![]() ![]() ![]() Next up, connect the HDMI cable from the display to your GPU. You can, however, connect the cable to a USB port on your motherboard. Since my monitor has a USB pass-through, I connected the display to the monitor to reduce cable clutter. Once mounted, you will need to run two cables – HDMI input and USB power cable. Alternatively, you could also mount the display outside the case if you don’t have enough space inside or if you are like me and have a case with tinted side panel.īefore mounting, do check the back of the screen as some displays come with a physical on and off switch which will be hard to reach once you mount the display on your case. If you don't have stand-offs available, you can also use the extra ones that came with your motherboard. Moving on, you will also need a screwdriver and a couple of stand-offs, however, the latter is optional as some displays come with their own set of mounting hardware including stand-offs. Anything bigger than that is just a waste of space inside your case. As for size, make sure you get one that fits in your case, but I found five to seven inches to be the ideal size. You can check the Raspberry Pi website or Amazon to find the best display suited for your needs. Unfortunately, there is no good recommendation for displays, as these vary widely based on the region and the manufacturer. Some displays only support Raspberry Pi and that will not help you as we will be connecting the display directly to the GPU. Do make sure you buy a display that supports output via PC as well. ![]() For this, we would recommend going with one of the displays made for Raspberry Pi, as they are relatively cheap and come with the basic features that you will need. Off the bat, you will need a screen to display the various data points. With that out of the way, let's see what hardware you will need to complete the setup. Do note that this may require modding your hardware, so proceed at your own risk. It'll tell you how to add a second display to your PC to monitor temperature, power consumption, and the frequency at which the hardware is running. So, if you are the sort of person who likes to monitor your system's vitals, then we have a tutorial for you. While this is great for the average consumer, the increase in performance also has a negative impact in terms of the heat generated as well as the power consumption. As for the image for the Raspberry Pi, what you have to do is download the image on your PC, unzip it and copy the image to the microSD that you are going to use on the Raspberry Pi once you have unzipped it.In the last couple of years, we have seen PC hardware take enormous leaps, both in terms of performance and efficiency. but authorizing the application is sufficient. The application is simple to install, yes, it may be that Windows Defender has a problem. And by the way, we do not recommend using the Raspberry Pi 400 for this project. Keep in mind that if you do this project then you will not be able to use your Raspberry Pi for other projects. The only complex part of the project does not have to do with the hardware, but with the monitoring software, which is based on MOBROS software that consists, on the one hand, of a program for our PC and, on the other hand, of an official distribution for the Raspberry Pi. A support or housing to put both together.A Raspberry Pi, with its corresponding MicroSD and power supply.The list of materials that you are going to need for this project is quite simple, it is divided into three parts: ![]()
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