Abstract: The invention includes an apparatus and method for dynamically isolating a portion of a scan path of a system-on-chip. In one embodiment, an apparatus includes a scan path and control logic. The scan path includes at least a first hierarchical level, where the first hierarchical level includes a plurality of components, and a second hierarchical level having at least one component. The second hierarchical level is adapted for being selected and deselected such that the second hierarchical level is active or inactive. The control logic is adapted to filter application of at least one control signal to the at least one component of the second hierarchical level in a manner for controlling propagation of data within the second hierarchical level independent of propagation of data within the first hierarchical level.

Abstract: The invention includes an apparatuses and associated methods for controlling dynamic modification of a testing scan path using a control scan path. In one embodiment, an apparatus includes a testing scan path and a control scan path. The testing scan path includes testing components and at least one hierarchy-enabling component. In one embodiment, the control scan path includes at least one control component coupled to the at least one hierarchy-enabling component for controlling dynamic modification of the testing scan path. In one embodiment, the control scan path includes the at least one hierarchy-enabling component, wherein the at least one hierarchy-enabling component is adapted for dynamically modifying the testing scan path using the control scan path. The dynamic modification of the testing scan path may include modifying a hierarchy of the testing scan path, such as selecting or deselecting one or more hierarchical levels of the testing scan path.

Abstract: The invention includes an apparatus and method for dynamically isolating a portion of a scan path of a system-on-chip. In one embodiment, an apparatus includes a scan path and control logic. The scan path includes at least a first hierarchical level, where the first hierarchical level includes a plurality of components, and a second hierarchical level having at least one component. The second hierarchical level is adapted for being selected and deselected such that the second hierarchical level is active or inactive. The control logic is adapted to filter application of at least one control signal to the at least one component of the second hierarchical level in a manner for controlling propagation of data within the second hierarchical level independent of propagation of data within the first hierarchical level.

Abstract: The invention includes an apparatuses and associated methods for controlling dynamic modification of a testing scan path using a control scan path. In one embodiment, an apparatus includes a testing scan path and a control scan path. The testing scan path includes testing components and at least one hierarchy-enabling component. In one embodiment, the control scan path includes at least one control component coupled to the at least one hierarchy-enabling component for controlling dynamic modification of the testing scan path. In one embodiment, the control scan path includes the at least one hierarchy-enabling component, wherein the at least one hierarchy-enabling component is adapted for dynamically modifying the testing scan path using the control scan path. The dynamic modification of the testing scan path may include modifying a hierarchy of the testing scan path, such as selecting or deselecting one or more hierarchical levels of the testing scan path.

Abstract: A register designed to detect and correct soft errors in real time. A redundant latch is added to the existing structure of a flip flop and functional data is simultaneously registered at multiple latches. The content of these multiple latches are fed to a majority voting circuit. If the content of any of these latches is corrupted by soft error, it is filtered out through the majority voting circuit and correct data is passed out from the output of the flip flop. In one embodiment, this design operates as a simple scan flip flop or scan-hold flip flop, and is useful for system testability purposes.

Abstract: A method and apparatus for a structure of a flip-flop that is tolerant to the noise pulses occurring due to the presence of crosstalk faults by sampling the input data multiple times before and after the active clock edge. The final stored value at the flip-flop is determined by the resolution of a counter circuit residing in the flip-flop, which is activated at the change of the sampled input data. This counter based resolution mechanism allows for the detection and filtering of the noise pulse induced at the input of the flip-flop due to a crosstalk fault.

Abstract: A method and system are disclosed for fault injection using Boundary Scan resources compliant with 1149.1, while operating in system mode. The system has two register circuits, one, for storing and updating fault selection data and another, for storing and updating fault injection values.