HP EliteBook 735 G5 6NZ81US#ABA Overview
The HP EliteBook 735 G5 6NZ81US#ABA is a sleek and powerful laptop designed for professionals on the go. With an AMD Ryzen 7 PRO 2700U quad-core processor running at 2.20 GHz, this laptop is capable of handling demanding tasks with ease. The Windows 10 Pro operating system provides a familiar and secure platform for productivity.
The 13.3-inch LCD screen features a resolution of 1920 x 1080 with In-plane Switching (IPS) technology, delivering crisp and vibrant visuals from any angle. The graphics are powered by the AMD Radeon Vega Graphics controller, with shared DDR4 SDRAM providing smooth and responsive performance.
With 16 GB of DDR4 SDRAM and a 256 GB SSD, this laptop offers ample memory and storage for multitasking and data storage. The Gigabit Ethernet technology ensures fast and reliable internet connectivity, while the HDMI and USB Type-C ports allow for easy connectivity to external devices.
The HP EliteBook 735 G5 boasts a lightweight and compact design, measuring just 12.2 inches in width, 0.70 inches in height, and 9 inches in depth. The 3-cell battery provides up to 11.75 hours of maximum run time, making it ideal for long workdays or travel.
Overall, the HP EliteBook 735 G5 offers impressive performance, stunning visuals, and convenient connectivity options in a portable and stylish package.
Pros:
1. Powerful AMD Ryzen 7 PRO processor for smooth performance
2. High-resolution IPS display for crisp and vibrant visuals
3. Ample 16 GB of DDR4 SDRAM and speedy 256 GB SSD for multitasking and storage
4. Lightweight and compact design makes it easy to carry around
5. Long battery life of up to 11.75 hours for all-day productivity
Cons:
1. Limited number of USB ports may require the use of a hub for additional devices
2. Shared graphics memory may not be sufficient for gaming or graphic-intensive tasks
3. Higher price point compared to some other laptops with similar specs
4. Lack of dedicated graphics card may limit performance in demanding applications
5. Non-upgradeable memory and storage components may restrict future expandability.
