A method and apparatus for selectively masking off unknown (`x`) captured scan data in first selected scan cells 220 from propagating through the scan chains 221 for test, debug, diagnosis, and yield improvement of a scan-based integrated circuit 207 in a selected scan-test mode 232 or selected self-test mode. The scan-based integrated circuit 207 contains a plurality of scan chains 221, a plurality of pattern generators 208, a plurality of pattern compactors 213, with each scan chain 221 compri...

Scan architectures are commonly used to test digital circuitry in integrated circuits. The present invention describes a method of adapting conventional scan architectures into a low power scan architecture. The low power scan architecture maintains the test time of conventional scan architectures, while requiring significantly less operational power than conventional scan architectures. The low power scan architecture is advantageous to IC/die manufacturers since it allows a larger number of ci...

Plural scan test paths (401) are provided to reduce power consumed during testing such as combinational logic (101). A state machine (408) operates according to plural shift states (500) to control each scan path in capturing data from response outputs of the combinational logic and then shifting one bit at a time to reduce the capacitive and constant state power consumed by shifting the scan paths.

During testing of an integrated circuit (IC), a channel masking capability is used for masking out unknown or unpredictable (X) values from being compressed into a signature register. The approach provides flexibility to allow for masking of unknown values, while avoiding many of the problems caused by over-masking of known values. The circuitry added to the design to allow for masking is reasonably small, and provides an effective way of masking unknown values during the testing process.

A scan-based self-test architecture and method using weighted scan enable signals is disclosed. The self-test architecture comprises: a linear feedback shift register; a phase shifter connected to outputs of the linear feedback shift register, and scan chains and the combinational part of the circuit under test; an AND gate; scan chains, each being formed by serially connecting multiple scan flip-flops having the same architecture; a multiplexer; and a logic unit for generating weighted random s...

A method and apparatus to compact test responses containing unknown values or multiple fault effects in a deterministic test environment. The proposed selective compactor employs a linear compactor with selection circuitry for selectively passing test responses to the compactor. In one embodiment, gating logic is controlled by a control register, a decoder, and flag registers. This circuitry, in conjunction with any conventional parallel test-response compaction scheme, allows control circuitry ...

A method and apparatus time-division demultiplexes and decompresses a compressed input stimulus provided at a selected data rate R1, into a decompressed stimulus, driven at a selected data rate R2, for driving selected scan chains in a scan-based integrated circuit using a plurality of time-division demultiplexors and time-division multiplexors for shifting stimuli and test responses in and out of high-speed I/O pads in order to reduce test time, test cost, and scan pin count. A synthesis method...

An apparatus includes a register of an integrated circuit for shifting a scan test pattern in response to a scan enable signal. The register includes: a shift input for receiving the scan test pattern; a system logic input for receiving a system logic signal; a clock input for receiving a next clock pulse; a scan enable input for switching the register between a shift mode and a normal mode; a register output for latching the shift input in the shift mode or the system logic input in the normal ...

A wrapper serial scan chain used during test of an integrated circuit is provided for a first functional block of circuitry and is segmented to provide a separately accessible wrapper serial scan chain segment that can be used to apply test to a second functional block of circuitry while bypassing the rest of the main wrapper serial scan chain.

A circuit device having data retention latches utilizes a test interface and system test controller to control one or more components of the circuit device to ensure proper conditions for testing the data retention latches. The data retention latches each include a scan component that is part of a scan chain, a first latching component that is powered in a first voltage domain and a second latching component that is powered in a second voltage domain, where one of the voltage domains can be effe...