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more precision,a problem occured..

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evi
evi am 30 Nov. 2013
Kommentiert: Walter Roberson am 1 Dez. 2013
Which command of matlab can I use so that my variables have more precision?? Because I want to apply the Jacobi method at the Hilbert matrix,but the determinant is zero,because of the limits number of digits...

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Roger Stafford
Roger Stafford am 30 Nov. 2013
Unless you use numbers in the Symbolic Toolbox or perhaps one of John D'Errico's File Exchange programs, there is no matlab command to use more than the 53-bit precision of matlab's double precision floating point numbers.
However, at the Wikipedia site
http://en.wikipedia.org/wiki/Hilbert_matrix
you will find an explicit formula for the elements of the inverse of the Hilbert matrix which might allow you to use ordinary 'double' numbers in applying the Jacobi method (as shown at:
http://en.wikipedia.org/wiki/Jacobi_method.)
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evi
evi am 1 Dez. 2013
Bearbeitet: evi am 1 Dez. 2013
And which command of the Symbolic Toolbox could I use?
I wrote it again,like that: B{i}{j}=((((-1)^(i+j))*(i+j-1))*(nchoosek(250+i-1,250-j))*(nchoosek(250+j-1,250-i))*(((nchoosek(i+j-2,i-1)))^2))
and this is the result I get: ??? Error using ==> nchoosek at 24 The second input has to be a non-negative integer...
Roger Stafford
Roger Stafford am 1 Dez. 2013
To get negative values for your second input to 'nchoosek' would require an i or j out of the [1,250] range. How large did you allow them to get?
That however is not your main difficulty. The number n = 250 is way too large to be used with 'double' floating point. I advise you to use symbolic toolbox numbers which can be very large indeed. I won't undertake to tell you how to do that. You have to devote some time to reading your manuals to know how to make use of them. It requires some considerable study.

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Walter Roberson
Walter Roberson am 1 Dez. 2013
Symbolic toolbox:
Each expression is
syms i j n
(-1).^(i+j) .* (i+j-1) .* nchoosek(n+i-1, n-j) .* nchoosek(n+j-1, n-i) .* nchoosek(i+j-2, i-1).^2
So I suspect you could then use
N = 250;
n = sym(N);
H_1 = sym(zeros(N,N));
for I = 1 : N
i = sym(i);
for J = 1 : N
j = sym(J);
H_1(I,J) = (-1).^(i+j) .* (i+j-1) .* nchoosek(n+i-1, n-j) .* nchoosek(n+j-1, n-i) .* nchoosek(i+j-2, i-1).^2;
end
end
If you ever wanted to convert it from symbolic numbers to decimal numbers, apply double() to it -- but expect round off and maybe overflow as well, if you do that.
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evi
evi am 1 Dez. 2013
Bearbeitet: Walter Roberson am 1 Dez. 2013
I found this:
We demonstrate the use of hardware floats. Hilbert matrices are notoriously ill-conditioned: the computation of the determinant is subject to severe cancellation effects. The following results, both with HardwareFloats as well as with SoftwareFloats, are marred by numerical roundoff:
A := linalg::hilbert(15):
float(numeric::det(A, Symbolic)),
numeric::det(A, HardwareFloats),
numeric::det(A, SoftwareFloats)
.By using this,will I have more precision??If yes,how could I use this??
Walter Roberson
Walter Roberson am 1 Dez. 2013
Note that the code you show her is for running inside MuPAD, not MATLAB directly. See evalin(symengine) and feval(symengine) for information on how you can invoke it from MATLAB.
It appears that you are somehow invoking the numeric nchoosek rather than the symbolic one. Please try some of the examples shown at http://www.mathworks.com/help/symbolic/nchoosek.html and see what happens

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