GaAs split phase dynamic logic

Abstract

A novel GaAs dynamic logic gate: split phase dynamic logic (SPDL) is presented in this paper. The logic gate, derived from CMOS domino circuits, uses a split phase inverter to increase output voltage swing and a self-biased transistor to compensate for leakage loss. Compared with current GaAs dynamic logic designs, it offers several distinct advantages including small propagation delay, large output swing, low power dissipation and high process tolerance. The logic gate can be made directly compatible with direct-coupled FET logic (DCFL) and buffered FET logic (BFL) allowing flexible design for a variety of high speed digital applications. Four-bit carry lookahead adders using SPDL were fabricated in a 1 μm non-self aligned GaAs MESFET technology and the critical delays were found to be of the order of 500 ps.