Abstract: A method and system for locating connector defects in a defective scan chain that has a parallel non-defective scan chain on a different wiring level, with both scan chains being laid out in a regular array pattern. A predetermined bit sequence is scanned into the defective scan chain. The contents of the defective scan chain are then parallel shifted into the non-defective scan chain. The contents of the non-defective scan chain is then scanned out and compared with the predetermined bit sequence. The comparison of the scanned out bits with the predetermined bit sequence facilitates locating both physically and logically where a connector defect has occurred in the defective scan chain.

Abstract: A method and system for locating connector defects in a defective scan chain that has a parallel non-defective scan chain on a different wiring level, with both scan chains being laid out in a regular array pattern. A predetermined bit sequence is scanned into the defective scan chain. The contents of the defective scan chain are then parallel shifted into the non-defective scan chain. The contents of the non-defective scan chain is then scanned out and compared with the predetermined bit sequence. The comparison of the scanned out bits with the predetermined bit sequence facilitates locating both physically and logically where a connector defect has occurred in the defective scan chain.

Abstract: A scan architecture for testing integrated circuit chips containing scannable memory devices, such as register arrays, is operable in a bypass mode during which only a small portion of the memory cells in each device or array is inserted in the scan path to substantially reduce scan path length, test time and test data volume during testing of other logic components in the circuit chip. Additional decoder logic is employed to select a small number of words in the device or array during the scan-bypass mode, and multiplexor circuitry removes the bypassed words from the scan path. By leaving the small number of the register array words in the scan path, observability of logic upstream of the array, and controllability of logic downstream of the array, is preserved during the bypass mode without the need for additional shift register latches and other external logic components.

Abstract: A scan architecture for testing integrated circuit chips containing scannable memory devices, such as register arrays, is operable in a bypass mode during which only a small portion of the memory cells in each device or array is inserted in the scan path to substantially reduce scan path length, test time and test data volume during testing of other logic components in the circuit chip. Additional decoder logic is employed to select a small number of words in the device or array during the scan-bypass mode, and multiplexor circuitry removes the bypassed words from the scan path. By leaving the small number of the register array words in the scan path, observability of logic upstream of the array, and controllability of logic downstream of the array, is preserved during the bypass mode without the need for additional shift register latches and other external logic components.