End-to-end testing for boards and systems using boundary scan

ICs with IEEE 1149.1 boundary scan (BS) Architecture have been widely used in board level design to increase the testability. An end-to-end test methodology that utilizes BS architecture for testing boards and systems throughout the product life cycle is proposed. The proposed test methodology includes a programmable dynamic BS test architecture and a series of test modules that take advantage of the test architecture for complete fault coverage. Proposed design-for-testability (DFT) techniques guarantee the co-existence of BS resting with other system functions, such as in-system programming and DSP JTAG emulation. At board level, programmable dynamic scan chains are used in a divide-and-conquer fashion to increase the flexibility in the development phase (or design verification testing, DVT). Besides, since the DFT techniques are programmable they can be used as design-for-diagnosis to increase diagnosis resolution during DVT. Address scan port chips are used to enable multi-drop test bus architecture for backplane testing as well as system embedded testing. Other advanced techniques, such as analog subsystem testing and board-level built-in self-test, as well as how to re-use BS architecture in in-circuit testing and manufacture testing are also parts of the proposed methodology that takes advantage of BS architecture to provide full scale testing for systems