Capacity: 16GB
The Hynix HMT42GR7MFR4A-PB DDR3 SDRAM is a memory module that boasts an impressive capacity of 16GB. This makes it an ideal choice for users who require high-performance memory for demanding tasks such as gaming, video editing, and running multiple applications simultaneously.
Enhanced Performance
With a capacity of 16GB, this memory module allows for enhanced performance and faster data processing. It provides ample space for storing and accessing large files, which is particularly beneficial for professionals working with complex software applications or dealing with massive amounts of data.
Smooth Multitasking
One of the key benefits of having a 16GB capacity is the ability to multitask seamlessly. Users can easily switch between different applications and processes without experiencing any lag or slowdown. This is especially advantageous for power users who need to run resource-intensive software or virtual machines concurrently.
Future-Proofing
Investing in a memory module with a larger capacity like 16GB ensures future-proofing your system. As software and applications become more demanding, having sufficient memory becomes crucial to maintain optimal performance. By choosing this 16GB module, users can be confident that their system will be able to handle the requirements of future software updates or upgrades.
Improved Gaming Experience
Gamers will also benefit greatly from the 16GB capacity offered by this memory module. Modern games often require significant amounts of memory to run smoothly and provide immersive experiences. With 16GB at their disposal, gamers can enjoy higher texture resolutions, faster loading times, and smoother gameplay.
Creative Workstation
For professionals in creative fields such as graphic design, video editing, or 3D modeling, having ample memory is essential. These intensive tasks rely heavily on memory to process large files and render complex scenes. The 16GB capacity of this module ensures that creative professionals can work efficiently without encountering performance bottlenecks.
Speed: 1600MHz
The Hynix HMT42GR7MFR4A-PB DDR3 SDRAM operates at a speed of 1600MHz, making it a high-performance memory module that excels in delivering fast and efficient data processing capabilities.
Seamless Data Transfer
The 1600MHz speed of this memory module allows for seamless data transfer between the memory and the processor. It ensures that data is quickly retrieved and stored, resulting in improved system responsiveness and reduced latency. This is particularly crucial for tasks that involve frequent data access, such as gaming, multimedia editing, and database management.
Enhanced System Performance
By operating at 1600MHz, this memory module significantly enhances overall system performance. It enables faster execution of instructions and accelerates the loading times of applications and files. Users will experience smoother multitasking, quicker boot times, and reduced waiting periods when launching resource-intensive software.
Optimized Gaming Experience
For gamers, having a memory module with a high speed like 1600MHz can greatly enhance their gaming experience. The increased speed allows for faster loading of game assets, reducing the time spent on loading screens and ensuring smooth gameplay with minimal lag. Gamers can enjoy immersive worlds without interruptions, providing a competitive edge in online multiplayer games.
Efficient Content Creation
Content creators often deal with large file sizes, whether it's rendering videos, editing high-resolution images, or working with complex audio projects. The 1600MHz speed of this memory module enables creators to process these files more efficiently. Tasks that used to take hours can now be completed in a fraction of the time, enabling faster project turnaround and increased productivity.
Improved Virtualization
Virtualization technology has become increasingly popular, allowing users to run multiple virtual machines simultaneously. The 1600MHz speed of this memory module ensures that users can create and manage virtual environments without sacrificing performance. It provides the necessary bandwidth to smoothly run multiple operating systems and applications concurrently.
Rank: Dual Rank
The Hynix HMT42GR7MFR4A-PB DDR3 SDRAM features a dual rank configuration, which offers several benefits in terms of memory performance and compatibility.
Enhanced Memory Performance
Dual rank memory modules provide improved memory performance compared to single rank modules. With dual rank configuration, the memory module can access more banks simultaneously, allowing for faster data retrieval and storage. This results in enhanced overall system performance, reduced latency, and smoother multitasking capabilities.
Increased Memory Capacity
Dual rank modules also offer increased memory capacity compared to single rank modules. By utilizing both ranks, the module can store and access more data simultaneously, effectively doubling the available capacity. This is particularly beneficial for users who require large amounts of memory for resource-intensive tasks or running multiple applications concurrently.
Better System Compatibility
Dual rank memory modules are widely compatible with a variety of systems and motherboards. They offer greater flexibility in terms of compatibility and are more likely to work seamlessly with a wide range of configurations. Whether you have a high-end gaming rig or a professional workstation, the dual rank feature ensures optimal compatibility and stability.
