HMT84GL7BMR4A-H9 Hynix 32GB 1x32GB PC3-10600R 1333mhz Registered Ecc 1.35v Quad Rank X4 Ecc Cl9 DDR3 Sdram 240-PIN Lrdimm Memory Module

Capacity: 32GB

The Hynix HMT84GL7BMR4A-H9 DDR3 SDRAM is a high-capacity memory module with a capacity of 32GB. This large capacity makes it ideal for users who require a significant amount of memory for their computing needs.

Benefits of 32GB Capacity

The 32GB capacity of this memory module provides several benefits to users:

1. Enhanced Performance:

With a larger capacity, the Hynix HMT84GL7BMR4A-H9 DDR3 SDRAM allows for faster and more efficient multitasking. Users can run multiple applications simultaneously without experiencing any slowdowns or performance issues.

2. Improved System Responsiveness:

The increased capacity allows for better system responsiveness, reducing the time it takes to load and run applications. Users can enjoy a smoother and more seamless computing experience, with reduced lag and delays.

3. Future-Proofing:

As technology advances and software becomes more demanding, having a higher capacity memory module ensures that your system is ready to handle future updates and upgrades. With 32GB of memory, you can be confident that your system will remain compatible with the latest software and operating systems.

4. High-Performance Computing:

The 32GB capacity is particularly beneficial for users who engage in resource-intensive tasks such as video editing, 3D rendering, and virtualization. These tasks require a significant amount of memory to ensure smooth and efficient operations.

Importance of 32GB Capacity

The importance of the 32GB capacity cannot be overstated for certain user groups:

1. Professionals and Creatives:

Professionals in fields such as graphic design, architecture, and engineering often work with large files and complex software. The 32GB capacity allows them to work on these projects without any memory-related limitations, ensuring optimal productivity.

2. Gamers:

Gaming enthusiasts can also benefit from the 32GB capacity. Many modern games require a significant amount of memory for smooth gameplay and to prevent stuttering or freezing. With 32GB, gamers can enjoy a seamless gaming experience without any performance hiccups.

3. Virtualization:

For users who rely on virtualization software to run multiple operating systems simultaneously, a higher capacity memory module is essential. The 32GB capacity ensures that there is enough memory available to allocate to each virtual machine, enabling efficient and smooth virtualization.

4. Multimedia Professionals:

Those working with multimedia applications such as video editing software or music production software can benefit greatly from the 32GB capacity. These applications often require a large amount of memory to process and manipulate high-resolution files efficiently.

Speed: 1333MHz

The Hynix HMT84GL7BMR4A-H9 DDR3 SDRAM features a speed of 1333MHz. This speed rating determines how quickly the memory module can transfer data and is an important consideration for users seeking optimal performance.

Benefits of 1333MHz Speed

The 1333MHz speed of this memory module offers several benefits to users:

1. Faster Data Transfer:

A higher speed rating allows for faster data transfer between the memory module and the processor. This results in quicker access to data and improved overall system performance.

2. Enhanced Multitasking:

The increased speed enables users to run multiple applications simultaneously with minimal impact on performance. This is particularly beneficial for users who engage in multitasking activities such as running virtual machines, editing videos, or working with large datasets.

3. Improved Gaming Experience:

Gamers can greatly benefit from the 1333MHz speed as it allows for faster loading times and smoother gameplay. Games can access data from memory more quickly, reducing lag and providing a more immersive gaming experience.

4. Efficient Resource Allocation:

The higher speed rating enables more efficient allocation of system resources. Applications and processes can access the required data from memory faster, reducing bottlenecks and ensuring optimal performance across the system.

Importance of 1333MHz Speed

The importance of the 1333MHz speed becomes evident in various scenarios:

1. Resource-Intensive Applications:

Users who work with resource-intensive applications such as video editing software, 3D rendering programs, or scientific simulations will benefit from the faster data transfer speed. These applications require quick access to large amounts of data, and a higher speed rating ensures smooth and efficient operations.

2. Gaming Enthusiasts:

Gamers demand high-performance hardware to achieve optimal gaming experiences. The 1333MHz speed allows for faster loading times, reduced lag, and improved gameplay fluidity. Gamers can enjoy their favorite titles without any performance-related setbacks.

