Description
High-Performance Memory for Demanding Applications
- Introduction to High-Performance Memory
- Benefits of High-Performance Memory for Demanding Applications
- Key Characteristics of High-Performance Memory
- Optimized for High-Speed Data Transfer
- Enhanced Error Correction for Improved Data Integrity
- Improved Power Efficiency for Lower Energy Costs
- Robust Design for Reliable and Durable Performance
- Enhanced Thermal Management for Reliable Operation
- Optimized for Low-Voltage Operations
- Support for Dual and Quad Channel Memory Configurations
- Enhanced Signal Integrity for Reliable Data Transfer
- Improved Memory Reliability and Data Integrity
- Support for Industry-Standard Memory Technologies
- Comparison with Conventional Memory Solutions
- Choosing the Right High-Performance Memory for Your Needs.
Memory Capacity and Configuration Options
- Introduction to Memory Capacity and Configuration Options
- Understanding Memory Capacity
- Selecting the Right Capacity for Your Needs
- Memory Configuration Options: Single, Dual, Quad Channel
- Advantages of Dual and Quad Channel Memory Configurations
- Impact of Memory Configuration on System Performance
- Factors to Consider When Choosing a Memory Configuration
- Maximum Memory Support for Your System
- Compatibility with Motherboards and Other System Components
- Mixing Memory Modules for Optimal Performance
- Upgrading Your Memory Configuration
- Limitations of Memory Capacity and Configuration Options
- Trade-Offs Between Capacity and Performance
- Balancing Memory Capacity and Cost
- Best Practices for Memory Capacity and Configuration Planning.
Advanced Error Correction for Improved Data Integrity
- Introduction to Error Correction in Memory Modules
- Advanced Error Correction Technologies
- Improved Data Integrity through Error Correction
- Understanding Error Correction Codes (ECC)
- Advantages of ECC for High-Performance Systems
- Limitations of ECC Technology
- How ECC Corrects Memory Errors
- Benefits of ECC for Critical Applications
- ECC Memory and Data Loss Prevention
- Impact of ECC on Memory Performance
- Comparison of Non-ECC and ECC Memory
- Choosing the Right Memory for Your Needs: ECC vs Non-ECC
- Implementing ECC Memory in Your System
- Technical Considerations for ECC Memory
- Future Trends in Advanced Error Correction for Memory.
General Information about this Micron MTA36ASF8G72PZ-2G9B1R
- Brand Name: Micron
- Model Number or SKU# MTA36ASF8G72PZ-2G9B1R
- Type: Memory (RAM)
- RAM Type: Pc4-23400
- Product Name: 64GB DDR4 SDRAM Memory Module
Technical Information of 64GB DDR4 SDRAM Memory
- Capacity: 64GB
- Memory Technology: DDR4 SDRAM
- Number of Modules: 1 X 64 GB
- Speed: 2933 MHz Ddr4 Pc4-23400
- Data Integrity Check: Ecc
- Signal Processing: Registered
- 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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