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A question in computer structures,

Build a full adder using 2 4:2:1 MUXes and the constants 0 and 1. Use minimum amount of constants.

Obviously this question is solvable using not gates too, but I am interested in the question without them.

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Is this homework? – Jeremiah Willcock Mar 10 '11 at 16:16
By 4:2:1 mux, do you mean something with four inputs, two control bits, and one output? – Jeremiah Willcock Mar 10 '11 at 16:18
Yes it is, 4 inputs, 2 control and 1 output. – Vadiklk Mar 10 '11 at 16:21
Are you sure you don't get to use NOT gates? – Jeremiah Willcock Mar 10 '11 at 16:52
Yes, nothing but that. – Vadiklk Mar 10 '11 at 16:53

4 Answers 4

up vote 2 down vote accepted

If you mean a four-input mux, you can do (to add a, b, and c):

carry = mux(/* controls */ a, b, /* inputs */ 0, c, c, 1);

I'm not sure how to get sum without some other gate. One option is (with AND and OR):

sum = mux(/* controls */ carry, a, /* inputs */ b|c, 0, 1, b&c);

With XOR (probably obvious):

sum = mux(/* controls */ a, b^c, /* inputs */ 0, 1, 1, 0);

Here's a sketch of why you can't do it with two muxes:

Since you have two muxes and two outputs, each mux must produce one output; thus, you need to compute sum from carry or compute carry from sum. You can't compute sum with just the three inputs without a NOT gate, and so you need to compute carry first. You can do that; then you need to get sum from the inputs and carry. Since the inputs are symmetric, the mux for sum can have its controls be either two inputs or one input and carry. The first case fails for the same reason that you can't compute sum first. Looking at the truth table and all possible combinations of carry and one input (call it a), there is no way to compute sum uniquely for the case where carry and a are the same using only one variable or constant as the input to each data input of the sum mux.

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Thanks for the try, but I can do any one of them with the use of only 2 MUXes but, that is exactly the problem. I need more MUXes or not gates. – Vadiklk Mar 10 '11 at 16:24
See the latest edits; I think I put down basically all of the combinations. – Jeremiah Willcock Mar 10 '11 at 17:04
Basically you are saying that it is impossible? – Vadiklk Mar 10 '11 at 17:17
@Vadiklk: I think so, at least with only two muxes and no other gates. For tests, though, you might want to put down what you can do (carry with one mux, sum with two muxes or one mux and some other gate) to get at least partial credit. – Jeremiah Willcock Mar 10 '11 at 17:22
Thanks, I was 99% sure it is impossible just wanted to be sure. – Vadiklk Mar 10 '11 at 17:25

I just wrote a simple little C# program to check every possible input combination, and it fails to find a solution. So, unless I made some kind of program error, there is no solution to this problem.

using System;

class Program
    static void Main(string[] args)
        bool[] aValues = new bool[] { false, false, false, false, true, true, true, true };
        bool[] bValues = new bool[] { false, false, true, true, false, false, true, true };
        bool[] cValues = new bool[] { false, true, false, true, false, true, false, true };
        bool[] carryValues = new bool[] { false, false, false, true, false, true, true, true };
        bool[] constantFalse = new bool[] { false, false, false, false, false, false, false, false };
        bool[] constantTrue = new bool[] { true, true, true, true, true, true, true, true };

        bool[] sumValues = new bool[] { false, true, true, false, true, false, false, true };

        bool[][] allInputs = new bool[][] { aValues, bValues, cValues, carryValues, constantFalse, constantTrue };

        for (int controlOneIndex = 0; controlOneIndex < allInputs.Length; controlOneIndex++)
            for (int controlTwoIndex = 0; controlTwoIndex < allInputs.Length; controlTwoIndex++)
                for (int inputOneIndex = 0; inputOneIndex < allInputs.Length; inputOneIndex++)
                    for (int inputTwoIndex = 0; inputTwoIndex < allInputs.Length; inputTwoIndex++)
                        for (int inputThreeIndex = 0; inputThreeIndex < allInputs.Length; inputThreeIndex++)
                            for (int inputFourIndex = 0; inputFourIndex < allInputs.Length; inputFourIndex++)
                                for (int calculationIndex = 0; calculationIndex < sumValues.Length; calculationIndex++)
                                    if (MuxResult(allInputs[controlOneIndex][calculationIndex],
                                                allInputs[inputFourIndex][calculationIndex]) != sumValues[calculationIndex])
                                        goto tryNextValue;
                                Console.WriteLine("Success: controls: {0} {1}   inputs: {2} {3} {4} {5}",
                                    controlOneIndex, controlTwoIndex, inputOneIndex, inputTwoIndex, inputThreeIndex, inputFourIndex);
                            tryNextValue: ;

