Utilizing Digitizers and Arbitrary Waveform Generators (AWGs) for analog-to-digital conversions.
Before diving into the training specifics, it is crucial to understand why the V93000 is so important. The V93000 is a scalable SoC test system designed to cover a wide range of devices, from simple low-cost microcontrollers to high-performance processors and complex 5G RF chips. Its architecture allows for high flexibility, supporting digital, analog, mixed-signal, and RF testing within a single platform. The EXA Scale platform, a key upgrade to the system, leverages patented Xtreme Link technology to provide high-speed data connectivity and on-card computing power, meeting the demands of advanced digital ICs up to the exascale performance class. Because the semiconductor industry relies on this platform to guarantee the quality and reliability of chips, the demand for skilled engineers who can operate, program, and maintain it is consistently high. advantest v93000 training
The complexity of ATE programming means that self-teaching often leads to inefficient test programs, prolonged time-to-market, and increased cost-of-test. Formal training provides clear benefits: The complexity of ATE programming means that self-teaching
Utilizing Digitizers and Arbitrary Waveform Generators (AWGs) for analog-to-digital conversions.
Before diving into the training specifics, it is crucial to understand why the V93000 is so important. The V93000 is a scalable SoC test system designed to cover a wide range of devices, from simple low-cost microcontrollers to high-performance processors and complex 5G RF chips. Its architecture allows for high flexibility, supporting digital, analog, mixed-signal, and RF testing within a single platform. The EXA Scale platform, a key upgrade to the system, leverages patented Xtreme Link technology to provide high-speed data connectivity and on-card computing power, meeting the demands of advanced digital ICs up to the exascale performance class. Because the semiconductor industry relies on this platform to guarantee the quality and reliability of chips, the demand for skilled engineers who can operate, program, and maintain it is consistently high.
The complexity of ATE programming means that self-teaching often leads to inefficient test programs, prolonged time-to-market, and increased cost-of-test. Formal training provides clear benefits: