👉 Refrigerator computing is an innovative approach to data processing that leverages the low-power, high-density memory and specialized hardware found in modern solid-state drives (SSDs) and other non-volatile memory technologies. Essentially, it involves moving computational tasks from traditional central processing units (CPUs) to these memory-centric devices, enabling ultra-low-power, high-performance computing directly within the memory itself. This architecture is particularly beneficial for edge computing applications where devices need to process large datasets locally, such as in Internet of Things (IoT) devices, autonomous vehicles, and smart sensors. By minimizing data movement between memory and processing units, refrigerator computing significantly reduces energy consumption and latency, making it an efficient solution for resource-constrained environments.
