Serial interfacing for embedded-memory testing

A serial interfacing scheme in which several embedded memories share the built-in, self-test circuit is presented. For external testing, this approach requires only two serial pins for access to the data path. There is considerable savings in routing area, and fewer external pins are needed to test random-access memories with wide words, such as those in application-specific integrated circuits for telecommunications. Even though the method uses serial access to the memory, a test pattern is applied every clock cycle because the memory itself shifts the test data. The method has been adapted to four common algorithms. In implementations of built-in self-test circuitry on several product chips, the area overhead was found to be acceptable     

ScanBist: a multifrequency scan-based BIST method

The authors present ScanBist, a low-overhead, scan-based built-in self-test method, along with its performance in several designs. A novel clock synchronization scheme allows at-speed testing of circuits. This design allows the testing of circuits operating at more than one frequency while retaining the combinational character of the circuit to be analyzed. We can therefore apply scan patterns that will exercise the circuit under test at the system speed, potentially providing a better coverage of delay faults when compared to other self-test methods. Modifications to an existing transition fault simulator account for cases where inputs originating from scan registers clocked at different frequencies drive a gate. We claim to detect transition faults only if the transition originates from the inputs driven by the highest frequency clock. ScanBist is useful at all levels of system packaging assuming that a standard TAP provides the control and boundary scan isolates the circuit from primary inputs and outputs during BIST mode