# Implementing 5-variable function using multiplexers

If I have a 5-variable function (below) and I want to implement it using a multiplexer, how would I do that (using the minimum possible multiplexer):

``````f(A,B,C,D,E) = A + C'D + BD' + B'D + B'CE
``````

This is homework, so don't provide a solution, just a guidance of how that works.

Thanks!

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5 variables means a 2**5 (32) input multiplexer, with inputs 0 through 31. Convert the terms into binary numbers and hold the corresponding inputs high. For `B'CE` we have:

``````A B C D E
X 0 1 X 1
``````

This gives us 4 numbers, since we have 2 don't cares. The four numbers are:

``````00101 = 5
00111 = 7
10101 = 21
10111 = 23
``````

Hold inputs 5, 7, 21, and 23 high.

Repeat for the rest of the terms.

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that doesn't solve the problem though! –  user220755 Jan 24 '10 at 23:29
that doesn't solve the problem, i mean what do i do next? –  user220755 Jan 24 '10 at 23:34
You do that with the rest of the terms, pull the unused ones low, and wire A, B, C, D, and E to CS4, CS3, CS2, CS1, and CS0. –  Ignacio Vazquez-Abrams Jan 24 '10 at 23:50
Once you find all the combinations, would you just put a 1 next to the corresponding input, and a 0 otherwise? –  styfle Apr 21 '11 at 4:06
@styfle: If the inputs are active-high, yes. –  Ignacio Vazquez-Abrams Apr 21 '11 at 4:13

Since you explicitly mention

using the minimum possible multiplexer

there's another way of doing it in which you only need a 2^(n-1) input multiplexer to implement a n input function (so, in your case, a MUX with 2^4 inputs and 4 select inputs would suffice). The idea is to use the first n-1 inputs of the truth table as select inputs for the MUX while the remaining one is connected to the data inputs as appropriate to give the desired result.

Since I can't post images yet, see this for a concrete example: https://www.dropbox.com/s/v8osbd8gtwhtfor/n-1inputmux.png

Or for how to implement simple logic gates with MUXes: https://www.dropbox.com/s/7cqbodha7lcoi9y/n-1inputmuxbasics.png

Sources:

http:// sifaka.uwaterloo.ca/~akenning/courses/ece124/

http:// 6004.mit.edu/

(I can't post more than two real links...)

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