The first thing to do is download the appropriate, current driver through additional drivers in Ubuntu. I have never used an AMD dedicated graphics card, so I will be focusing on Nvidia ones. If you are interested, there is an advanced tool called CoreFreq that you can use to get detailed CPU information. The values above lead us to conclude that the computer’s workload is very light. A value over 100.0✬ is deemed critical.Values higher than 82.0✬ are considered high.We have 6 cores in use at the moment (with the current highest temperature being 37.0✬).The watch command guarantees that the readings will be updated every 2 seconds (and this value can - of course - be changed to what best fit your needs): Every 2,0s: sensors However, we will use the terminal version here: watch -n 2 sensors It is available as sensors or lm-sensors package.Īn interesting article about a gui version of this tool to check CPU temperature has already been covered on It’s FOSS. If not, you can install it using your distribution’s package manager. The sensors command is already installed on Ubuntu and many other Linux distributions. Monitoring CPU Temperature in Linuxįor CPU temps, we will combine sensors with the watch command. To monitor the behaviour of both CPU and GPU we will be making use of the watch command to have dynamic readings every certain number of seconds. Also, since I use Zorin OS I will be focusing on Ubuntu and Ubuntu derivatives. My setup includes a Slimbook Kymera and two displays (a TV set and a PC monitor) which allows me to use one for playing games and the other to keep an eye on the temperatures. Since we are talking about commands, you may want to learn how to get GPU details in Linux command line. We will be looking at a couple of very simple commands to monitor CPU and GPU temps. Whether you are one of those users or otherwise, you are bound to have wondered how hot your computer’s CPU and GPU can get (even more so if you do overclocking). There isn't any particular value in leaving open the "sensors" window for HWiNFO while you are setting up the skin, or ever really.Because of Steam (including Steam Play, aka Proton) and other developments, GNU/Linux is becoming the gaming platform of choice for more and more computer users every day.Ī good number of users are also going for GNU/Linux when it comes to other resource-consuming computing tasks such as video editing or graphic design ( Kdenlive and Blender are good examples of programs for these). It is however, the best tool I have found for creating really robust Rainmeter skins that monitor sensor-based resources. It's not something that is particularly "plug and play" for the end-user. I'd be hesitant to widely distribute a skin that used it. I confess that configuring a skin to use HWiNFO is not entirely trivial. Use the skin - what it displays (er, in one of its windows) together with its code - to work out what code to put in one's own skin. (This yield two running programs with almost identical taskbar icons.) Obtain the skin from the page you linked and run the skin. Obtain and install the HwInfo application and configure it to run on startup and find its setting for the GPU sensor and enable that sensor. It seems one has to do all of the following.
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