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|Data Integrity Check||ECC|
|Memory Technology||DDR3 SDRAM|
|Number of Modules||1x16GB|
ECC, which stands for Error-Correcting Code, refers to a type of memory module that incorporates advanced error-checking and error-correction capabilities. ECC memory goes beyond standard non-ECC memory by providing additional measures to ensure data integrity.
The primary purpose of ECC memory is to detect and correct certain types of data errors that may occur during the operation of a computer system. It achieves this by adding extra bits, known as parity or checksum bits, to each memory word stored in the module.
These extra bits enable the ECC mechanism to identify and automatically correct single-bit errors. If a single bit is flipped or corrupted, the ECC memory can detect the error and rectify it, preventing potential data corruption and maintaining accurate information storage.
ECC memory is particularly prevalent in critical computing systems, such as servers and workstations, as well as in environments where data integrity is paramount, such as scientific or financial applications. By providing an additional layer of error detection and correction, ECC memory significantly reduces the risk of undetected errors that could lead to system crashes, data corruption, or inaccurate calculations.
It's important to note that the utilization of ECC memory requires support from both the motherboard and the memory controller in the system. Not all systems or consumer-grade motherboards offer compatibility with ECC memory, so it's crucial to verify the specifications and requirements before incorporating ECC memory modules into a specific system.
When memory is referred to as RDIMM, it means that it belongs to the category of Registered Dual In-Line Memory Modules. RDIMMs offer specific advantages and features compared to other memory module types.
RDIMMs incorporate a register or buffer component between the memory chips and the memory controller. This register helps to enhance signal integrity and reduce electrical load on the memory bus. By using the register, RDIMMs can support a larger number of memory modules on a single memory channel compared to unbuffered memory modules (UDIMMs).
The primary benefit of RDIMMs is their ability to support larger memory capacities, making them ideal for memory-intensive applications and server environments. The register within RDIMMs helps to control and stabilize signals, allowing for greater memory density and improved system performance.
However, it's important to note that RDIMMs may introduce a slight increase in memory latency due to the buffering process. This additional latency is often outweighed by the advantages of increased memory capacity and improved signal integrity, particularly in enterprise-level environments where stability and reliability are critical.
To utilize RDIMMs, it is necessary to ensure compatibility with the system's memory controller and motherboard, as they must specifically support registered memory technology. Consulting the system documentation or manufacturer's guidelines is recommended to verify compatibility.
Overall, RDIMMs provide a reliable and efficient solution for applications requiring high memory capacities, improved signal integrity, and robust performance. They are commonly used in server environments, virtualization platforms, and other memory-demanding scenarios.
If memory runs at 1.35V, it means that the memory module operates at a voltage of 1.35 volts. The voltage specification is a crucial factor in determining the power requirements and compatibility of the memory with the system.
Memory modules with a voltage rating of 1.35V are often referred to as Low Voltage (LV) or Low Voltage DDR3L (DDR3L being the DDR3 Low Voltage standard). These modules operate at a lower voltage compared to the standard DDR3 modules, which typically run at 1.5V. The reduced voltage helps in achieving lower power consumption and heat generation, making them more energy-efficient and suitable for systems that prioritize power savings.
The introduction of 1.35V memory modules, particularly the DDR3L standard, was driven by the need for more power-efficient computing solutions. It aimed to meet the increasing demand for reduced power consumption, longer battery life in mobile devices, and more environmentally friendly computing practices.
The release of 1.35V memory modules, including DDR3L, was the result of collaborative efforts by memory manufacturers, such as major industry players like Micron, Samsung, and Hynix. These manufacturers recognized the growing importance of energy efficiency and developed memory modules to align with industry trends and consumer demands.
1.35V memory modules gained prominence with the rising popularity of mobile computing devices, laptops, and small form factor systems where power efficiency and longer battery life were crucial considerations. They also found their use in low-power servers and other energy-conscious computing environments.
It's important to note that compatibility with the system's memory controller and motherboard is crucial when using 1.35V memory modules. The system's hardware should be designed to support and operate at the lower voltage to ensure proper functionality.
Overall, 1.35V memory modules represent a more power-efficient option, offering reduced power consumption and heat generation compared to standard voltage modules. The introduction of these modules was driven by the industry's focus on energy efficiency and the need for more environmentally conscious computing solutions.
When referring to server RAM, the term "2Rx4" pertains to a specific configuration and organization of memory modules. Let's delve into the meaning of each element:
The advent of the 2Rx4 memory configuration took place around the early 2000s and marked a significant technological advancement. It introduced increased memory capacity and enhanced performance in server environments. Prior to this configuration, memory modules typically possessed a single rank (1R) and were organized with an x8 (8-bit) or x16 (16-bit) data width.
The introduction of 2Rx4 modules held importance as it offered improved memory density through multiple ranks and a 4-bit data width. Consequently, memory capacity on a single module was expanded, and memory bandwidth was enhanced—an essential factor for demanding server applications. By employing 2Rx4 memory modules, servers could effectively handle larger datasets and execute tasks more efficiently, resulting in overall system performance improvements.
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