    private static bool MuxResult(bool controlOne, bool controlTwo, bool inputOne, bool inputTwo, bool inputThree, bool inputFour)
        if (controlOne)
            if (controlTwo)
                return inputFour;
                return inputTwo;
            if (controlTwo)
                return inputThree;
                return inputOne;
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Sorry, you were 20 seconds late to get the "right answer", you deserve a vote up at least. – Vadiklk Mar 10 '11 at 17:28
A B Cin S cout
0 0 0   0 0
0 0 1   1 0
0 1 0   1 0
0 1 1   0 1
1 0 0   1 0
1 0 1   0 1
1 1 0   0 1
1 1 1   1 1

By taking A, as the selection line to two 2*1 muxs we have in the first mux in input number 0 B XOR Cin in input number 1 B XNOR Cin -> this mux for S in the second mux in input number 0 we have B AND Cin in input number 1 we have B OR Cin -> this for Cout .

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A Full adder in VB

Class fullAdder

    Private _A As Boolean
    Private _B As Boolean
    Private _Cin As Boolean
    Private _Sum As Boolean
    Private _Cout As Boolean

    Public Sub New()
        Me.A = False
        Me.B = False
        Me.Cin = False
    End Sub

    Public Sub SetInputs(a As Boolean, b As Boolean, cIn As Boolean)
        Me.A = a
        Me.B = b
        Me.Cin = cIn
    End Sub

    'Inputs           Outputs
    'A  B  Cin        Cout  S
    '0  0   0         0     0
    '1  0   0         0     1
    '0  1   0         0     1
    '1  1   0         1     0
    '0  0   1         0     1
    '1  0   1         1     0
    '0  1   1         1     0
    '1  1   1         1     1 

    Public Sub DoAdd()
        Dim ABxor As Boolean = Me.A Xor Me.B
        Me.Sum = ABxor Xor Me.Cin
        Dim ABxorAndCin As Boolean = ABxor And Me.Cin
        Dim ABand As Boolean = Me.A And Me.B
        Me.Cout = ABxorAndCin Or ABand
    End Sub

    Private Sub debugIn()
        Debug.WriteLine("'I {0} {1} {2}", Me.A, Me.B, Me.Cin)
    End Sub

    Private Sub debugOut()
        Debug.WriteLine("'O {0} {1}", Me.Cout, Me.Sum)
    End Sub

    Public Property Sum() As Boolean
            Return Me._Sum
        End Get
        Set(ByVal value As Boolean)
            Me._Sum = value
        End Set
    End Property

    Public Property Cout() As Boolean
            Return Me._Cout
        End Get
        Set(ByVal value As Boolean)
            Me._Cout = value
        End Set
    End Property

    Public Property A() As Boolean
            Return Me._A
        End Get
        Set(ByVal value As Boolean)
            Me._A = value
        End Set
    End Property

    Public Property B() As Boolean
            Return Me._B
        End Get
        Set(ByVal value As Boolean)
            Me._B = value
        End Set
    End Property

    Public Property Cin() As Boolean
            Return Me._Cin
        End Get
        Set(ByVal value As Boolean)
            Me._Cin = value
        End Set
    End Property

End Class
share|improve this answer
Down vote? Why? No comment. – dbasnett Mar 15 '11 at 16:33
Could you write it in a way the one with the right answer wrote it? – Vadiklk Mar 15 '11 at 19:00
So you want me to duplicate the code that is already written? This was just meant to be a full adder simulation. – dbasnett Mar 15 '11 at 21:42
I do not understand how does this look in a computer structure way. – Vadiklk Mar 16 '11 at 4:10

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