Described is an apparatus which comprises: a state detector which is operable to detect logic states of zero and one in response to a clock edge; and an error detector coupled to the state detector, wherein the error detector is to detect an error in the detected logic states.

The performance of a microelectronic circuit can be configured by making an operating parameter assume an operating parameter value. An operating method comprises selectively setting the microelectronic circuit into a test mode that differs from a normal operating mode of the microelectronic circuit, and utilizing said test mode to input test input signals consisting of test input values into one or more adaptive processing paths within the microelectronic circuit. An adaptive processing path comprises processing logic and register circuits configured to produce output values from input values input to them. The performance of such an adaptive processing path can be configured by making an operating parameter assume an operating parameter value. The method comprises making said one or more adaptive processing paths form test output values on the basis of the respective test input values input to them, and forming a set of test output signals by collecting said test output values given by said one or more adaptive processing paths. The method comprises examining said set of test output signals, and forming a test result on the basis of said examining, and using said test result to select and set an operating parameter value for said operating parameter.

The performance of a microelectronic circuit can be configured by making an operating parameter assume an operating parameter value. An operating method comprises selectively setting the microelectronic circuit into a test mode that differs from a normal operating mode of the microelectronic circuit, and utilizing said test mode to input test input signals consisting of test input values into one or more adaptive processing paths within the microelectronic circuit. An adaptive processing path comprises processing logic and register circuits configured to produce output values from input values input to them. The performance of such an adaptive processing path can be configured by making an operating parameter assume an operating parameter value. The method comprises making said one or more adaptive processing paths form test output values on the basis of the respective test input values input to them, and forming a set of test output signals by collecting said test output values given by said one or more adaptive processing paths. The method comprises examining said set of test output signals, and forming a test result on the basis of said examining, and using said test result to select and set an operating parameter value for said operating parameter.

Systems and methods disclosed herein provide for automatically diagnosing mis-compares detected during simulation of Automatic Test Pattern Generation (ATPG) generated test patterns. Embodiments of the systems and methods provide for determining the origin of a mis-compare based on an analysis of the generated test patterns with a structural simulator and a behavioral simulator.

Described is an apparatus which comprises: a state detector which is operable to detect logic states of zero and one in response to a clock edge; and an error detector coupled to the state detector, wherein the error detector is to detect an error in the detected logic states.

Described is an apparatus which comprises: a state detector which is operable to detect logic states of zero and one in response to a clock edge; and an error detector coupled to the state detector, wherein the error detector is to detect an error in the detected logic states.

An integrated circuit includes combinational logic with flip-flops, parallel scan paths with a scan input for receiving test stimulus data to be applied to the combinational logic, combinational connections with the combinational logic for applying stimulus data to the combinational logic and receiving response data from the combinational logic, a scan output for transmitting test response data obtained from the combinational logic, and control inputs having an enable input and a select input for operating the parallel scan paths, each scan path includes flip-flops of the combinational logic that, in a test mode, are connected in series, compare circuitry indicates the result of a comparison of the received test response data and the expected data at a fail flag output, and one of the scan paths includes a scan cell having an input coupled to the fail flag output.

An integrated circuit includes combinational logic with flip-flops, parallel scan paths with a scan input for receiving test stimulus data to be applied to the combinational logic, combinational connections with the combinational logic for applying stimulus data to the combinational logic and receiving response data from the combinational logic, a scan output for transmitting test response data obtained from the combinational logic, and control inputs having an enable input and a select input for operating the parallel scan paths, each scan path includes flip-flops of the combinational logic that, in a test mode, are connected in series, compare circuitry indicates the result of a comparison of the received test response data and the expected data at a fail flag output, and one of the scan paths includes a scan cell having an input coupled to the fail flag output.

An input/output (I/O) sensor for a multi-IC module. The I/O sensor includes: delay circuitry, configured to receive a data signal from an interconnected part of an IC of the multi-IC module and to generate a delayed data signal, the delay circuitry including an adjustable delay-line configured to delay an input signal by a set time duration; a comparison circuit, configured to generate a comparison signal by comparing the data signal with the delayed data signal; and processing logic, configured to set the time duration of the adjustable delay-line and, based on the comparison signal, identify a margin measurement of the data signal for determining an interconnect quality parameter.

An input/output (I/O) sensor for a multi-IC module. The I/O sensor includes: delay circuitry, configured to receive a data signal from an interconnected part of an IC of the multi-IC module and to generate a delayed data signal, the delay circuitry including an adjustable delay-line configured to delay an input signal by a set time duration; a comparison circuit, configured to generate a comparison signal by comparing the data signal with the delayed data signal; and processing logic, configured to set the time duration of the adjustable delay-line and, based on the comparison signal, identify a margin measurement of the data signal for determining an interconnect quality parameter.