This paper presents a new technique for decomposition and technology mapping of speed-independent circuits. An initial circuit implementation is obtained in the form of a netlist of complex gates, which may not be available in the design library. The proposed method iteratively performs Boolean decomposition of each such gate F into a two-input combinational or sequential gate G available in the library and two gates H/sub 1/ and H/sub 2/ simpler than F, while preserving the original behavior and speed-independence of the circuit. To extract functions for H/sub 1/ and H/sub 2/ the method uses Boolean relations as opposed to the less powerful algebraic factorization approach used in previous methods. After logic decomposition, the overall li...