Intel Core I9 9880h Vs I7 9750h
What To Know
- The additional cores and threads in the i9 9880H provide it with an edge in multi-threaded workloads, while the higher base clock speed of the i7 9750H gives it an advantage in single-threaded tasks.
- In single-core performance, the i7 9750H takes the lead with a score of 1,200 points in Geekbench 5, compared to the i9 9880H’s score of 1,150 points.
- In Fortnite at 1080p resolution and medium settings, the i9 9880H delivers an average frame rate of 85 FPS, while the i7 9750H achieves an average of 75 FPS.
The world of computing has evolved exponentially, and with it, the demand for powerful processors has skyrocketed. Two formidable contenders in this arena are the Intel Core i9 9880H and i7 9750H. Both boasting impressive specifications, these processors promise unparalleled performance. This blog post will delve into an in-depth comparison of the Intel Core i9 9880H vs. i7 9750H, exploring their key features, performance benchmarks, and suitability for various applications.
Core Architecture and Clock Speeds
The Intel Core i9 9880H is an 8-core, 16-thread processor with a base clock speed of 2.3 GHz and a turbo boost speed of up to 5.0 GHz. On the other hand, the Intel Core i7 9750H is a 6-core, 12-thread processor with a slightly lower base clock speed of 2.6 GHz but a similar turbo boost speed of up to 4.5 GHz. The additional cores and threads in the i9 9880H provide it with an edge in multi-threaded workloads, while the higher base clock speed of the i7 9750H gives it an advantage in single-threaded tasks.
Cache Memory
Cache memory plays a crucial role in processor performance by storing frequently accessed data. The Intel Core i9 9880H features a larger L3 cache of 16 MB compared to the i7 9750H’s 12 MB L3 cache. This increased cache size allows the i9 9880H to store more data on-chip, reducing latency and improving overall responsiveness.
Graphics Performance
Both the Intel Core i9 9880H and i7 9750H are equipped with integrated Intel UHD Graphics 630. While not designed for demanding gaming or graphics-intensive tasks, this integrated graphics solution is sufficient for basic video playback, casual gaming, and office applications. For users requiring dedicated graphics capabilities, external graphics cards can be paired with either processor.
Thermal Design Power (TDP)
The Thermal Design Power (TDP) is a measure of the maximum amount of heat that a processor can dissipate. The Intel Core i9 9880H has a TDP of 45W, while the i7 9750H has a slightly lower TDP of 35W. This difference in TDP indicates that the i9 9880H may require more robust cooling solutions in laptops to maintain optimal performance under sustained loads.
Benchmark Comparisons
To evaluate real-world performance, we turn to benchmark results. In the Cinebench R23 multi-core test, the Intel Core i9 9880H scores an impressive 10,500 points, outpacing the i7 9750H’s score of 8,500 points. This demonstrates the i9 9880H’s superiority in multi-threaded workloads, such as video editing and 3D rendering. In single-core performance, the i7 9750H takes the lead with a score of 1,200 points in Geekbench 5, compared to the i9 9880H’s score of 1,150 points. This indicates that the i7 9750H’s higher base clock speed provides a slight advantage in single-threaded tasks.
Gaming Performance
While not primarily designed for gaming, both the Intel Core i9 9880H and i7 9750H can handle casual gaming and esports titles. In Fortnite at 1080p resolution and medium settings, the i9 9880H delivers an average frame rate of 85 FPS, while the i7 9750H achieves an average of 75 FPS. In Rainbow Six Siege, the i9 9880H maintains a steady 100 FPS, while the i7 9750H falls slightly behind at 90 FPS. These results show that both processors are capable of providing a smooth gaming experience, with the i9 9880H offering a slight edge in more demanding games.
Suitability for Different Applications
The Intel Core i9 9880H is best suited for professionals and enthusiasts who require exceptional performance for demanding workloads. Its 8 cores and 16 threads make it ideal for video editing, 3D modeling, and other multi-threaded applications. The i7 9750H, on the other hand, is a great choice for users who prioritize single-core performance and battery life. It excels in tasks such as gaming, web browsing, and office productivity.
Power Consumption and Battery Life
Due to its higher core count and clock speeds, the Intel Core i9 9880H consumes more power than the i7 9750H. This increased power consumption can impact battery life in laptops, especially during intensive workloads. Laptops equipped with the i7 9750H may offer longer battery life than those with the i9 9880H.
Choosing the Right Processor for Your Needs
The choice between the Intel Core i9 9880H and i7 9750H depends on your specific needs and budget. If you prioritize multi-threaded performance for demanding applications, the i9 9880H is the clear choice. However, if you value single-core performance, battery life, or a more affordable option, the i7 9750H is an excellent choice.
Final Thoughts: Finding the Perfect Balance
The Intel Core i9 9880H and i7 9750H are both exceptional processors that offer exceptional performance for different applications. The i9 9880H excels in multi-threaded workloads, while the i7 9750H shines in single-threaded tasks and battery life. By carefully considering your performance needs and budget, you can choose the processor that perfectly aligns with your requirements.
What You Need to Know
Q: Which processor is better for gaming, the i9 9880H or i7 9750H?
A: While neither processor is specifically designed for gaming, the i9 9880H offers slightly better gaming performance due to its higher core count and clock speeds.
Q: Can I overclock the i9 9880H or i7 9750H?
A: Overclocking is not officially supported by Intel for these processors. However, some laptops may offer BIOS settings that allow for limited overclocking.
Q: Which processor consumes less power?
A: The Intel Core i7 9750H consumes less power than the i9 9880H due to its lower core count and clock speeds.