Food security and agricultural growth continue to become pressing concerns globally, which calls for the development of smart farm systems. A component that must be integrated with smart farms is machine learning (ML), an artificial intelligence (AI) tool. This ensures successful harvest through a lettuce disease monitoring system. Instead of cloud computing implemented by previous systems, edge computations can solve challenges such as patchy internet connectivity, which requires added power. The study highlights the use of ML, not only on strong desktop GPUs, but also on resource-constrained or edge devices. Hence, the use of TinyML allows for ML deployment on edge devices with a low-power implementation. Notable Convolutional Neural Network (CNN) Keras-compatible models that can run on the Raspberry Pi 3B+, a popular choice for ML, are MobileNetV2, EfficientNetV2S, and ResNet50V2. A lower-end device, such as the STM32 NUCLEO-F767ZI, has difficulty in running much larger models. Hence, model variations, STEfficientNetLCV1 and ResNet26V1, are used for the STM32. This study analyzes the models’ architecture, accuracy, and resource usage. The results highlight that MobileNetV2 is the most efficient quantized model on the target devices, with the fastest predictions, lowest memory usage, and lowest maximum power consumption. The model boasts 88% and 87% accuracy on the Raspberry Pi and STM32 device respectively. However, a noticeable difference is in the power consumption at 2.24 W and 0.44 W while achieving the same accuracy. This, then, shows the STM32’s ability to run the same ML application as the Raspberry Pi with a TinyML approach.