1. Dynamic and Pass-Transistor Logic� Prof. Vojin G. Oklobdzija
References (used for creation of the presentation material):
Masaki, “Deep-Submicron CMOS Warms Up to High-Speed Logic”, IEEE Circuits and Devices Magazine, November 1992.
Krambeck, C.M. Lee, H.S. Law, “High-Speed Compact Circuits with CMOS”, IEEE Journal of Solid-State Circuits, Vol. SC-13, No 3, June 1982.
V.G. Oklobdzija, R.K. Montoye, “Design-Performance Trade-Offs in CMOS-Domino Logic”, IEEE Journal of Solid-State Circuits, Vol. SC-21, No 2, April 1986.
2. Prof. V.G. Oklobdzija
Advanced Digital Integrated Circuits 2 References: Goncalves, H.J. DeMan, “NORA: A Racefree Dynamic CMOS Technique for Pipelined Logic Structures”, IEEE Journal of Solid-State Circuits, Vol. SC-18, No 3, June 1983.
L.G. Heller, et al, “Cascode Voltage Switch Logic: A Differential CMOS Logic Family”, in 1984 Digest of Technical Papers, IEEE International Solid-State Circuits Conference, February 1984.
L.C.M.G. Pfennings, et al, “Differential Split-Level CMOS Logic for Subnanosecond Speeds”, IEEE Journal of Solid-State Circuits, Vol. SC-20, No 5, October 1985.
K.M. Chu, D.L. Pulfrey, "A Comparison of CMOS Circuit Techniques: Differential Cascode Voltage Switch Logic Versus Conventional Logic", IEEE Jouirnal of Solid-State Circuits, Vol. SC-22, No.4, August 1987.
3. Prof. V.G. Oklobdzija
Advanced Digital Integrated Circuits 3 References: Pass-Transistor Logic:
S. Whitaker, “Pass-transistor networks optimize n-MOS logic”, Electronics, September 1983.
K. Yano, et al, “A 3.8-ns CMOS 16x16-b Multiplier Using Complementary Pass-Transistor Logic”, IEEE Journal of Solid-State Circuits, Vol. 25, No 2, April 1990.
K. Yano, et al, “Lean Integration: Achieving a Quantum Leap in Performance and Cost of Logic LSIs", Proceedings of the Custom Integrated Circuits Conference, San Diego, California, May 1-4, 1994.
M. Suzuki, et al, “A 1.5ns 32b CMOS ALU in Double Pass-Transistor Logic”, Journal of Solid-State Circuits, Vol. 28. No 11, November 1993.
N. Ohkubo, et al, “A 4.4-ns CMOS 54x54-b Multiplier Using Pass-transistor Multiplexer”, Proceedings of the Custom Integrated Circuits Conference, San Diego, California, May 1-4, 1994.
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Advanced Digital Integrated Circuits 4 References:
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Advanced Digital Integrated Circuits 5 Dynamic CMOS Logic
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Advanced Digital Integrated Circuits 6 Dynamic CMOS Latch (a), Dynamic CMOS Master-Slave Latch (b)
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Advanced Digital Integrated Circuits 7 Dynamic Manchester Carry Chain
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Advanced Digital Integrated Circuits 8 Radiation induced charge
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Advanced Digital Integrated Circuits 9 Accidental charge caused by capacitive or inductive coupling between the signal lines Y and Z. (a) �Prevention by inserting and inverter between the affected line and the pass-transistor switch (b)
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Advanced Digital Integrated Circuits 10 CMOS Domino Logic
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Advanced Digital Integrated Circuits 11 CMOS Domino Logic
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Advanced Digital Integrated Circuits 12 CMOS Domino Logic Operation
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Advanced Digital Integrated Circuits 13 CMOS Domino Logic: Charge Re-Distribution
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Advanced Digital Integrated Circuits 14 Variations of CMOS Domino Logic:�NORA Logic
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Advanced Digital Integrated Circuits 15 CVS and DCVS Logic�IBM�(Heller et al. 1984)
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Advanced Digital Integrated Circuits 16 Cascode Voltage Switch Logic CVS�IBM
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Advanced Digital Integrated Circuits 17 DCVS Logic (IBM)
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Advanced Digital Integrated Circuits 18 DCVS Logic (IBM)
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Advanced Digital Integrated Circuits 19 DCVS Logic vs CMOS
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Advanced Digital Integrated Circuits 20 Transistor sharing in DCVS Logic: Implementation of 3-input XOR function
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Advanced Digital Integrated Circuits 21 Switching Asymmetry in DCVSL
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Advanced Digital Integrated Circuits 22 Pass-Transistor Logic
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Advanced Digital Integrated Circuits 23 Pass-Transistor Logic
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Advanced Digital Integrated Circuits 24 Pass-Transistor Logic
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Advanced Digital Integrated Circuits 25 Pass-Transistor Logic
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Advanced Digital Integrated Circuits 26 Pass-Transistor Logic
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Advanced Digital Integrated Circuits 27 Pass-Transistor Logic
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Advanced Digital Integrated Circuits 28 Complementary Pass-Transistor Logic (CPL)
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Advanced Digital Integrated Circuits 29 Basic logic functions in CPL
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Advanced Digital Integrated Circuits 30 CPL Logic
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Advanced Digital Integrated Circuits 31 CPL Inverter
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Advanced Digital Integrated Circuits 32 Double Pass-Transistor Logic (DPL):
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Advanced Digital Integrated Circuits 33 Double Pass-Transistor Logic (DPL):
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Advanced Digital Integrated Circuits 34 Double Pass-Transistor Logic (DPL):
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Advanced Digital Integrated Circuits 35 Formal Method for CPL Logic Derivation�Markovic et al. 2000
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Advanced Digital Integrated Circuits 36 Formal Method for P-T Logic Derivation
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Advanced Digital Integrated Circuits 37 Derivation of P-T Logic
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Advanced Digital Integrated Circuits 38 Derivation of CPL Logic
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Advanced Digital Integrated Circuits 39 Derivation of CPL Logic
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Advanced Digital Integrated Circuits 40 Synthesis of three-input CPL logic
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Advanced Digital Integrated Circuits 41 Double Pass-Transistor Logic (DPL): �Synthesis Rules
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Advanced Digital Integrated Circuits 42 Double Pass-Transistor Logic (DPL): �Synthesis Rules
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Advanced Digital Integrated Circuits 43 DPL Synthesis:
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Advanced Digital Integrated Circuits 44 DPL Synthesis: OR/NOR circuit
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Advanced Digital Integrated Circuits 45 DPL Synthesis:
