DELL Latitude 7290 L729I7KS8256W10P3PS Overview
The DELL Latitude 7290 L729I7KS8256W10P3PS laptop is a powerful and portable device designed for professionals who need a reliable machine for work on the go. Powered by an 8th gen Intel Core i7 processor with 4 cores and 8 threads, this laptop delivers fast and efficient performance for multitasking and demanding tasks. The processor has a base frequency of 1.90 GHz and can boost up to 4.20 GHz when needed, making it suitable for handling intensive applications.
With an Intel UHD Graphics 620 card, this laptop offers decent graphics performance for everyday tasks and light gaming. The 12.5-inch HD display with a resolution of 1366 x 768 pixels provides crisp and clear visuals for work and entertainment. The laptop comes with 8 GB of internal memory and a speedy 256 GB SSD storage, ensuring smooth performance and quick access to files.
In terms of connectivity, the DELL Latitude 7290 features Bluetooth, Ethernet LAN, and WiFi support for seamless networking. It also includes essential ports like HDMI and Ethernet LAN for connecting to external displays and networks. The device comes with a touchpad keyboard, built-in speakers, and a front camera for video conferencing and communication.
Measuring only 207.9 mm in depth, 304.8 mm in width, and weighing just 1.19 kg, this laptop is compact and lightweight, making it easy to carry around for work or travel. The laptop runs on Windows 10 Pro, providing a familiar and secure operating system for productivity and efficiency.
Overall, the DELL Latitude 7290 L729I7KS8256W10P3PS laptop offers a good balance of performance, portability, and connectivity for professionals who need a reliable workhorse on the go.
Pros:
- Powerful 8th gen Intel Core i7 processor for fast performance
- Compact and lightweight design for portability
- Adequate graphics performance for everyday tasks
- Ample storage space with a 256 GB SSD
- Windows 10 Pro operating system for productivity and security
Cons:
- Limited display resolution compared to higher-end models
- Lack of discrete graphics adapter for more demanding graphics tasks
- Relatively small amount of internal memory for heavy multitasking applications