Optimized Server Performance
Servers often require high-performance memory modules to handle heavy workloads and maintain stability under continuous operation. The dual rank configuration of this module is well-suited for server environments as it allows for efficient data processing and improved system responsiveness. It ensures that critical applications and services can run smoothly without encountering performance bottlenecks.
Seamless Virtualization
Virtualization is a common practice in server environments, allowing for efficient resource allocation and better management of server resources. The dual rank feature of this memory module enhances virtualization capabilities by providing increased memory capacity and improved performance. Users can create and manage multiple virtual machines with ease, ensuring optimal efficiency and responsiveness.
Pin: 240-Pin
The Hynix HMT42GR7MFR4A-PB DDR3 SDRAM features a 240-pin design, which is a standard pin configuration for DDR3 memory modules. This pin count plays a crucial role in ensuring compatibility and stability when installing the module into a compatible motherboard.
Universal Compatibility
The 240-pin design of this memory module ensures compatibility with a wide range of motherboards and systems that support DDR3 memory. It is a standard pin configuration widely adopted by manufacturers, making it easier for users to find compatible motherboards or upgrade their existing systems without compatibility concerns.
Easy Installation
The 240-pin design simplifies the installation process, as it provides clear alignment for the module to be inserted into the memory slots on the motherboard. Users can easily identify the correct orientation and securely install the module without the need for complex adjustments or configurations.
Stable Connection
The 240-pin design ensures a stable connection between the memory module and the motherboard. Each pin is responsible for transmitting data signals and power, maintaining a reliable connection that is essential for proper data transfer and system stability. This stable connection minimizes the risk of data corruption or system crashes, providing users with a reliable computing experience.
Flexible System Upgrades
The 240-pin design enables users to easily upgrade their system's memory capacity. As DDR3 memory modules with a 240-pin configuration are widely available, users can conveniently add or replace modules to meet their changing needs. This flexibility allows users to adapt their systems to handle new software requirements or demanding tasks without the need for a complete system overhaul.
Optimal Performance
The 240-pin design ensures optimal performance by providing a sufficient number of pins for data transmission and power delivery. This design allows for efficient communication between the memory module and the motherboard, reducing latency and ensuring fast and reliable data transfer. Users can enjoy improved system responsiveness and enhanced overall performance with this 240-pin memory module.
Registered: ECC Memory Module
The Hynix HMT42GR7MFR4A-PB DDR3 SDRAM is a registered memory module that features Error-Correcting Code (ECC) functionality. This combination of features provides enhanced reliability, stability, and error detection capabilities, making it an excellent choice for critical systems that require maximum uptime.
Enhanced Reliability
The ECC functionality of this memory module ensures enhanced reliability by detecting and correcting memory errors in real-time. It uses advanced algorithms to identify and correct single-bit errors, preventing them from causing system crashes or data corruption. This is particularly vital in critical applications where data integrity is crucial, such as financial systems or server environments.
Improved System Stability
The registered design of this memory module improves system stability by reducing electrical load on the memory bus and minimizing signal interference. By registering the address and control signals, it helps to prevent signal degradation and maintains signal integrity even in high-density memory configurations. This contributes to stable system operation, especially in environments with heavy workloads or prolonged usage.
Error Detection and Correction
The ECC functionality of this memory module allows for efficient error detection and correction. It can identify and fix both single-bit and multi-bit errors, ensuring data integrity and preventing potential issues that could lead to system instability or data loss. This is particularly important for systems that handle critical data or perform complex calculations, where even minor errors can have significant consequences.
Maximum Uptime
For systems that require maximum uptime, such as servers or mission-critical applications, the ECC functionality provided by this memory module is invaluable. By detecting and correcting errors in real-time, it helps maintain system stability and prevents unexpected crashes or downtime. This ensures uninterrupted operation and minimizes the impact of potential memory-related issues on the overall system performance.
Data Integrity
Data integrity is crucial in various fields, including scientific research, healthcare, and financial services. The ECC functionality of this memory module plays a vital role in maintaining data integrity by identifying and correcting memory errors. It provides peace of mind for users who rely on accurate and reliable data processing, ensuring that critical information remains intact throughout the computing process.