Since the 1990s, best argumentation gates are fabricated of CMOS transistors (i.e. NMOS and PMOS transistors are used). Often millions of argumentation gates are packaged in a distinct chip circuit.
There are several argumentation families with altered characteristics (power consumption, speed, cost, size) such as: RDL (resistor-diode logic), RTL (resistor-transistor logic), DTL (diode-transistor logic), TTL (transistor-transistor logic) and CMOS (complementary metal oxide semiconductor). There are additionally sub-variants, e.g. accepted CMOS argumentation vs. avant-garde types application still CMOS technology, but with some optimizations for alienated accident of acceleration due to slower PMOS transistors.
Non-electronic implementations are varied, admitting few of them are acclimated in applied applications. Many aboriginal electromechanical agenda computers, such as the Harvard Mark I, were congenital from broadcast argumentation gates, application electro-mechanical relays. Argumentation gates can be fabricated application aeriform devices, such as the Sorteberg broadcast or automated argumentation gates, including on a atomic scale.7 Argumentation gates accept been fabricated out of DNA (see DNA nanotechnology)8 and acclimated to actualize a computer alleged MAYA (see MAYA II). Argumentation gates can be fabricated from breakthrough automated furnishings (though breakthrough accretion usually diverges from boolean design). Photonic argumentation gates use non-linear optical effects
There are several argumentation families with altered characteristics (power consumption, speed, cost, size) such as: RDL (resistor-diode logic), RTL (resistor-transistor logic), DTL (diode-transistor logic), TTL (transistor-transistor logic) and CMOS (complementary metal oxide semiconductor). There are additionally sub-variants, e.g. accepted CMOS argumentation vs. avant-garde types application still CMOS technology, but with some optimizations for alienated accident of acceleration due to slower PMOS transistors.
Non-electronic implementations are varied, admitting few of them are acclimated in applied applications. Many aboriginal electromechanical agenda computers, such as the Harvard Mark I, were congenital from broadcast argumentation gates, application electro-mechanical relays. Argumentation gates can be fabricated application aeriform devices, such as the Sorteberg broadcast or automated argumentation gates, including on a atomic scale.7 Argumentation gates accept been fabricated out of DNA (see DNA nanotechnology)8 and acclimated to actualize a computer alleged MAYA (see MAYA II). Argumentation gates can be fabricated from breakthrough automated furnishings (though breakthrough accretion usually diverges from boolean design). Photonic argumentation gates use non-linear optical effects
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