A scheme for on-chip timing characterization

We present a novel technique for performing post-silicon timing characterization, i.e., delay fault test and debug, using on-chip delay measurement of critical paths in Integrated Circuits. In Deep Submicron technologies, timing related failures have become a major source of defective silicon, making it imperative to carry out efficient delay fault testing on such chips. In addition to test, there is also a need for an efficient and systematic silicon debug methodology for timing related failures. Existing timing characterization strategies are not effective in Deep Submicron technologies due to limitations on controllability and observability. The proposed technique uses a novel scheme to perform on-chip delay measurement and thus facilitate quick and efficient testing and debugging of delay faults in chips. The scheme has minimal hardware overhead and is robust in face of process variations.

[1]  J. Kostamovaara,et al.  A low-power CMOS time-to-digital converter , 1995 .

[2]  Yu Cao,et al.  New paradigm of predictive MOSFET and interconnect modeling for early circuit simulation , 2000, Proceedings of the IEEE 2000 Custom Integrated Circuits Conference (Cat. No.00CH37044).

[3]  Keith Baker,et al.  Defect-based delay testing of resistive vias-contacts a critical evaluation , 1999, International Test Conference 1999. Proceedings (IEEE Cat. No.99CH37034).

[4]  William Lindsay,et al.  FRITS - a microprocessor functional BIST method , 2002, Proceedings. International Test Conference.

[5]  G. Ono,et al.  A 1000-MIPS/W microprocessor using speed adaptive threshold-voltage CMOS with forward bias , 2000, 2000 IEEE International Solid-State Circuits Conference. Digest of Technical Papers (Cat. No.00CH37056).

[6]  Poki Chen,et al.  A CMOS pulse-shrinking delay element for time interval measurement , 2000 .

[7]  Ali Keshavarzi,et al.  View from the bottom: nanometer technology AC parametric failures - why, where, and how to detect , 2003, Proceedings 18th IEEE Symposium on Defect and Fault Tolerance in VLSI Systems.

[8]  Wayne M. Needham,et al.  DFT strategy for Intel microprocessors , 1996, Proceedings International Test Conference 1996. Test and Design Validity.

[9]  Ali Keshavarzi,et al.  Parametric failures in CMOS ICs - a defect-based analysis , 2002, Proceedings. International Test Conference.

[10]  Kenneth M. Butler,et al.  Facilitating rapid first silicon debug , 2002, Proceedings. International Test Conference.

[11]  Jacob A. Abraham,et al.  Delay fault testing and silicon debug using scan chains , 2004, Proceedings. Ninth IEEE European Test Symposium, 2004. ETS 2004..

[12]  Jacob A. Abraham,et al.  On-chip delay measurement for silicon debug , 2004, GLSVLSI '04.

[13]  Kaushik Roy,et al.  A Novel Delay Fault Testing Methodology Using On-chip Low-overhead Delay Measurement Hardware at Strategic Probe Points , 2005 .