# Compiling Cuda code in Qt Creator on Windows

I have been trying for days to get a Qt project file running on a 32-bit Windows 7 system, in which I want/need to include Cuda code. This combination of things is either so simple that no one ever bothered to put an example online, or so difficult that nobody ever succeeded, it seems. Whatever way, the only helpful forum threads I found were the same issue on Linux or Mac, or with Visual Studio on a Windows. All of these give all sorts of different errors, however, whether due to linking or clashing libraries, or spaces in file names or non-existing folders in the Windows version of the Cuda SDK. Is there someone who has a clear .pro file to offer that does the trick?

I am aiming to compile a simple programme with ordinary C++ code in Qt style, with Qt 4.8 libraries, which reference several Cuda modules in .cu files. Something of the form:

TestCUDA \
TestCUDA.pro
main.cpp
test.cu


So I finally managed to assemble a .pro file that works on my and probably on all Windows systems. The following is an easy test programme that should probably do the trick. The following is a small project file plus test programme that works at least on my system.

The file system looks as follows:

TestCUDA \
TestCUDA.pro
main.cpp


TARGET = TestCUDA

# Define output directories
DESTDIR = release
OBJECTS_DIR = release/obj
CUDA_OBJECTS_DIR = release/cuda

# Source files
SOURCES += src/main.cpp

# This makes the .cu files appear in your project

# CUDA settings <-- may change depending on your system
CUDA_SDK = "C:/ProgramData/NVIDIA Corporation/NVIDIA GPU Computing SDK 4.2/C"   # Path to cuda SDK install
CUDA_DIR = "C:/Program Files/NVIDIA GPU Computing Toolkit/CUDA/v4.2"            # Path to cuda toolkit install
SYSTEM_NAME = Win32         # Depending on your system either 'Win32', 'x64', or 'Win64'
SYSTEM_TYPE = 32            # '32' or '64', depending on your system
CUDA_ARCH = sm_11           # Type of CUDA architecture, for example 'compute_10', 'compute_11', 'sm_10'
NVCC_OPTIONS = --use_fast_math

# include paths
INCLUDEPATH += $$CUDA_DIR/include \$$CUDA_SDK/common/inc/ \
$$CUDA_SDK/../shared/inc/ # library directories QMAKE_LIBDIR +=$$CUDA_DIR/lib/$$SYSTEM_NAME \$$CUDA_SDK/common/lib/$$SYSTEM_NAME \$$CUDA_SDK/../shared/lib/$$SYSTEM_NAME # Add the necessary libraries LIBS += -lcuda -lcudart # The following library conflicts with something in Cuda QMAKE_LFLAGS_RELEASE = /NODEFAULTLIB:msvcrt.lib QMAKE_LFLAGS_DEBUG = /NODEFAULTLIB:msvcrtd.lib # The following makes sure all path names (which often include spaces) are put between quotation marks CUDA_INC =$$join(INCLUDEPATH,'" -I"','-I"','"')

