The EEE Journal, School of Electrical and Electronic Engineering, Nanyang Technological University

Vol. 7, No. 1, pp. 58-64, July 1995.

A single-engine multi-level simulator, with automatic circuit partitioning, dynamic parameter extraction and mode switching, is described. Its application to modelling GaAs heterostructure field-effect transistor digital circuits is demonstracted in terms of device-, transistor-, circuit-, and gate-level models.

• [1] L. W. Nagel, "SPICE2: A Complete Program to Simulate Semiconductor Circuits," Memorandum ERL-M520, University of California, Berkeley, May 1975.
• [2] A. Davis, "Implicit Mixed-Mode Simulation of VLSI Circutis," Ph.D. thesis, University of Rochester, New York, 1991.
• [3] K. Lee, M. Shur, T. A. Fjeldly, and T. Ytterdal, Semiconductor Device Modeling for VLSI, Prentice-Hall, 1993.
• [4] T. A. Fjeldly and M. Shur, "Unified CAD Models for HFETs and MESFETs," Proc. - 11th European Microwave Conference (Workshop Volume), Stuttgart, pp. 198-205, Sept. 1991.
• [5] T. Tang and X. Zhou, "A Dynamic Delay Model For Mixed Gate/Circuit-Level Simulation of VLSI Circuits," (unpublished).
• [6] T. Tang, X. Zhou, and C. C. Jong, "Mixed-Mode Simulation of High-Speed HFET Logic Circuits," Proc. - 6th International Symposium on Integrated Circuit and Systems (ISIC-95), Singapore, Sept. 1995.

1. [4] X. Zhou and T. Tang, "Modelling and simulation of GaAs high-speed HEMT, HBT, and MESFET analogue/digital circuits," Proc. 7th MINDEF-NTU Joint R&D Seminar, Nanyang Technological University, Singapore, Jan. 1996, pp. 77-83.
2. [2] T. Tang and X. Zhou, "Accurate timing simulation of mixed-signal circuits with a dynamic delay model," Proc. International Workshop on Computer-Aided Design, Test, and Evaluation for Dependability (CADTED), Beijing, July 1996, pp. 309-311.

Fig. 1 Multi-level representation of an HFET.

Fig. 2 The modelled HFET: (a) cross-sectional view, (b) band diagram, and (c) charge distribution.

Fig. 3 The netlist and the circuit for simulating the HFET DC characteristic,

Fig. 4 Simulated DC characteristic (solid lines) and compared with experimental results (symbols).

Fig. 5 The netlist and the circuit for simulating the HFET inverter DC operating point and transfer curve, as well as transient response.

Fig. 6 The calculated HFET E/D inverter DC characteristics with load lines (at different threshold voltages for the depletion-mode transistor).

Fig. 7 The calculated inverter transfer curves (at different threshold voltages for the depletion-mode transistor).

Fig. 8 The calculated inverter transient response.

Fig. 9 The netlist and the circuit for mixed-mode simulation, showing the effect of fanout.

Fig. 10 The calculated transient voltages at the output of U1 for different loads (broken line: one gate; solid line: two gates; dotted line: three gates) in three simulation modes as indicated.

Fig. 11 The calculated transient voltage at the output of U2 for different loads (broken line: one gate; solid line: two gates; dotted line: three gates) in three simulation modes as indicated.