Experimental Characterization-Based Signal Integrity Verification of Sub-Micron VLSI Interconnects

  • Published : 1997.10.01

Abstract

Interconnect characterization on a wafer level was performed. Test patterns for single, two-coupled, and triple-coupled lines ere designed by using 0.5$\mu\textrm{m}$ CMOS process. Then interconnect capacitances and resistances were experimentally extracted by using tow port network measurements, Particularly to eliminate parasitic effects, the Y-parameter de-embedding was performed with specially designed de-embedding patterns. Also, for the purpose of comparisons, capacitance matrices were calculated by using the existing CAD model and field-solver-based commercial simulator, METAL and MEDICI. This work experimentally verifies that existing CAD models or parameter extraction may have large deviation from real values. The signal transient simulation with the experimental data and other methodologies such as field-solver-based simulation and existing model was performed. as expected, the significantly affect on the signal delay and crosstalk. The signal delay due to interconnects dominates the sub-micron-based a gate delay (e.g., inverter). Particularly, coupling capacitance deviation is so large (about more than 45% in the worst case) that signal integrity cannot e guaranteed with the existing methodologies. The characterization methodologies of this paper can be very usefully employed for the signal integrity verification or he electrical design rule establishments of IC interconnects in the industry.

Keywords

References

  1. IEEE Proceedings of the 1990 NMIC DesignaGuide Line for Deep Sub-Micrometer Interconnectios U.Uskiku;H.Kushibe;H.Ono
  2. IEDM 1992 Short course: Interconnets for the 90s Interconnect for the 90s: Aluminun Based Multilevel Interconnects and FutureDirections Arjun N.Saxena
  3. IEDM 1992 Short course: Interconnets for the 90s Interconnect for the 90s: system Level ElectronicIssuse H.B.Bakoglu
  4. IEEE Trans. MTT. v.37 no.3 Modeling od Picosecond Plus Propagation in Microstrip Interconnections on Integrated Circuits K.W.Goosen;R.B.Hamond
  5. IEEE Trans. CAD v.16 no.1 Transmission Line Synthesis via Constrained Multivariable Optimization R.Gupta;B.Krauter;L.T.Pileggi
  6. IEEE Trans. CAD v.16 no.1 The Elmore Delayas a Bound for RC Treeswith Generalized Input Signals R.Gupta;B.Ththianu;L.T.Pieggi
  7. IEEE Trans. MTT. v.MTT-18 no.1 Calcultation of Coefficents of Capacitance of a Dielectric Interface W.T.Weeks
  8. IEEE EDL v.13 no.1 J.H.Chem(et al). Multilevel Metal Capacitance Model for CAD Design Synthesis Systems
  9. IEEE Trans. CHMT v.13 no.4 Measured Capcitance Confficients of Multiconductor Microstrip Lines with Small Dimensions Mou-shing Lin
  10. IEEE Trans. MTT. v.38 no.4 Capacitance Models for Intgrated Circuit Metalization Wires Albert E. Ruehi;Pierce A. Brennan
  11. IEEE Proceedings of the 1987 BCTM a new Stragihforward Calibration and Correction Procedure for on wafer high Frequency S-Parameter Measurements(45㎒-18㎓) P.J.Van Wijnen;H.R.Cleassen;E.A.Wolshimer
  12. IEEE Trans. ED. v.10 no.1 Closed-From Expressions for Interconnection Delat, Couping, and Vroddtalk in VLSIs T.Sakurai
  13. IEEE Electron Device Letter v.EDL-3 no.12 A Simple formula for the Estimation of the Capcitance of two-Diemensional Interconnects in VLSI Circuits C.P.Yuan;T.N.Trick
  14. IEEE Trans. CPMT v.18 no.1 Simulations and Measurements of picosecond Signal Transients, Propagation, and Crosstalk on Lossy VLSI Onterconnects Y.Eo;W.R.Eisenstadat
  15. IEEE JSSC v.SC-18 The Modeling of Resistive Interconnects for Integrated circuits R.J.Antinone;G.W.Brown