# Configuration of the Cuda compiler
CONFIG(debug, debug|release) {
# Debug mode
cuda_d.input = CUDA_SOURCES
cuda_d.output = $$CUDA_OBJECTS_DIR/{QMAKE_FILE_BASE}_cuda.o cuda_d.commands =$$CUDA_DIR/bin/nvcc.exe -D_DEBUG $$NVCC_OPTIONS$$CUDA_INC $$LIBS --machine$$SYSTEM_TYPE -arch=$$CUDA_ARCH -c -o {QMAKE_FILE_OUT} {QMAKE_FILE_NAME} cuda_d.dependency_type = TYPE_C QMAKE_EXTRA_COMPILERS += cuda_d } else { # Release mode cuda.input = CUDA_SOURCES cuda.output =$$CUDA_OBJECTS_DIR/${QMAKE_FILE_BASE}_cuda.o cuda.commands = $$CUDA_DIR/bin/nvcc.exe$$NVCC_OPTIONS $$CUDA_INC$$LIBS --machine $$SYSTEM_TYPE -arch=$$CUDA_ARCH -c -o${QMAKE_FILE_OUT} ${QMAKE_FILE_NAME} cuda.dependency_type = TYPE_C QMAKE_EXTRA_COMPILERS += cuda  } Note the QMAKE_LFLAGS_RELEASE = /NODEFAULTLIB:msvcrt.lib: it took me a long time to figure out, but this library seems to clash with other things in Cuda, which produces strange linking warnings and errors. If someone has an explanation for this, and potentially a prettier way to get around this, I'd like to hear it. Also, since Windows file paths often include spaces (and NVIDIA's SDK by default does so too), it is necessary to artificially add quotation marks around the include paths. Again, if someone knows a more elegant way of solving this problem, I'd be interested to know. The main.cpp file looks like this: #include <cuda.h> #include <builtin_types.h> #include <drvapi_error_string.h> #include <QtCore/QCoreApplication> #include <QDebug> // Forward declare the function in the .cu file void vectorAddition(const float* a, const float* b, float* c, int n); void printArray(const float* a, const unsigned int n) { QString s = "("; unsigned int ii; for (ii = 0; ii < n - 1; ++ii) s.append(QString::number(a[ii])).append(", "); s.append(QString::number(a[ii])).append(")"); qDebug() << s; } int main(int argc, char* argv []) { QCoreApplication(argc, argv); int deviceCount = 0; int cudaDevice = 0; char cudaDeviceName [100]; unsigned int N = 50; float *a, *b, *c; cuInit(0); cuDeviceGetCount(&deviceCount); cuDeviceGet(&cudaDevice, 0); cuDeviceGetName(cudaDeviceName, 100, cudaDevice); qDebug() << "Number of devices: " << deviceCount; qDebug() << "Device name:" << cudaDeviceName; a = new float [N]; b = new float [N]; c = new float [N]; for (unsigned int ii = 0; ii < N; ++ii) { a[ii] = qrand(); b[ii] = qrand(); } // This is the function call in which the kernel is called vectorAddition(a, b, c, N); qDebug() << "input a:"; printArray(a, N); qDebug() << "input b:"; printArray(b, N); qDebug() << "output c:"; printArray(c, N); if (a) delete a; if (b) delete b; if (c) delete c; }  The Cuda file vectorAddition.cu, which describes a simple vector addition, look like this: #include <cuda.h> #include <builtin_types.h> extern "C" __global__ void vectorAdditionCUDA(const float* a, const float* b, float* c, int n) { int ii = blockDim.x * blockIdx.x + threadIdx.x; if (ii < n) c[ii] = a[ii] + b[ii]; } void vectorAddition(const float* a, const float* b, float* c, int n) { float *a_cuda, *b_cuda, *c_cuda; unsigned int nBytes = sizeof(float) * n; int threadsPerBlock = 256; int blocksPerGrid = (n + threadsPerBlock - 1) / threadsPerBlock; // allocate and copy memory into the device cudaMalloc((void **)& a_cuda, nBytes); cudaMalloc((void **)& b_cuda, nBytes); cudaMalloc((void **)& c_cuda, nBytes); cudaMemcpy(a_cuda, a, nBytes, cudaMemcpyHostToDevice); cudaMemcpy(b_cuda, b, nBytes, cudaMemcpyHostToDevice); vectorAdditionCUDA<<<blocksPerGrid, threadsPerBlock>>>(a_cuda, b_cuda, c_cuda, n); // load the answer back into the host