3. Power Users:

Power users who engage in heavy multitasking or run virtual machines will appreciate the 1333MHz speed. It ensures that the system can handle the demands of multiple applications simultaneously, providing a seamless and responsive computing experience.

4. Professionals:

Professionals working with large datasets or complex software rely on efficient data transfer to maximize their productivity. The 1333MHz speed ensures that data can be accessed and processed quickly, significantly improving workflow efficiency.

Registered: 1

The Hynix HMT84GL7BMR4A-H9 DDR3 SDRAM has a registered design with a registered clock driver. This feature provides stability and reliability to the memory module, making it suitable for various computing environments.

Benefits of Registered Design

The registered design of this memory module offers several benefits:

1. Enhanced Stability:

The registered design adds an additional buffer between the memory module and the memory controller, improving stability. It helps to minimize signal timing issues and reduces the chance of data corruption or errors, ensuring reliable performance.

2. Increased Compatibility:

The registered design improves compatibility with a wide range of motherboards and system configurations. It allows for better signal integrity and reduces the chances of compatibility issues that may arise with certain systems.

3. Improved System Reliability:

The registered clock driver helps to reduce signal noise and jitter, resulting in improved system reliability. This feature is particularly important in critical computing environments where system downtime can have significant consequences.

4. Scalability:

The registered design allows for better scalability in memory-intensive applications. It enables the use of higher-capacity modules and supports larger memory configurations, making it suitable for servers or workstations that require extensive memory resources.

Importance of Registered Design

The importance of the registered design is evident in various user scenarios:

1. Server Environments:

In server environments, stability and reliability are critical. The registered design ensures that the memory module can handle the demands of server workloads, reducing the risk of system crashes and data corruption.

2. Workstations and High-Performance Computing:

Workstations and high-performance computing systems often require large amounts of memory to handle resource-intensive tasks. The registered design enhances stability and compatibility, making it a suitable choice for these demanding environments.

3. Mission-Critical Applications:

Mission-critical applications in sectors such as finance, healthcare, or aerospace require reliable and stable memory modules. The registered design helps to ensure uninterrupted operations and data integrity, minimizing the risk of errors or system failures.

4. Virtualization:

Users who rely on virtualization technologies can benefit from the registered design. It allows for better scalability and compatibility, making it easier to allocate resources among multiple virtual machines while maintaining stability and performance.

ECC: 1

The Hynix HMT84GL7BMR4A-H9 DDR3 SDRAM features Error Correction Code (ECC) support. This feature is designed to detect and correct memory errors, providing enhanced reliability for critical computing environments.

Benefits of ECC Support

The ECC support in this memory module offers several benefits:

1. Error Detection and Correction:

The ECC feature detects and corrects single-bit errors that may occur during data transmission or storage. By identifying and fixing these errors automatically, it helps to maintain data integrity and prevent system crashes or data corruption.

2. Improved System Reliability:

ECC support enhances system reliability by reducing the likelihood of memory-related errors. This is particularly important in critical computing environments where data accuracy and system uptime are paramount.

3. Scalability:

The ECC feature allows for better scalability in memory-intensive applications. It enables the use of higher-capacity modules and supports larger memory configurations, making it suitable for servers or workstations that require extensive memory resources.

4. Data Integrity:

ECC support ensures that the data stored in memory remains accurate and consistent. It is particularly beneficial for applications that handle sensitive or critical data, such as financial systems or healthcare databases.

Importance of ECC Support

The importance of ECC support becomes evident in various user scenarios:

1. Server Environments:

In server environments, data integrity is crucial. The ECC feature helps to detect and correct errors, ensuring that the data processed and stored in memory remains accurate. This is especially important for servers handling sensitive information or running mission-critical applications.

2. Workstations and High-Performance Computing:

Workstations and high-performance computing systems often handle complex calculations and large datasets. The ECC support reduces the risk of errors during these intensive operations, maintaining accuracy and avoiding potential system crashes or data corruption.

3. Financial Institutions:

Financial institutions deal with vast amounts of sensitive data, such as customer records and transaction details. The ECC feature helps to ensure the integrity of this data, minimizing the risk of errors that could lead to financial losses or regulatory compliance issues.

4. Healthcare Systems:

In healthcare systems, accuracy and reliability are vital for patient data and medical records. The ECC support helps to maintain data integrity, ensuring that critical medical information remains accurate and accessible when needed.

