The AMD Ryzen 3 2200U is a Zen-based mobile APU design that combines core processing power and graphics on the same chip. This mobile processor supports up to 32GB of dual-channel DDR4-2400 memory and features Radeon Vega 3 graphics running at up to 1100MHz. The chip’s design is based on a 14 nm processing technology with 2 cores and is capable of running 4 threads simultaneously thanks to simultaneous multithreading (SMT).
The TDP of this chip is 15 watts, so it should last a long time on a single charge during graphics-intensive tasks. In addition, these low-power French fries are equipped with power-saving features like Precision Boost Overdrive and intelligent thermal design. The chip offers support for USB 3.1 Type-C, USB 3.1 Gen 2 and USB 3.0 ports. It also supports the AMD XMP 2.0 profile for easy overclocking with the AMD Wraith FR cooler with integrated fan or with the included cooler.
Performance should be sufficient for typical Microsoft Office tasks and web browsing, and streaming video content should also be possible. The Ryzen 3 2200U graphics card is good for light and basic gaming, but you can also play some more demanding games at lower graphics settings. Generally, these French fries are less suitable for more demanding applications like gaming or video editing. Dedicated graphics cards are advisable for this. Consider buying the Ryzen 3 2300U, which has higher performance and better integrated Radeon Vega 6 graphics.
Now with the AMD Ryzen 3 2200U mobile processor with Radeon Vega 3 graphics, you can experience impressive performance that works smoothly on just one or two hotspots in your notebook as they’re designed for mobility. So if you need an affordable power-user notebook with high efficiency and modern design, this processor is for you. It’s also cheaper than many other alternatives from Intel and other companies. It’s a good choice for laptops, tablets, and even desktops that use the AM4 platform.
Unlike its counterpart, the Intel i3-8130U, the Ryzen 3 2200U features MMX, FMA3, and F16C to speed up tasks like adjusting the contrast of an image or setting the volume. In addition, the chip supports hardware-assisted virtualization and accelerates calculations since it’s Advanced Vector Extensions (AVX).