Intel Core i7-4930MX Processor, 4 Cores, 8 Threads, 3.0 GHz (3.9 GHz Turbo), PGA946, 8MB Cache - Laptop CPU
Intel Core i7-4930MX Processor, 4 Cores, 8 Threads, 3.0 GHz (3.9 GHz Turbo), PGA946, 8MB Cache - Laptop CPU
Precio habitual
$69.89 USD
Precio habitual
$87.36 USD
Precio de oferta
$69.89 USD
Precio unitario
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por
Product Description: The Intel Core i7-4930MX is a high-performance mobile processor built to handle intensive tasks with ease. With 4 cores and 8 threads, it runs at a base frequency of 3.0 GHz, which can be boosted up to 3.9 GHz using Turbo Boost technology. Designed for laptops using the PGA946 socket, this CPU offers excellent multi-core performance, making it perfect for gaming, content creation, and demanding computational tasks.
Condition: This processor is 90% new and has been thoroughly tested for performance and reliability before shipping.
Key Features:
- Cores/Threads: 4 cores and 8 threads, providing powerful multi-tasking capabilities.
- Base/Turbo Clock: 3.0 GHz base frequency, with up to 3.9 GHz Turbo Boost for enhanced performance.
- Cache: 8MB cache for quick access to frequently used data.
- Socket: PGA946, compatible with various high-performance laptop models.
- TDP: 57W, ensuring efficient power usage for mobile platforms.
Specifications:
- Processor Model: Intel Core i7-4930MX
- Cores/Threads: 4/8
- Base Frequency: 3.0 GHz
- Max Turbo Frequency: 3.9 GHz
- Cache: 8MB
- Socket Type: PGA946
- TDP: 57W
- Lithography: 22nm
Installation Tips:
- Ensure compatibility with the PGA946 socket on your laptop motherboard.
- Apply thermal paste correctly and use a reliable cooling solution to manage heat.
- If you are unsure about installation, contact us for assistance to avoid potential damage to the CPU.
Ideal Usage Scenarios:
- Gaming Laptops: Designed for high-performance gaming laptops needing strong processing power.
- Content Creation: Ideal for video editing, 3D rendering, and other resource-intensive tasks.
- Business Laptops: Perfect for mobile workstations used in professional settings requiring robust performance.