ASUS VivoBook X541NA-GO121T 90NB0E81-M03010 Overview
The ASUS VivoBook X541NA-GO121T 90NB0E81-M03010 is a sleek and efficient laptop designed for everyday computing tasks. It features an Intel Pentium N4200 processor with four cores and four threads, making it capable of handling multiple applications simultaneously. The processor has a base frequency of 1.10 GHz and a boost frequency of 2.50 GHz, providing smooth performance for basic tasks.
The laptop comes with 4 GB of DDR3L-SDRAM onboard memory, which is suitable for light multitasking and web browsing. Additionally, it has a speedy 256 GB SSD storage capacity, allowing for fast boot times and quick access to files. The display is a 15.6-inch HD LED-backlit screen with a resolution of 1366 x 768 pixels, offering vivid colors and clarity for multimedia consumption.
In terms of connectivity, the VivoBook X541NA-GO121T features Wi-Fi 802.11b/g/n, Ethernet LAN, and a built-in card reader for easy file transfer. It also has a full-size keyboard with a numeric keypad for convenient data input and a touchpad for precise cursor control. The laptop runs on Windows 10 Home operating system.
The ASUS VivoBook X541NA-GO121T is equipped with Intel HD Graphics 505, suitable for casual gaming and multimedia playback. The SonicMaster audio system delivers clear sound quality, enhancing the overall multimedia experience. The front camera and built-in microphone allow for video calls and online meetings.
One of the key advantages of this laptop is its compact and lightweight design, making it easy to carry around for work or school. The battery capacity of 36 Wh and three cells provide decent battery life for on-the-go use. The product color options of black and chocolate give users a choice of style.
However, some potential drawbacks of the ASUS VivoBook X541NA-GO121T include its limited 4 GB onboard memory, which may not be sufficient for heavy multitasking or gaming. The display resolution of 1366 x 768 pixels may not be ideal for users who require sharp and detailed visuals. Additionally, the absence of a discrete graphics adapter may limit its performance for demanding graphics-intensive applications.