Intel Core i5-10300H SRH84 CL8070104399510 is a mobile processor designed for laptops.
It’s a quad-core processor with a base clock speed of 2.5 GHz and can boost up to 4.5 GHz. This allows for decent performance in multitasking and running demanding applications.
The “SRH84 CL8070104399510” part likely refers to specific manufacturing codes or batch identifiers that don’t have a direct impact on the performance or functionality of the processor but might be used for tracking and quality control purposes within Intel’s production processes.
In terms of performance, it offers a good balance between power consumption and computing power, making it suitable for various laptop usage scenarios such as productivity work, light gaming, and multimedia consumption. However, its performance can also be influenced by factors like the laptop’s cooling system, memory, and storage configuration.
What are the improvements of the Intel Core i5-10300H compared to the previous-generation Intel Core i5-8300H?
Compared with the Intel Core i5-8300H, the Intel Core i5-10300H mainly has the following improvements:
Manufacturing process: Both adopt a 14-nanometer manufacturing process.
Core code name: The i5-10300H is Comet Lake-H, and the i5-8300H is Coffee Lake.
CPU base clock and turbo frequency: The CPU base clock of the i5-10300H is increased to 2.5GHz, and the turbo frequency is increased to 4.5GHz, while the base clock of the i5-8300H is 2.3GHz and the turbo frequency is 4.0GHz.
Memory support: The memory type supported by the i5-10300H is DDR4-2933MHz, while the i5-8300H supports DDR4-2666MHz and LPDDR3-2133MHz. The maximum memory bandwidth of the i5-10300H is also increased from 41.8GB/s of the i5-8300H to 45.8GB/s. At the same time, the maximum memory that the i5-10300H can support has increased from 64GB to 128GB.
Graphics card aspect: The maximum dynamic frequency of the graphics card of the i5-10300H is increased to 1.05GHz (the i5-8300H is 1GHz).
Overall, the i5-10300H has certain improvements in aspects such as base clock, turbo frequency, and memory support. These improvements can bring some performance advantages. For example, when running multitasking or programs with high processing speed requirements, there may be a smoother performance. However, the performance difference in actual use will also be affected by other factors, such as the heat dissipation design of the notebook computer and the specific application scenarios.
Post time: Jul-31-2024