i am sorry there is no tried codes as i really don't konw how to solve and set the
binary logic operation.
How to solve the equation of binary logic operation, where all unknowns are 0 or 1
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For example, I have the following equations, linear equations and nonlinear equations, in which the unknowns can only take 0 or 1, and it is based on this operation rule,
for Addition operation:
1+1=0,1+0=1,0+1=1,0+0=0,
For multiplication operation:
0*0=0,0*1=0,1*0=0,1*1=1
so how to solve the values of all unknowns?
x1+x2+x3+(x4+1)*(x5+x6+1)=x1*x2,
x2+x3+x4+(x5+1)*(x6+x1+1)=x2*x3,
x3+x4+x5+(x6+1)*(x1+x2+1)=x3*x4,
x4+x5+x6+(x1+1)*(x2+x3+1)=x4*x5,
x5+x6+x1+(x2+1)*(x3+x4+1)=x5*x6,
x6+x1+x2+(x3+1)*(x4+x5+1)=x6*x1,
and in fact, the original question consists of 416 equations and 416 variables including form
c0...c31 and x1...x384 which should be only 0 or 1
as i have attached in the
equations.txt
Risposte (1)
Bruno Luong
il 8 Ago 2020
Modificato: Bruno Luong
il 8 Ago 2020
[x1,x2,x3,x4,x5,x6]=ndgrid(0:1);
x1 = x1(:);
x2 = x2(:);
x3 = x3(:);
x4 = x4(:);
x5 = x5(:);
x6 = x6(:);
b = [x1+x2+x3+(x4+1).*(x5+x6+1)-x1.*x2, ...
x2+x3+x4+(x5+1).*(x6+x1+1)-x2.*x3, ...
x3+x4+x5+(x6+1).*(x1+x2+1)-x3.*x4, ...
x4+x5+x6+(x1+1).*(x2+x3+1)-x4.*x5, ...
x5+x6+x1+(x2+1).*(x3+x4+1)-x5.*x6, ...
x6+x1+x2+(x3+1).*(x4+x5+1)-x6.*x1 ];
b=mod(b,2);
idx = find(all(b==0,2));
for i=1:length(idx)
k=idx(i);
fprintf('x1=%d,x2=%d,x3=%d,x4=%d,x5=%d,x6=%d\n', x1(k), x2(k), x3(k), x4(k), x5(k), x6(k));
end
Result
x1=1,x2=0,x3=0,x4=0,x5=0,x6=0
x1=0,x2=1,x3=0,x4=0,x5=0,x6=0
x1=0,x2=0,x3=1,x4=0,x5=0,x6=0
x1=0,x2=0,x3=0,x4=1,x5=0,x6=0
x1=0,x2=0,x3=0,x4=0,x5=1,x6=0
x1=0,x2=0,x3=0,x4=0,x5=0,x6=1
x1=1,x2=1,x3=1,x4=1,x5=1,x6=1
5 Commenti
Walter Roberson
il 8 Ago 2020
mathematically, your systems are non-linear, since they have functions of variables being multiplied by functions of variables. In what you posted, the maximum degree is 2, which makes the system "quadratic", and there are techniques for dealing with quadratic functions. Does this extend in general to your equations, that you never "and" more than two variables together ?
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