Voltage: 1.35V

The Hynix HMT84GL7BMR4A-H9 DDR3 SDRAM operates at a voltage of 1.35V. This low voltage requirement offers several benefits in terms of power efficiency and heat management.

Benefits of 1.35V Voltage

The 1.35V voltage requirement of this memory module provides several advantages:

1. Power Efficiency:

A lower voltage requirement translates into lower power consumption. This contributes to overall power efficiency, reducing energy costs and minimizing environmental impact. It is particularly beneficial for systems that require multiple memory modules.

2. Heat Reduction:

The lower voltage requirement helps to reduce heat generation during memory operations. This contributes to better heat management within the system, ensuring stable performance and prolonging the lifespan of the memory module.

3. Overclocking Potential:

The 1.35V voltage requirement makes this memory module suitable for overclocking enthusiasts. It allows for more headroom in terms of increasing the voltage for higher performance, while still operating within safe limits.

4. Compatibility:

The 1.35V voltage requirement ensures compatibility with a wide range of systems and motherboards that support low-voltage DDR3 memory modules. It makes it easier to find compatible systems or upgrade existing ones without compatibility concerns.

Importance of 1.35V Voltage

The importance of the 1.35V voltage requirement is evident in various user scenarios:

1. Energy-Efficient Systems:

Users who prioritize energy efficiency and want to reduce their carbon footprint will appreciate the 1.35V voltage requirement. It allows for lower power consumption, contributing to a more environmentally friendly computing setup.

2. Small Form Factor Systems:

Small form factor systems, such as mini PCs or compact laptops, often have limited space for cooling. The lower voltage requirement helps to minimize heat generation, making it easier to manage temperatures in these constrained environments.

3. Overclocking Enthusiasts:

Overclocking enthusiasts looking to push their systems to the limit can benefit from the 1.35V voltage requirement. It provides more headroom for increasing the voltage, allowing for higher performance without compromising stability.

4. Memory Compatibility:

The 1.35V voltage requirement ensures compatibility with a wide range of systems and motherboards. Users can easily find compatible systems or upgrade existing ones without worrying about compatibility issues related to voltage requirements.

Rank: Quad Rank

The Hynix HMT84GL7BMR4A-H9 DDR3 SDRAM has a quad rank configuration. This rank configuration provides increased memory density and capacity, making it suitable for memory-intensive applications and systems.

Benefits of Quad Rank Configuration

The quad rank configuration of this memory module offers several benefits:

1. Increased Memory Density:

The quad rank configuration allows for higher memory density within a single module. This means that more memory cells can be packed into the same physical space, resulting in increased capacity without the need for additional modules.

2. Enhanced Memory Capacity:

The quad rank configuration enables larger memory capacities within a single module. This is particularly beneficial for servers or workstations that require extensive memory resources to handle memory-intensive tasks.

3. Improved Performance:

The increased memory density and capacity provided by the quad rank configuration can lead to improved system performance. It allows for more data to be stored and accessed within the memory module, reducing the need for frequent data transfers to external storage devices.

4. Cost Efficiency:

The quad rank configuration offers cost efficiency by maximizing the memory capacity within a single module. This reduces the need for additional modules, resulting in potential cost savings for users who require large amounts of memory.

Importance of Quad Rank Configuration

The importance of the quad rank configuration becomes evident in various user scenarios:

1. Server Environments:

In server environments, where memory-intensive applications are common, the quad rank configuration helps to maximize memory capacity without occupying additional slots. This is particularly important in space-constrained server setups.

2. Virtualization and Consolidation:

Users who rely on virtualization technologies or consolidation strategies can benefit from the quad rank configuration. It allows for larger memory capacities within a single module, enabling efficient resource allocation among multiple virtual machines or applications.

3. Large Datasets and Complex Calculations:

Users working with large datasets or engaging in complex calculations can benefit from the higher memory capacity provided by the quad rank configuration. It ensures that there is enough memory available to process and store the required data efficiently.

4. Future-Proofing:

As software and applications become more demanding, having a higher memory capacity becomes increasingly important. The quad rank configuration future-proofs your system by providing ample memory resources for upcoming software updates or upgrades.

Error Correction Code: ECC

The Hynix HMT84GL7BMR4A-H9 DDR3 SDRAM features Error Correction Code