The types of devices being deployed in cars and how they differ in functionality. Why each device type requires a different test technique. Determining the best approach for the specific application.

Automotive integrated circuits (ICs) are the critical drivers behind modern vehicle automation, safety, and efficiency. As electronic systems in automobiles become increasingly complex, robust testing ...

Semiconductor testing is undergoing multiple paradigm changes at once with the common goals of producing more known good die per month with low test cost. Achieving these goals requires a delicate ...

Prashanth Paladugu, a leading testbench architect at Micron, is transforming semiconductor design with his revolutionary approach to verification methodologies. "With the changing semiconductor ...

Semiconductor test equipment supplier Advantest announced that its recently launched ACS Real-Time Data Infrastructure (RTDI) has been accepted by multiple major data-analytics companies. The ...

As the semiconductor industry increasingly moves to chiplets, 2.5D/3D packaging, and heterogeneous integration, there are significant new challenges for test. Leaders like Teradyne have the ...

System-level test (SLT), once used largely as a stopgap measure to catch issues missed by automated test equipment (ATE), has evolved into a necessary test insertion for high-performance processors, ...

Semiconductor testing plays a crucial role in the supply chain, with industry players prioritizing factors such as test speed, cost, signal measurement accuracy, one-stop test capabilities, and ...