Description
Advanced Error Correction for Improved Data Integrity
Advanced Error Correction (AEC) is a feature used in memory modules to improve the accuracy and integrity of the data being stored and processed. AEC uses redundant data codes to detect and correct errors that occur during data transmission or storage. This results in improved data reliability, preventing data corruption and loss. AEC is particularly important in high-performance computing and data center applications, where data accuracy and integrity are critical. It is important to note that AEC requires additional memory resources, which can impact overall performance and reduce the effective memory capacity available for storage and processing. However, the benefits of AEC in terms of data reliability often outweigh the performance trade-off for many demanding applications.
Memory Speed and Timing Characteristics
Memory Speed and Timing Characteristics refer to the performance specifications of a memory module. These specifications include the clock speed at which the memory operates, measured in MHz, and the timing parameters, measured in nanoseconds (ns), that determine the delay between when a memory request is made and when data is actually delivered. The speed and timing of a memory module can significantly impact system performance and are critical factors to consider when choosing a memory solution. For example, a higher clock speed results in faster data access, while lower timing parameters result in more efficient use of memory resources. The speed and timing of a DDR4 memory module, such as the Micron MTA36ASF8G72PZ-2G9E1R, will be specified in its datasheet and should be chosen based on the requirements of the system it will be used in.
Advanced Manufacturing Processes for Improved Reliability
Advanced manufacturing processes for improved reliability refer to the techniques and practices used in the production of memory modules to ensure their consistent performance and longevity. These processes may include thorough testing and screening, quality control measures, and the use of premium materials and components. By utilizing advanced manufacturing processes, manufacturers aim to minimize the risk of defects, failures, and other issues that could impact the performance and reliability of memory modules over time. This, in turn, helps to ensure that customers receive a high-quality product that is designed to deliver dependable performance for demanding applications.
Improved Performance through Enhanced Timing
Improved performance through enhanced timing refers to the ability to increase the speed at which data can be processed by a memory module by making adjustments to its timing parameters. These timing parameters control the rate at which data is sent to and received from the memory module, and by optimizing them, the overall performance of the system can be improved. This can be achieved by reducing the latency of the memory accesses and increasing the memory bandwidth. Enhancing the timing of a memory module can result in faster application execution, improved system responsiveness, and increased overall performance, especially in demanding applications that require a large amount of memory accesses.
General Information for this Micron MTA36ASF8G72PZ-2G9E1R
- Brand Name: Micron
- Model Number or SKU# MTA36ASF8G72PZ-2G9E1R
- Type: Memory (RAM)
- RAM Type: Pc4-23400
- Product Name: 64GB DDR4 SDRAM Memory Module
Specifications of 64GB DDR4 SDRAM Memory
- Capacity: 64 GB
- Memory Technology: DDR4 SDRAM
- Number of Modules: 1 X 64 GB
- Speed: 3200 MHz Ddr4 Pc4-23400
- Data Integrity Check: Ecc
- Signal Processing: Registered
- Cas Latency Timings: Cl21
- Rank Features: 2rx4
Physical Characteristics Ddr4 Pc4-23400 Ram
- Dimensions (W X D X H): 8.89 X 19.81 X 1.91 Cm (3.5 X 7.8 X 0.75 In)
- Weight: 0.45 Kg (1 LB)
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