Hello today we are going to go over the logic gates the 16 total and I might have to be quiet because that’s how it is let’s go the most basic logic gate is an i/o gate you give it an input it gives an output really these next four are Easy as well the first one is going to be in naki also known as an inverter it has no input it gives an output it has an input it gives no output a basic they used to this one is a true gate which means no matter what the input is the output is Always on no matter what escaped the same as to gate just knoweth not that whatsoever the next one is an or gate if either input A or B or both it gives the Nugget just like the name next hub is a no gate same as all gate just with An inverted output that’s the in stainless for not so not all and not was inverted so we invert the output so if you got a or B or both is on no output now we could add and straight up easy white and if you input a and and would be all stepping on In order fun output see nothing works but if both on it gives an output not none gave similar and just for the numbered it output so a and B has to be on the no output C I’ve flipped a still in output I flip be still an output but If I flip both there’s no awkward now 2x or like this that’s all it’s exclusive all however you say but what it does is when for the one or a because then output the same no speak gives an output but if both on not good Basically XO as you can only have a one input on in order on output now 4x No that means you start sometimes xnor gate so xnor the same as exhaust just embedded after so and put a tennis of the output and would only be turns Off the advert but if I do both it flips back to on because this is off and then then the birth of tennis at all again now to very very basic gates ah a gate gets further does only input a gets an upper not be while Big Eight Oh wonder what that’ll do Now it’s only input B that gives an output for lift and this is you don’t really use them that much at least I haven’t used them but I’m also going to show your bottom first is a imply B employ be your clipdown a gas and output If they don’t be then it blocks a from giving an accurate until you have to be off again then a works now a name can be again the and stainless but not so inverted Apple we have flipped down a a-10s off the output at a my B if when you flip down The a it gave an apple not an eight nymph I be waiting on this and then nothing works and today does not work one end would be his down now be in Phi a B and fire a this same as a my B inputs I just switched so now we flip B It gives an output if we have flipped down a and then B gives no output and but I laughed today it is being named for a the same as a temp I be just to which that inputs so flip-down be China’s off let down a and B does not work and That’s all sixteen educates I will give and a description of a table of all the truth tables all of this basically what a truth table is let’s take I’ll this civil means that the leather is not turned on so this is a civil leverage and on is a one remembered so we have Civil equals zero this is the input this side is the output so when nothing is being inputted it gives out nothing a civil when one is being input it gets out that the basic truth table and the description I would leave to choose table to all of these and just fly by Them slowly and that’s it I will see you later Video Information
This video, titled ‘Minecraft: Redstone Tutorials – All 16 Logic Gates’, was uploaded by Computteren on 2016-07-08 00:25:40. It has garnered 37011 views and 698 likes. The duration of the video is 00:11:55 or 715 seconds.
As I promised, I would leave all the truth tables for the logic gates down here. Here they are:
I/O Gate 0=0 – 1=1 -Give it an input, and it gives an output.
NOT Gate 0=1 – 1=0 -Give it an input, and it gives the opposite of the input.
True Gate 0=1 – 1=1 -No matter your input, it always returns true.
False Gate 0=0 – 1=0 -No matter your input, it always returns false.
A Gate 0+0=0 – 1+0=1 – 0+1=0 – 1+1=1 -Only input A gives an output.
B Gate 0+0=0 – 1+0=0 – 0+1=1 – 1+1=1 -Only input B gives an output.
OR Gate 0+0=0 – 1+0=1 – 0+1=1 – 1+1=1 -If a OR b OR both inputs are on, it gives an output.
NOR Gate 0+0=1 – 1+0=0 – 0+1=0 – 1+1=0 -If a OR b OR both inputs are on, it gives no output.
AND Gate 0+0=0 – 1+0=0 – 0+1=0 – 1+1=1 -Only if input a AND b is on, it gives an output.
NAND Gate 0+0=1 – 1+0=1 – 0+1=1 – 1+1=0 -Same as AND, but with inverted output.
XOR Gate 0+0=0 – 1+0=1 – 0+1=1 – 1+1=0 -Only allows 1 input to be on at a time for an output.
XNOR Gate 0+0=1 – 1+0=0 – 0+1=0 – 1+1=1 -Same as XOR, but with inverted output.
A Imply B 0+0=0 – 1+0=1 – 0+1=0 – 1+1=0 Input B goes in and blocks the function of input A.
A Nimply B 0+0=1 – 1+0=0 – 0+1=1 – 1+1=1 Input B goes in and blocks the function of input A, just with an inverted output.
B Imply A 0+0=0 – 1+0=0 – 0+1=1 – 1+1=0 Input A goes in and blocks the function of input B.
B Nimply A 0+0=1 – 1+0=1 – 0+1=0 – 1+1=1 Input A goes in and blocks the function of input B, just with an inverted output.