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There are two issues, one of them is undefined behavior, the other one probably just a minor oversight in reading the documentation: for (i = 0;i < 10;i++){ printf ("%d ",x[i]); } You use the format specifier %d for a double value. Use %f instead. for (i = 0;i < 10;i++){ printf ("%f ",x[i]); // ^ } Also, ...


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The obvious solution is to symmetrize the matrix by a "home-made/diy" code, the risk being to re-invent the wheel. It is pretty easy to write the for loops needed to symmetrize the matrix after dtpttr. for(i=0;i<n;i++){ for(j=i+1;j<n;j++){ a[i*n+j]=a[j*n+i]; } } Is it efficient enough for your application ? On a 10000x10000 matrix, these for ...


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I followed the exactly Windows Tutorial of CVXOPT but I was having the "cannot find -lblas" and "cannot find -llapack" issues too. What solved for me was instead of writing BLAS_LIB_DIR = ‘.’ I wrote: BLAS_LIB_DIR = ‘src’ And it worked. :)


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You are right, the problem is in incx value - it should be 1, take a look at reference. INCX is INTEGER On entry, INCX specifies the increment for the elements of X. INCX must not be zero. So this value should be used when values of vector x is not placed one by one (vector of complex values for example, when you want to use only real part). Also ...


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One of the problems is that the expression TRANSFER (RWORK(1:2*N), (/ (ZERO, ZERO) /), N) returns a rank-1 array of complex numbers with N elements -- that's what the argument N specifies. Then, the assignment Y_TAIL_ATE = TRANSFER (RWORK(1:2*N), (/ (ZERO, ZERO) /), N) attempts to assign an N element array to a 2*N element array and Fortran won't do ...


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I have changed the timing function to system_clock() and result turns out to be (I run it five times in one program) Time for Multiplication: 92ms Time for Multiplication: 92ms Time for Multiplication: 89ms Time for Multiplication: 85ms Time for Multiplication: 94ms It is approximate as Numpy, but still about 20% slower than ...


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BLAS was designed to provide low-level routines necessary to implement common linear-algebra operations (it is the "Basic Linear Algebra Subprograms", after all). To name just one of many uses, getting the largest-magnitude element of a vector is necessary for pivot selection in LU factorization, which is one of the most fundamental workhorses of linear ...


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The BLAS library is a scientific computing library and it was designed in parallel with LAPACK. The ISAMAX subroutine utilizes the infinity norm of a vector. For more information you can refer to wikipedia's link. Many LAPACK algorithms need the infinity norm, so BLAS library defined this standard subroutine. On the other hand, the maximum value of a vector ...


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The segfault seems to be caused by the fact that Matlab uses 64bits integers (long long or int64_t) in its bundled LAPACK and BLAS libraries. Armadillo on the other hand, uses 32bits integers (regular int on a 64bits platform, or int32_t) by default. There are two solutions; the first one involves forcing Matlab to link to the system's libraries instead ...


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You're running into several issues, of which the most important is that Xt[:,i] creates a new array (allocating memory). Here's a demonstration that gets you closer to what you want: n = 10000; p = 25000 # make normal Arrays x = randn(n,p) y = ones(p) z = zeros(n) # make SharedArrays X = convert(SharedArray, x) Y = convert(SharedArray, y) Z = ...


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If you're like me and have stopped using VS2010 and instead recently upgraded to Visual Studio 2013: here's a link to the BLAS and LAPACK dlls built for this platform. Currently only available for 64 bit though. https://bitbucket.org/aperezrathke/vs-lapack


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You are looking for is BLAS_DIR and LAPACK_DIR variable. set(BLAS_DIR /path/to/blas) find_package(BLAS REQUIRED) set(LAPACK_DIR /path/to/lapack) find_package(LAPACK REQUIRED)



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