. . "Freiberg" . "21230" . "Freiberg" . . . . . . "RIV/68407700:21230/06:03121023!RIV07-GA0-21230___" . . "Technische Universit\u00E4t Bergakademie" . . "Kub\u00E1tov\u00E1, Hana" . . "A method allowing us to efficiently group the multi-output Boolean function outputs is presented in this paper. Some kind of decomposition is usually involved in the logic synthesis process. Here the circuit has to be repeatedly divided into subcircuits, until these subcircuits become technological library elements or technology-dependent components, in general. Our output grouping method can be used to compute which functions of a set of Boolean functions could share most of logic. This idea can be exploited in single-level decomposition, where a two-level multi-output circuit is divided into several stand-alone blocks, while retaining their two-level nature. The total size of these circuits should be kept minimal. After such single-level decomposition the circuits are further processed by a common synthesis process." . "107 ; 113" . . "Proceedings of the 7th International Workshop on Boolean Problems" . "Nen\u00ED k dispozici"@cs . . . . "Output Grouping Method Based on a Similarity of Boolean Functions" . "Output Grouping Method Based on a Similarity of Boolean Functions" . "Kubal\u00EDk, Pavel" . . "Minimization, decomposition, on-line testing"@en . "3-86012-287-8" . "3"^^ . . . "3"^^ . "Output Grouping Method Based on a Similarity of Boolean Functions"@en . . "Nen\u00ED k dispozici"@cs . . "P(GA102/04/0737), Z(MSM6840770014)" . "Nen\u00ED k dispozici"@cs . "Output Grouping Method Based on a Similarity of Boolean Functions"@en . "2006-09-21+02:00"^^ . "RIV/68407700:21230/06:03121023" . "Fi1er, Petr" . "[E929693F0EA9]" . . "7"^^ . "491217" . "A method allowing us to efficiently group the multi-output Boolean function outputs is presented in this paper. Some kind of decomposition is usually involved in the logic synthesis process. Here the circuit has to be repeatedly divided into subcircuits, until these subcircuits become technological library elements or technology-dependent components, in general. Our output grouping method can be used to compute which functions of a set of Boolean functions could share most of logic. This idea can be exploited in single-level decomposition, where a two-level multi-output circuit is divided into several stand-alone blocks, while retaining their two-level nature. The total size of these circuits should be kept minimal. After such single-level decomposition the circuits are further processed by a common synthesis process."@en .