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A wire segment equalizes the signal between two wire nodes,and a wire node equalizes the signal between several wire segments and component i/o.If they cannot equalize the signal(for example if two component outputs are connected and one of them is 164 and the second one is 17) a conflict will happen.In real life when a conflict happens there will be a) lots of current means lots of heat b) failure of attempt to be bistable(i.e converging onto a certain binary value,instead of somewhere in between),but in TC it just gives a [[Short Circuit]] error and stops the clock(because it is usually undesired unless you know how the transistors work and you are working with an analog circuit rather than a digital one) | A wire segment equalizes the signal between two wire nodes, and a wire node equalizes the signal between several wire segments and component i/o. If they cannot equalize the signal (for example if two component outputs are connected and one of them is 164 and the second one is 17) a conflict will happen. In real life when a conflict happens there will be a) lots of current means lots of heat b) failure of attempt to be bistable (i.e converging onto a certain binary value, instead of somewhere in between), but in TC it just gives a [[Short Circuit]] error and stops the clock/simulation (because it is usually undesired unless you know how the transistors work and you are working with an analog circuit rather than a digital one). | ||
A wire node/segment can carry a value or not(not carrying a value is also called Hi-Z where Z means impedance.When "this (bundle of) wire has a lot of impedance" is the most you can specify,it won't be carrying a value,otherwise you would be saying that value).When it is not carrying a value,other things can overwrite it.Wires start at Hi-Z state until connected. | A wire node/segment can carry a value or not (not carrying a value is also called Hi-Z where Z means impedance. When "this (bundle of) wire has a lot of impedance" is the most you can specify, it won't be carrying a value, otherwise you would be saying that value). When it is not carrying a value, other things can overwrite it. Wires start at Hi-Z state until connected. | ||
Although in real life a bundle of wires can have some wires Hi-Z and some others tied to a certain potential(having value),it is undesired when the bundle of wires represents a number or anything that only represents one thing.So TC doesn't allow that.Additionally,TC makes all Hi-Z 0 if fed into/out of a component(for example,when inputting to most parts, | Although in real life a bundle of wires can have some wires Hi-Z and some others tied to a certain potential (having value), it is undesired when the bundle of wires represents a number or anything that only represents one thing. So TC doesn't allow that. Additionally, TC makes all Hi-Z 0 if fed into/out of a component (for example, when inputting to most parts, outputting from a non-switching output, or a switched on switching output). |
Latest revision as of 13:23, 30 August 2024
A wire segment equalizes the signal between two wire nodes, and a wire node equalizes the signal between several wire segments and component i/o. If they cannot equalize the signal (for example if two component outputs are connected and one of them is 164 and the second one is 17) a conflict will happen. In real life when a conflict happens there will be a) lots of current means lots of heat b) failure of attempt to be bistable (i.e converging onto a certain binary value, instead of somewhere in between), but in TC it just gives a Short Circuit error and stops the clock/simulation (because it is usually undesired unless you know how the transistors work and you are working with an analog circuit rather than a digital one).
A wire node/segment can carry a value or not (not carrying a value is also called Hi-Z where Z means impedance. When "this (bundle of) wire has a lot of impedance" is the most you can specify, it won't be carrying a value, otherwise you would be saying that value). When it is not carrying a value, other things can overwrite it. Wires start at Hi-Z state until connected.
Although in real life a bundle of wires can have some wires Hi-Z and some others tied to a certain potential (having value), it is undesired when the bundle of wires represents a number or anything that only represents one thing. So TC doesn't allow that. Additionally, TC makes all Hi-Z 0 if fed into/out of a component (for example, when inputting to most parts, outputting from a non-switching output, or a switched on switching output).