Correlation between predicted cause of SRAM failures and in-line defect data

A correlation has been made between the bitmap data from an SRAM and the in-line defect data as measured on a KLA2122 and Tencor7700. The SRAM was a dedicated design for yield enhancement in a 0.35 mum technology. Extra design features were added to encourage the change of having defect on particular places and discourage it on safe designed places. From the failure signature of a memory cell (0 or 1) and its failure extent (single cell, double cell, bitline, wordline (WL),...) one can predict the process-related cause of the failure. A special test program has been written which translates the electrical data from the failing cells into its process defect. The failing bits from the SRAM have been transferred into a KLA results file and added as an extra inspection to the defect database. With a defect source analysis it was possible to find out if the electrical failing bits were seen as a defect in the line and at which steps. With this analysis it is possible to find out if the predicted cause of the process defects from the test program is confirmed by the performed in-line inspections. With an intensive inspection plan about half of the electrical defects were seen in the line. For a large amount of these defects their predicted cause are indeed matching with the inspected layer. Moreover, quite some unknown failures can be explained by the in-line inspections. This correlation work makes it possible to prioritize in tackling the most killing defect sources. (C) 2001 Elsevier Science Ltd. All rights reserved.