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.
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
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
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
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.
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
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?
How does XPC15ATH compare to other thermal interface materials?
What are the typical applications of XPC15ATH?
Is XPC15ATH electrically insulating?
Can XPC15ATH withstand high temperatures?
How should XPC15ATH be applied in technical solutions?
Does XPC15ATH require any special handling during application?
What are the benefits of using XPC15ATH in technical solutions?
Are there any considerations for compatibility with different materials when using XPC15ATH?
Where can XPC15ATH be sourced for use in technical solutions?