Linux Kernel 5.17 Brings Important Performance Improvements for AMD Ryzen CPUs

Linux Kernel 5.17 was released on Sunday and it brings some important performance improvements for AMD Ryzen CPUs. One of the most important changes is support for the upcoming Zen 3 CPUs. This support is important for getting the best performance out of your new CPU. In addition, the 5.17 kernel also includes improved support for the Ryzen 5000 series CPUs. These changes should help improve the performance of your AMD Ryzen CPU, whether you’re using a new Zen 3 CPU or an older Ryzen 5000 series CPU.

Linux Kernel 5.17 Brings Important Performance Improvements for AMD Ryzen CPUs

What’s new in Linux Kernel 517?

Linux Kernel 5.17 brings important performance improvements for AMD Ryzen CPUs. Among the changes are improved power management and scheduling, which should result in better performance and power efficiency. There are also a number of other changes, including support for the new Intel Tiger Lake CPUs, improved support for the Raspberry Pi 4, and more.

How will upgrading to Linux Kernel 517 improve AMD Ryzen CPU performance?

The Linux Kernel is the key ingredient that makes Linux distributions so versatile and powerful. It is the software at the heart of a Linux operating system that manages resources and provides common services for user-level programs. The Kernel is constantly being upgraded with new features and improvements, and the latest version – Kernel 5.17 – includes some important performance improvements for AMD Ryzen CPUs.

Upgrading to Kernel 5.17 will improve the performance of AMD Ryzen CPUs in several ways. First, it includes updated CPU frequency scaling drivers that improve energy efficiency and performance. Second, it includes a new “restartable sequences” feature that allows the CPU to more efficiently handle certain types of workloads. Finally, it includes a number of other miscellaneous improvements that together result in a noticeable performance boost for AMD Ryzen CPUs.

So if you’re using a computer with an AMD Ryzen CPU, upgrading to Linux Kernel 5.17 is a great way to improve performance.

Why is it important to keep your Linux Kernel up-to-date?

Keeping your Linux Kernel up-to-date is important for a number of reasons. Newer versions of the Kernel usually contain important security fixes and performance improvements, which can be crucial for keeping your system safe and running smoothly. In addition, newer Kernels often support newer hardware, so keeping your Kernel up-to-date can help ensure that your system can take advantage of the latest and greatest hardware.

How to upgrade to Linux Kernel 517

If you’re using an AMD Ryzen CPU, you’ll want to upgrade to the latest Linux Kernel to take advantage of important performance improvements. Here’s how to do it:

First, check to see if your current kernel is compatible with the new one. To do this, open a terminal and type:

uname -r

If the output is 4.15.0 or higher, you’re good to go. If not, you’ll need to upgrade your kernel first.

Next, download the latest kernel from the Linux Kernel Archive. At the time of writing, the latest stable kernel is 5.17.

Once the download is complete, decompress the archive with a command like:

tar xvf linux-5.17.tar.xz

This will create a new directory called “linux-5.17”. Navigate into it with:

cd linux-5.17

Now, it’s time to compile the kernel. This process can take a while, so grab a cup of coffee and be patient. Type the following command to start compiling:

make

Once the compilation is complete, install the new kernel with:

sudo make install

Finally, reboot your computer to load the new kernel. Once your computer has rebooted, open a terminal and type the following command to verify that you’re running the new kernel:

uname -r

You should see “5.17” as the output. Congratulations, you’ve successfully upgraded to the latest Linux Kernel!

Must Read

1. Make sure your BIOS is up to date
2. Use a kernel with the Ryzen CPU fixes backported
3. Use a newer toolchain
4. Use a distro with good out-of-the-box Ryzen support
5. Use performance-enhancing kernel tweaks
6. Use a faster storage device
7. Use a faster memory speed
8. Use a CPU cooler for better thermals