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5

Here the fundamental issue is actually in the call to pdgbinfo, which was never really meant to be called from C (it's in TESTING, after all); the issue is the strings, which are in fact passed differently from the numeric arrays -- lengths are always passed (so that you can print them, for instance). You can mock that up on the C side, but it'll be ...


4

Right - I solved this. Here's what you have to do (I checked the result of the modified MPI program against a Cholesky decomp of your matrix in Octave -- it works.). I found the following LAPACK reference by IBM to be more helpful than the one in your link: ...


2

I got it right by changing the "int" into "long" and "double" into "long double" another method I tried that works is to link the libraries statically. mpicc -w -o a a.c -L$MKLPATH -I$IMKLPATH -Wl,--start-group $MKLPATH/libmkl_scalapack.a $MKLPATH/libmkl_blacs_openmpi_lp64.a $MKLPATH/libmkl_intel_lp64.a $MKLPATH/libmkl_intel_thread.a ...


2

If your matrix is sparse, i.e. it contains a lot of zero entries, then you can easily implement many sparse matrix algebra packages without too much trouble. Unfortunately this will require you to store your matrices in sparse format which, to my knowledge, gsl does not do. Once you have your matrix stored in some sparse format, you should be able to ...


2

Two useful references: IBM Parallel ESSL PDSYEVD documentation Intel LAPACK DSYEVD documentation I believe the behavior described in the IBM docs matches ScaLAPACK, while being much more completely documented. For work, lwork, iwork, etc: set lwork=0 and they should be allocated internally by the subroutine as needed, no need to pass them in. For ...


1

Apparently it's not included for OS X. I looked on my machine and couldn't find it included with ifort or MKL. So I did some searching. Intel Documentation ScaLAPACK routines are provided only with IntelĀ® MKL versions for Linux* and Windows* OSs.


1

I don't know the answer, and I would hazard a guess that the set of people that participate in SO and those who know the answer to your question is < 1. However, I'd suggest that you might have slightly better luck asking on scicomp or by contacting the ScaLAPACK team at the University of Tennessee directly through their support page. Good luck!


1

I used the following declarations for ScaLAPACK procedures: extern "C" void pdgesvd_(char *jobu, char *jobvt, int *M, int *N, double *A, int *ia, int *ja, int *desca, double *s, double *u, int *iu, int *ju, int *descu, double *vt, int *ivt, int *jvt, int *descvt, double *work, int *lwork, int *info); extern "C" void pdgemv_(char *t, int *M, int ...


1

Have you tried Intel MKL? It includes its own parallel versions of blas functions. Last time I tried, they're pretty darn fast. But it would also be easier to answer if you'd give info on size of matrix, but as long as you're running x64, many CPUs/cores and with much RAM, well, it doesn't really matter then. Another option is nVidia CUDA. Their interface ...



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