Description
Product Overview of the KTH-XW9400K2/16G Kingston
In the realm of computer memory, the Kingston KTH-XW9400K2/16G emerges as a stalwart, offering an impressive 16 Gigabytes (GB) of memory in a compact 2x8GB configuration. Operating at 667 Megahertz (MHz), this DDR2 memory module caters specifically to server environments, ensuring optimal performance with its Fully Buffered Error Correction Code (ECC) Registered Synchronous Dynamic Random Access Memory (SDRAM) technology. In this comprehensive exploration, we delve into the intricate details of the Kingston KTH-XW9400K2/16G, understanding its specifications, significance, and the role it plays in enhancing server capabilities.
Unpacking the Terminology
Let’s break down the nomenclature to better comprehend the features embedded in the Kingston KTH-XW9400K2/16G.
Capacity 16 Gigabytes (GB)
The 16GB capacity of this memory module signifies a substantial reservoir for data storage and retrieval. In server environments, where data processing demands are high, having a capacious memory module becomes imperative.
Speed 667 Megahertz (MHz)
Operating at a speed of 667MHz, the Kingston KTH-XW9400K2/16G offers a balance between performance and stability. The MHz rating denotes the module’s ability to transfer data within a specified time frame, influencing the overall speed of the server.
Type DDR2 (Double Data Rate 2)
Being a DDR2 module implies that the data transfer rate is doubled in comparison to the base clock frequency. This enhancement in data transfer efficiency contributes to improved overall system performance.
Form Factor 240-Pin DIMM
The 240-pin DIMM (Dual Inline Memory Module) form factor ensures compatibility with a variety of systems, making the Kingston KTH-XW9400K2/16G a versatile choice for different server configurations.
Rank Dual Rank
With dual-rank architecture, the memory module can manage a higher density of data, a crucial aspect in server environments where multitasking and simultaneous data processing are commonplace.
ECC (Error Correction Code)
Error Correction Code is a critical feature in server memory modules. ECC functionality enables the module to detect and correct errors in real time, ensuring data integrity and preventing potential system crashes.
Registered Synchronous Dynamic Random Access Memory (SDRAM)
Being registered SDRAM means that the memory module uses a register to significantly reduce electrical load and improve stability. In server environments, stability is paramount for uninterrupted operations.
Purposeful Design for Server EnvironmentsCompatibility with PC2-5300 Standard
The Kingston KTH-XW9400K2/16G adheres to the PC2-5300 standard, ensuring seamless integration with systems designed to accommodate this specification. This standardized approach enhances interoperability and simplifies the upgrade process for server administrators.
Tailored for Server Applications
Designed specifically for server applications, this memory module is engineered to meet the rigorous demands of data centers, ensuring reliable performance under heavy workloads. Whether it’s handling complex computations, managing multiple virtual machines, or facilitating data-intensive applications, the Kingston KTH-XW9400K2/16G proves its mettle.
Fully Buffered Architecture
The term “Fully Buffered” refers to the use of an advanced buffering system that enables the module to handle large amounts of data efficiently. This architecture is particularly beneficial in server environments where data throughput is a critical factor.
The Role of DDR2 TechnologyEvolution from DDR1 to DDR2
The transition from DDR1 to DDR2 represents a significant leap in-memory technology. DDR2 modules offer improved data transfer rates, reduced power consumption, and enhanced overall efficiency compared to their predecessors. In server environments, these advancements translate into better performance and responsiveness.
Double Data Rate Advantages
The Double Data Rate (DDR) technology incorporated in DDR2 allows for data to be transferred on both the rising and falling edges of the clock signal. This results in a substantial increase in data transfer rates, contributing to faster and more responsive server operations.
DDR2’s Place in Modern Computing
While newer DDR standards have since emerged, DDR2 memory modules still find relevance in certain environments, especially in legacy systems and applications where compatibility with older hardware is a key consideration. The Kingston KTH-XW9400K2/16G caters to this niche by providing a balance between performance and compatibility.
Error Correction for Unwavering ReliabilityThe Significance of ECC
In server environments, where data accuracy is non-negotiable, Error Correction Code (ECC) plays a pivotal role. ECC ensures that any errors occurring during data storage or retrieval are detected and corrected in real-time, preventing potential data corruption that could lead to system instability or crashes.
Real-Time Error Detection and Correction
The Kingston KTH-XW9400K2/16G’s ECC capability goes beyond mere error detection; it actively corrects errors on the fly. This proactive approach to data integrity safeguards the server’s stability, making it a reliable choice for mission-critical applications.
Registering Stability with Registered SDRAMUnderstanding Registered SDRAM
Registered Synchronous Dynamic Random Access Memory (SDRAM) involves the use of a register to buffer memory addresses. This register reduces the electrical load on the memory controller, allowing for greater stability, especially in systems with a large number of memory modules.
Stability in Multitasking Environments
Servers often engage in multitasking, handling numerous requests simultaneously. The registered SDRAM in the Kingston KTH-XW9400K2/16G ensures that the memory subsystem remains stable even under heavy multitasking loads, preventing performance degradation and system crashes.
