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Modern electronic devices—from smartphones to IoT systems—are powered by System-on-Chip (SoC)  technology. These chips integrate multiple processing units and functional modules into a single device, making electronics smaller, faster, and more efficient. However, as the number of applications in these devices grows, the number of cores inside SoCs also increases, making the testing process more complex and expensive. While studying SoC testing, I began thinking about a simpl

In recent years, System-on-Chip (SoC)  technology has become the backbone of modern electronic systems. From smartphones and IoT devices to automotive electronics and embedded systems, SoCs integrate multiple components—processors, memory, interfaces, and peripherals—onto a single chip. While this integration significantly improves performance and reduces power consumption and cost, it also introduces complex challenges in testing and verification . In this blog, I would like

System on Chip Testing Modern electronic devices such as smartphones, tablets, and digital cameras rely heavily on System-on-Chip (SoC)  technology. These chips integrate multiple processing cores and functional blocks on a single chip, allowing devices to perform many tasks efficiently. However, as the number of cores increases, the cost and time required for testing the chip also increase significantly . In some cases, the cost of testing may even exceed the manufacturing c