| The Digital Logic Core is proposed in this thesis to address the technological and economical challenges facing the IC test industry today. The DLC is a customized circuit which is incorporated into the test environment to enhance the testability of the DUT by supplementing automatic test equipment (ATE) capabilities, providing a standalone test bed, or embedding test functionality into larger systems.; The enabling technology of the DLC is programmable logic, such as field-programmable gate arrays (FPGAs), which off-loads the ATE test logic and functions. Previous work used FPGAs for applications which required low speed, but high test channel count. With the rapid advancement of FPGA technology, the DLC can now perform most test functions of ATE while maintaining and exceeding their performance. This level of complexity can be attained while drastically reducing the cost of current test systems. Furthermore, the rapid development of FPGA technology exceeds the rate of ATE improvement making this test strategy more useful into the future.; To demonstrate the feasibility of this concept, several applications are developed and analyzed including an opto-electronic test bed for standalone operation and a nano-scale wafer-level prober for embedded system operation. These applications have been proven to operate at multi-gigahertz speeds which match and exceed modern ATE specifications. More applications are planned for the near future which far exceed these rates. |
