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The '''NAND gate''', is a basic logic gate that produces an output of 0 if and only if all of it inputs are 1. Otherwise it produces an of 1. The significance of the NAND gate, just like the [[NOR gate]], is the fact that it's a universal gate - capable of implementing any [[boolean function]]. Due to that fact, certain optimizations can be done by turning all logic into [[NAND logic]]. In many cases, this operation can reveal redundant NAND gates which can then be eliminated - producing smaller, more compact logic. | The '''NAND gate''', is a basic logic gate that produces an output of 0 if and only if all of it inputs are 1. Otherwise it produces an of 1. The significance of the NAND gate, just like the [[NOR gate]], is the fact that it's a universal gate - capable of implementing any [[boolean function]]. Due to that fact, certain optimizations can be done by turning all logic into [[NAND logic]]. In many cases, this operation can reveal redundant NAND gates which can then be eliminated - producing smaller, more compact logic. | ||