Details Information
- The Kingston KTH-XW9400K2/16G is a 16GB memory module that uses DDR2 SDRAM technology and operates at a speed of 667MHz. It also features an Error Correction Code (ECC) and is registered (Reg). The module also uses the PC2-5300 standard, which is a measure of the memory’s transfer rate in megabytes per second. It also has 240-pin RAM, which is the standard for DDR2 memory.
- ECC memory is a type of memory that can detect and correct errors in data, which can help to improve reliability and prevent data corruption. Registered memory is designed to work with servers and other systems that have more than one memory module. It buffers the address and command signals, which can help to improve system stability and reliability.
- DDR2 SDRAM technology is an older generation of memory technology, it’s not as fast or efficient as DDR4, but it’s still used in some older systems. The 667MHz is considered to be a lower speed for DDR2 memory, and the PC2-5300 standard is not as fast as the latest standards for DDR2 memory.
- This memory module is suitable for use in older systems that require ECC and registered memory and support DDR2 technology. However, It’s not recommended to use this memory module in newer systems as they may not be compatible with DDR2 memory and newer memory technologies may provide better performance.
High Performance
- The performance of the Kingston KTH-XW9400K2/16G DDR2 Ecc SDRAM Reg Ram would be considered lower than the current generation of memory technology such as DDR4. DDR2 SDRAM technology is an older generation of memory technology, it operates at a lower speed of 667MHz and uses the PC2-5300 standard which is not as fast as the latest standards for DDR4 memory.
- The module also features an Error Correction Code (ECC) and is registered (Reg). ECC memory is a type of memory that can detect and correct errors in data, which can help to improve reliability and prevent data corruption. Registered memory is designed to work with servers and other systems that have more than one memory module. It buffers the address and command signals, which can help to improve system stability and reliability.
- It’s important to note that this memory module is suitable for use in older systems that require ECC and registered memory and support DDR2 technology. However, it may not provide the same level of performance as newer memory technologies.
Registered Memory
- Registered memory, also known as buffered memory, is a type of memory that is designed to work with servers and other systems that have more than one memory module. It buffers the address and command signals, which can help to improve system stability and reliability.
- The Kingston KTH-XW9400K2/16G is a 16GB memory module that uses DDR2 SDRAM technology, operates at a speed of 667MHz, and uses the PC2-5300 standard, which is a measure of the memory’s transfer rate in megabytes per second. It also has 240-pin RAM, which is the standard for DDR2 memory.
- This memory module is registered, which means it’s designed to work with servers and other systems that have multiple memory modules. It’s suitable for use in older systems that support DDR2 technology and have multiple memory modules. However, it may not provide the same level of performance as newer memory technologies.
- It’s important to check the system’s or motherboard’s manual or consult the manufacturer’s website for more information about compatibility and specific requirements before purchasing this memory module.
General InformationBrand Name: Kingston
MPN: KTH-XW9400K2/16G
Type: Memory (RAM)
RAM Type: PC2-5300
Technical InformationStorage Capacity (16GB)
- This refers to the amount of data the memory module can store. In this case, it’s 16 gigabytes, providing ample space for storing and accessing information.
Memory Technology (DDR2 SDRAM)
- DDR2 SDRAM stands for Double Data Rate 2 Synchronous Dynamic Random-Access Memory. This technology enhances data transfer rates for improved performance compared to its predecessor.
Number of Modules (2 x 8GB)
- The memory is divided into two modules, each having a capacity of 8GB. This dual-module setup can enhance overall system efficiency.
Memory Speed (667MHz DDR2-667/PC2-5300)
- The memory speed, measured in megahertz (MHz), indicates how quickly data can be read or written. In this case, it operates at 667MHz, also known as DDR2-667 or PC2-5300.
Data Integrity Check (ECC Chipkill)
- ECC (Error-Correcting Code) Chipkill is a feature that helps detect and correct errors in data, ensuring the accuracy and reliability of stored information.
Signal Processing (Registered)
- Registered signal processing enhances stability by registering commands before they are executed, reducing the possibility of errors and improving overall system reliability.
RAM Features (Fully Buffered)
- Fully Buffered RAM architecture enhances memory reliability and speed by using a buffering system that reduces the load on the memory controller.
Form Factor (240-Pin DIMM)
- The form factor refers to the physical dimensions and layout of the memory module. A 240-pin DIMM (Dual Inline Memory Module) is a standard design for compatibility with various systems.
Outline, the Kingston KTH-XW9400K2/16G emerges as a formidable contender in the realm of server memory modules. Its 16GB capacity, DDR2 technology, ECC capability, and registered SDRAM architecture collectively contribute to a reliable and high-performance solution for server environments. As technology continues to evolve, the Kingston KTH-XW9400K2/16G stands as a testament to the enduring relevance of DDR2 memory in specific computing scenarios. For servers requiring a blend of capacity, speed, and stability, this memory module proves to be a strategic choice, ensuring that data-intensive applications and multitasking scenarios are handled with utmost efficiency and reliability.
