Laptops generally suffer some technological ability when compared to their desktop counterparts, but the new line of Intel Core i9 chips could make laptops feel just as powerful. The new chips are the first six-core, 12-thread chips ever made for laptops, and can even boost up to 4.8GHz when optimally cooled below 53 degrees Celsius. The chips are said to be 29% faster at everyday tasks when compared to last year's fastest laptop CPU, the i7-7820HK. The Core i9 chips will also be able to handle 4K video editing at a boosted speed.
The Core i9 chips are set to be unveiled in laptops soon, including the Dell flagship XPS 15 and the Asus ROG G703. Every laptop running one of these Cores will also feature Intel Optane memory which aims to increase the performance and responsiveness of SATA-based storage.
Impressive Laptop Core Upgrades
Intel's New Laptop Core i9 Offers Drastic Improvements and Speeds
Trend Themes
1. Improved Laptop Performance - The new line of Intel Core i9 chips offers drastic performance improvements, making laptops feel as powerful as desktops.
2. Increased Speed and Efficiency - Intel's Core i9 chips can boost up to 4.8GHz, making laptops faster and more efficient than ever before.
3. Enhanced Video Editing Capabilities - The Core i9 chips can handle 4K video editing at a boosted speed, providing a significant advancement for professionals in the video editing industry.
Industry Implications
1. Laptop Manufacturing - Laptop manufacturers can capitalize on the improved laptop performance trend by integrating the latest Intel Core i9 chips into their product lines.
2. Computer Hardware - The increased speed and efficiency trend presents an opportunity for computer hardware companies to develop and market advanced cooling solutions to optimize the performance of Intel Core i9 chips.
3. Video Editing Software - The enhanced video editing capabilities of the Core i9 chips open up opportunities for video editing software companies to create more powerful and efficient editing tools that can leverage the chip's performance.