The amazing development of transistor technology has been the main driving force behind modern electronics. Over time, this process has slowed down introducing performance bottlenecks in data-intensive applications. A main cause is the classical von Neumann architecture, which entails constant data exchanges between processing units and data memory, wasting time and power. As a possible alternative, the Beyond von Neumann approach is now rapidly spreading. Although architectures following this paradigm vary a lot in layout and functioning, they all share the same principle: bringing computing elements as near as possible to memory while inserting customized processing elements, able to elaborate more data. Thus, power and time are saved through parallel execution and usage of processing components with local memory elements, optimized for running data-intensive algorithms. Here, a new memory-mapped co-processor (MeMPA) is presented to boost systems performance. MeMPA relies on a progra
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The accelerating pace of technological advancement has continuously reshaped the contours of digital innovation. Central to this narrative is the evolution of electronic components, particularly in how they are integrated and interconnected. One of the most groundbreaking of these innovations is the System-on-a-Chip (SoC). To fully grasp its significance, it is essential to explore its origins, evolution, and its undeniable impact on today's tech landscape.