Built-In Self-Heating Thermal Testing of FPGAs.

Field programmable gate arrays (FPGAs) are designed and fabricated using the most advanced CMOS technology nodes to meet performance and power demands. This makes them susceptible to many manufacturing and reliability challenges. Increasing chip temperature is a major reliability concern since various failure mechanisms are accelerated at high chip temperature, which require thermal-aware testing to detect them. External devices like thermal chambers are usually used to heat up the chip to a desired temperature in order to apply the test. However, there are many limitations for these external devices, which make the thermal-aware testing of the FPGA a challenging process. In this paper, thermal-aware testing of FPGAs using built-in self-heating is presented, in which the internal resources of FPGA are used to build controlled self-heating elements (SHEs). These controlled SHEs are distributed across the FPGA and integrated with the test scheme to generate the required temperature profile for testing, and thus no external devices for heating up the FPGA are needed. We present two different categories of SHEs integration techniques for different testing purposes. The first one is for built-in self-test, and the second one is for application-dependent testing. The techniques are applied on representative test cases. The experimental results show that a wide range of maximum chip temperatures can be achieved (from 50 °C up to 125 °C on Virtex-5 FPGA) with a high accuracy (±1 °C). [ABSTRACT FROM PUBLISHER]