboard. This eliminates the need for complex configurations or additional tools, allowing even novice users to upgrade their system's memory effortlessly.

Expandability and Upgradability

The 288-Pin DIMM pin configuration allows for easy expandability and upgradability. With multiple memory slots available on most motherboards, you can add additional memory modules to increase your system's overall capacity. This flexibility is particularly beneficial if you anticipate future needs for more memory or if you want to maximize the performance of your system by utilizing dual-channel or quad-channel memory configurations.

Voltage - 1.2V

Energy Efficiency

The Hynix HMAA8GR7MJR4N-XN Memory Module operates at a low voltage of 1.2V. This results in improved energy efficiency, reducing power consumption and heat generation. Lower power consumption not only helps minimize your system's environmental impact but also contributes to lower electricity bills. Additionally, the lower operating voltage helps prolong the lifespan of your system's components by reducing thermal stress.

Compatibility with Modern Systems

The 1.2V operating voltage is compatible with modern computing systems that are designed to support low-voltage memory modules. By opting for a memory module with a lower operating voltage, such as the Hynix HMAA8GR7MJR4N-XN, you can ensure compatibility with the latest hardware and enjoy the benefits of improved energy efficiency without compromising on performance.

Stable Performance

The 1.2V operating voltage of this memory module ensures stable and reliable performance. By operating within the recommended voltage range, you can minimize the risk of voltage-related issues such as system instability or data corruption. The stable performance provided by the 1.2V voltage ensures that your system operates optimally, allowing you to focus on your tasks without worrying about potential performance fluctuations.

Rank - Dual Rank x4

Improved Memory Bandwidth

The Dual Rank x4 configuration of the Hynix HMAA8GR7MJR4N-XN Memory Module offers improved memory bandwidth, allowing for faster data transfer between the memory module and the CPU. With increased memory bandwidth, your system can handle higher volumes of data more efficiently, resulting in improved overall performance. This is particularly beneficial for memory-intensive tasks such as video editing, 3D rendering, or running virtual machines.

Optimized System Stability

The Dual Rank x4 configuration enhances system stability by distributing data across multiple ranks. This helps balance the workload and prevent bottlenecks that could lead to performance issues or system crashes. By utilizing the Dual Rank x4 configuration, your system can maintain stability even when handling demanding tasks or operating under heavy loads.

Compatibility with Dual-Channel Configurations

The Dual Rank x4 configuration is compatible with dual-channel memory configurations, allowing for increased memory performance. By installing multiple memory modules in a dual-channel configuration, you can effectively double the memory bandwidth, further improving system responsiveness and multitasking capabilities. Whether you are a professional seeking optimal performance or a power user looking to maximize your system's capabilities, the Dual Rank x4 configuration offers compatibility and performance benefits.