NZP: Difference between revisions

Latest revision as of 23:29, 10 March 2025

Negitive, Zero, Positive logic uses negative voltage, ground, and positive voltage.

This form of ternary logic is possible, but it is not power efficient. A lot of transistors will need to swing the full -V to V range which will drag down clock speeds and increase power usage. Logic zero will likely require voltage dividers which use resisters and create heat.

Revision as of 07:24, 15 September 2024 (view source) MrDyne (talk \| contribs) No edit summary ← Older edit		Latest revision as of 23:29, 10 March 2025 (view source) MrDyne (talk \| contribs) No edit summary
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	Negitive, Zero, Positive logic uses negative voltage, ground, and positive voltage.		Negitive, Zero, Positive logic uses negative voltage, ground, and positive voltage.

	This form of ternary logic is possible but it is not power ~~efferent~~. A lot of transistors will need to swing the full -V to V range which will drag down clock speeds and increase power usage.		This form of ternary logic is possible, but it is not power efficient. A lot of transistors will need to swing the full -V to V range which will drag down clock speeds and increase power usage. Logic zero will likely require voltage dividers which use resisters and create heat.

NZP: Difference between revisions

Latest revision as of 23:29, 10 March 2025

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