An automated verification process based on scan techniques

Matching the results achieved during circuit simulation with those extracted from circuit operation is a common verification process. A large number of current verification techniques use the input / output vectors produced during functional simulation as the test vectors applied / compared against the circuit responses. Techniques that are more complete include extracting the values of internal sequential nodes and comparing these using internal scans. This paper describes a solution for verifying digital designs implemented in commercially available CLPDs. All internal flip-flops are included in a scan chain accessible through the BST infrastructure (through a user-defined optional instruction), while the BS cells are used to apply the input test vectors and capture the circuit responses. These BS cells can either belong to the device-under-test or to other devices, in the former case through the optional INTEST instruction and in the latter through the mandatory EXTEST instruction. To speed up the verification process, the test program is automatically generated from information that encompasses the design and development phase

Implementing a Self-Checking Profibus Slave

This work presents the study and preliminary results of the high level implementation of a self-checking Profibus slave. From an existing VHDL description of the device, a test strategy was studied and implemented, so that the whole circuit has embedded test structures capable to perform at-speed test of the slave. In this paper, we show the used test strategies and implementation results achieved from a synthesis process in a FPGA environment