Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'd like to convert Octave to use CuBLAS for matrix multiplication. This video seems to indicate this is as simple as typing 28 characters:

Using CUDA Library to Accelerate Applications

In practice it's a bit more complex than this. Does anyone know what additional work must be done to make the modifications made in this video compile?


Here's the method I'm trying

in dMatrix.cc add

#include <cublas.h>

in dMatrix.cc change all occurences of (preserving case)




in my build terminal set

export CC=nvcc
export CFLAGS="-lcublas -lcudart"
export CPPFLAGS="-I/usr/local/cuda/include"
export LDFLAGS="-L/usr/local/cuda/lib64"

the error I receive is:

libtool: link: g++ -I/usr/include/freetype2 -Wall -W -Wshadow -Wold-style-cast 
-Wformat -Wpointer-arith -Wwrite-strings -Wcast-align -Wcast-qual -g -O2
-o .libs/octave octave-main.o  -L/usr/local/cuda/lib64 
../libgui/.libs/liboctgui.so ../libinterp/.libs/liboctinterp.so 
../liboctave/.libs/liboctave.so -lutil -lm -lpthread -Wl,-rpath

../liboctave/.libs/liboctave.so: undefined reference to `cublas_dgemm_'
share|improve this question
Actually (sorry) there's more to it than this. The presenter is using the fortran bindings Specifically we need to use the "thunking wrapper" version of these bindings. Apologies for the misinformation in my answer, there is more to it than that. I will try to update my answer with a new set of instructions. The modifications you made to the source file are still valid, but the modifications to the build sequence will be different. –  Robert Crovella Jul 5 '13 at 23:35
@RobertCrovella Thank you very much. I'm really looking forward to having this. –  Waylon Flinn Jul 6 '13 at 1:20
I've made another (hopefully the last) edit to my answer. I tested this and it seems to work for me. –  Robert Crovella Jul 6 '13 at 16:48

2 Answers 2

up vote 3 down vote accepted

EDIT2: The method described in this video requires the use of the fortran "thunking library" bindings for cublas. These steps worked for me:

  1. Download octave 3.6.3 from here:

    wget ftp://ftp.gnu.org/gnu/octave/octave-3.6.3.tar.gz
  2. extract all files from the archive:

    tar -xzvf octave-3.6.3.tar.gz
  3. change into the octave directory just created:

    cd octave-3.6.3
  4. make a directory for your "thunking cublas library"

    mkdir mycublas
  5. change into that directory

    cd mycublas
  6. build the "thunking cublas library"

    g++ -c -fPIC -I/usr/local/cuda/include -I/usr/local/cuda/src -DCUBLAS_GFORTRAN -o fortran_thunking.o /usr/local/cuda/src/fortran_thunking.c
    ar rvs libmycublas.a fortran_thunking.o
  7. switch back to the main build directory

    cd ..
  8. run octave's configure with additional options:

    ./configure --disable-docs LDFLAGS="-L/usr/local/cuda/lib64 -lcublas -lcudart -L/home/user2/octave/octave-3.6.3/mycublas -lmycublas"

    Note that in the above command line, you will need to change the directory for the second -L switch to that which matches the path to your mycublas directory that you created in step 4

  9. Now edit octave-3.6.3/liboctave/dMatrix.cc according to the instructions given in the video. It should be sufficient to replace every instance of dgemm with cublas_dgemm and every instance of DGEMM with CUBLAS_DGEMM. In the octave 3.6.3 version I used, there were 3 such instances of each (lower case and upper case).

  10. Now you can build octave:


    (make sure you are in the octave-3.6.3 directory)

At this point, for me, Octave built successfully. I did not pursue make install although I assume that would work. I simply ran octave using the ./run-octave script in the octave-3.6.3 directory.

The above steps assume a proper and standard CUDA 5.0 install. I will try to respond to CUDA-specific questions or issues, but there are any number of problems that may arise with a general Octave install on your platform. I'm not an octave expert and I won't be able to respond to those. I used CentOS 6.2 for this test.

This method, as indicated, involves modification of the C source files of octave.

Another method was covered in some detail in the S3527 session at the GTC 2013 GPU Tech Conference. This session was actually a hands-on laboratory exercise. Unfortunately the materials on that are not conveniently available. However the method there did not involve any modification of GNU Octave source, but instead uses the LD_PRELOAD capability of Linux to intercept the BLAS library calls and re-direct (the appropriate ones) to the cublas library.

share|improve this answer
Thank you very much. I'll give this another shot and report back. –  Waylon Flinn Jul 5 '13 at 17:04
@Joshua Fleming leave your answer edits as comments rather than editing my answer please. My answer is tested and correct for the OS(and gcc) and Octave versions I specified. If you want to add information for another version of gcc please do it in the comments. –  Robert Crovella Dec 30 '13 at 23:54

I was able to produce a compiled executable using the information supplied. It's a horrible hack, but it works.

The process looks like this:

First produce an object file for fortran_thunking.c

sudo /usr/local/cuda-5.0/bin/nvcc -O3 -c -DCUBLAS_GFORTRAN fortran_thunking.c

Then move that object file to the src subdirectory in octave

cp /usr/local/cuda-5.0/src/fortran_thunking.o ./octave/src

run make. The compile will fail on the last step. Change to the src directory.

cd src

Then execute the failing final line with the addition of ./fortran_thunking.o -lcudart -lcublas just after octave-main.o. This produces the following command

g++ -I/usr/include/freetype2 -Wall -W -Wshadow -Wold-style-cast -Wformat
 -Wpointer-arith -Wwrite-strings -Wcast-align -Wcast-qual
 -I/usr/local/cuda/include -o .libs/octave octave-main.o 
./fortran_thunking.o -lcudart -lcublas  -L/usr/local/cuda/lib64 
../libgui/.libs/liboctgui.so ../libinterp/.libs/liboctinterp.so 
../liboctave/.libs/liboctave.so -lutil -lm -lpthread -Wl,-rpath 

An octave binary will be created in the src/.libs directory. This is your octave executable.

share|improve this answer
Good job! I'm still building octave. If you don't mind, I'm going to gather together what you've done plus what's been discussed already into a single set of coherent instructions in my answer. But I upvoted yours. –  Robert Crovella Jul 6 '13 at 5:24

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.