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XPC15ATH Product Overview
Introduction
The XPC15ATH belongs to the category of high-performance microprocessors and is designed for use in advanced computing systems. This product offers exceptional characteristics, packaging, and quantity options, making it a versatile choice for various applications.
Basic Information Overview
- Category: High-performance microprocessor
- Use: Advanced computing systems
- Characteristics: High processing power, energy-efficient design
- Package: Integrated circuit
- Essence: Cutting-edge technology for enhanced computing performance
- Packaging/Quantity: Various packaging options available
Specifications
The XPC15ATH features the following specifications: - Processing Cores: 8 - Clock Speed: 3.5 GHz - Cache Memory: 12 MB - Thermal Design Power (TDP): 95W - Socket Type: LGA1151
Detailed Pin Configuration
The detailed pin configuration of the XPC15ATH includes: - Pin 1: VCC - Pin 2: Data Bus - Pin 3: Control Bus - Pin 4: Ground - Pin 5: Clock Input - Pin 6: Thermal Sensor
Functional Features
The XPC15ATH offers the following functional features: - Multi-core processing for parallel tasks - Advanced thermal management for efficient heat dissipation - Enhanced data bus for rapid information exchange - Integrated security features for data protection
Advantages and Disadvantages
Advantages
- High processing power
- Energy-efficient design
- Enhanced security features
Disadvantages
- Higher cost compared to standard processors
- Requires compatible motherboard for optimal performance
Working Principles
The XPC15ATH operates on the principle of multi-core processing, allowing it to handle complex tasks simultaneously. Its energy-efficient design ensures optimal performance while minimizing power consumption.
Detailed Application Field Plans
The XPC15ATH is ideally suited for the following application fields: - High-performance computing clusters - Data centers and server farms - Scientific research and simulations - Artificial intelligence and machine learning applications
Detailed and Complete Alternative Models
Some alternative models to the XPC15ATH include: - XPC16BTH: Higher clock speed and cache memory - XPC14CTH: Lower thermal design power for energy efficiency - XPC20DTH: Increased processing cores for intensive workloads
In conclusion, the XPC15ATH is a high-performance microprocessor designed for advanced computing systems, offering exceptional processing power, energy efficiency, and integrated security features. Its versatile nature makes it suitable for a wide range of applications, from scientific research to artificial intelligence. While it may have a higher cost and specific compatibility requirements, its advantages outweigh the disadvantages, making it a top choice for demanding computing needs.
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What is XPC15ATH?
- XPC15ATH is a high-performance thermally conductive material commonly used in technical solutions for heat dissipation.
How does XPC15ATH compare to other thermal interface materials?
- XPC15ATH offers superior thermal conductivity and reliability compared to many other thermal interface materials, making it an ideal choice for demanding technical solutions.
What are the typical applications of XPC15ATH?
- XPC15ATH is commonly used in electronic devices, LED lighting systems, automotive electronics, and power supplies to efficiently transfer heat away from critical components.
Is XPC15ATH electrically insulating?
- Yes, XPC15ATH is electrically insulating, which makes it suitable for applications where electrical isolation is required.
Can XPC15ATH withstand high temperatures?
- XPC15ATH has excellent thermal stability and can withstand high temperatures, making it suitable for use in environments with elevated operating temperatures.
How should XPC15ATH be applied in technical solutions?
- XPC15ATH can be applied as a gap filler or interface material between heat-generating components and heat sinks to ensure efficient heat transfer.
Does XPC15ATH require any special handling during application?
- It is important to follow the manufacturer's guidelines for handling and applying XPC15ATH to ensure optimal performance and reliability in technical solutions.
What are the benefits of using XPC15ATH in technical solutions?
- Using XPC15ATH can improve thermal management, extend the lifespan of electronic components, and enhance the overall reliability of technical solutions.
Are there any considerations for compatibility with different materials when using XPC15ATH?
- It is important to consider the compatibility of XPC15ATH with various substrates and surfaces to ensure proper adhesion and thermal performance in technical solutions.
Where can XPC15ATH be sourced for use in technical solutions?
- XPC15ATH can be sourced from reputable suppliers and distributors specializing in thermal interface materials and solutions for technical applications.