This is the second tutorial of the three: stress testing.Īfter much research on the internet regarding this topic, it was clear that there was no definitive guide with all of the information in one place, so we hope to answer all of your questions, however, if you want to know more, don't hesitate to get the conversation started in the comments below. We've broken up the topics of cooling, stress testing, and overclocking your Raspberry Pi into individual tutorials to make it easier to digest. You may also find that your Pi gets hot under heavy usage, and it can be a good idea to cool it down, especially when using intensive processes such as the N64 emulator for RetroPie. Overclocking is fairly simple to do on the Raspberry Pi, however, it requires additional cooling in the form of heatsinks and fans to ensure that the Pi doesn't overheat and damage itself. One of the most popular experiments to do with your Raspberry Pi is overclocking it. Part of the joy that is Raspberry Pi is getting stuck into it at a slightly lower level and finding out exactly what you can do with it if you take a look under the hood. We have a more recent guide to Stress testing your Raspberry Pi, this guide has been kept here for reference. SparkFun Antenna - SMA, 2dBi (433MHz) Price: $18.05Īdafruit Floppy FeatherWing with 34-Pin IDC Connector Price: $9.90 SparkFun MicroMod STM32 Processor Price: $30.40 Makerverse LoRa-E5 Breakout Price: $33.15 PiicoDev OLED Display Module (128圆4) SSD1306 Price: $13.45 PiicoDev LiPo Expansion Board for Raspberry Pi Pico Price: $7.35
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