cudaMemcpy(c, c_cuda, nBytes, cudaMemcpyDeviceToHost); cudaFree(a_cuda); cudaFree(b_cuda); cudaFree(c_cuda); }  If you get this to work, then more complicated examples are self-evident, I think. Edit (24-1-2013): I added the QMAKE_LFLAGS_DEBUG = /NODEFAULTLIB:msvcrtd.lib and the CONFIG(debug) with the extra D_DEBUG flag, such that it also compiles in debug mode. • Hi, I've almost got this working--except it's not creating vectorAddition.obj, I get LINK : fatal error LNK1181: cannot open input file 'release\obj\vectorAddition.obj'. I note that vectorAddition_cuda.o is created so it's gotten past that stage, main.obj is created too. Any idea how to get it (cl v. 10, from VS2010) to make vectorAddition.obj? – Matt Phillips Dec 24 '12 at 0:00 • Ok figured out my issue. You've saved me an incredible amount of time here, thanks so much. – Matt Phillips Dec 24 '12 at 15:28 • Hi, any chance of you putting up a 64-bit version of this, i.e. the appropriately modified .pro file? I've been trying to figure out how to adjust the paths, etc. but just can't quite put it together. – Matt Phillips Jan 24 '13 at 6:35 • I don't have a 64-bit system so I have no way of testing it. But I think that all you need to do is to change the system folder and type to 64, and leave everything else the same. Like this: SYSTEM_NAME = Win32 SYSTEM_TYPE = 32 Does that work? – Yellow Jan 24 '13 at 12:07 • Hmm, I'm afraid I can't make to much sense out of that, but admittedly I don't have much experience with compiler 64-bit programmes. I'm a bit surprised that the warning says, that it is looking for thing in /lib. Are you sure you changed SYSTEM_NAME to x64? If that's not it, I suggest you start a new topic on exactly that error. – Yellow Jan 24 '13 at 16:16 Using msvc 2010 I found that the linker does not accept the -l parameter, however nvcc needs it. Therefore I made a simple change in the .pro file: # Add the necessary libraries CUDA_LIBS = cuda cudart # The following makes sure all path names (which often include spaces) are put between quotation marks CUDA_INC = $$join(INCLUDEPATH,'" -I"','-I"','"') # LIBRARIES IN FORMAT NEEDED BY NVCC NVCC_LIBS =$$join(CUDA_LIBS,' -l','-l', '') # LIBRARIES IN FORMAT NEEDED BY VISUAL C++ LINKER LIBS += $$join(CUDA_LIBS,'.lib ', '', '.lib')  And the nvcc command (release version): cuda.commands =$$CUDA_DIR/bin/nvcc.exe $$NVCC_OPTIONS$$CUDA_INC $$NVCC_LIBS --machine$$SYSTEM_TYPE -arch=$$CUDA_ARCH -c -o {QMAKE_FILE_OUT} {QMAKE_FILE_NAME} $$NVCC_LIBS was inserted instead of $$LIBS. The whole .pro file, which works for me: QT += core QT -= gui TARGET = TestCUDA CONFIG += console CONFIG -= app_bundle TEMPLATE = app # Define output directories DESTDIR = release OBJECTS_DIR = release/obj CUDA_OBJECTS_DIR = release/cuda # Source files SOURCES += main.cpp # This makes the .cu files appear in your project OTHER_FILES += vectorAddition.cu # CUDA settings <-- may change depending on your system CUDA_SOURCES += vectorAddition.cu #CUDA_SDK = "C:/ProgramData/NVIDIA Corporation/NVIDIA GPU Computing SDK 4.2/C" # Path to cuda SDK install CUDA_DIR = "C:/Program Files/NVIDIA GPU Computing Toolkit/CUDA/v5.0" # Path to cuda toolkit install SYSTEM_NAME = win32 # Depending on your system either 'Win32', 'x64', or 'Win64' SYSTEM_TYPE = 32 # '32' or '64', depending on your system CUDA_ARCH = sm_11 # Type of CUDA architecture, for example 'compute_10', 'compute_11', 'sm_10' NVCC_OPTIONS = --use_fast_math # include paths INCLUDEPATH +=$$CUDA_DIR/include #$$CUDA_SDK/common/inc/ \ #$$CUDA_SDK/../shared/inc/ # library directories QMAKE_LIBDIR += $$CUDA_DIR/lib/$$SYSTEM_NAME #$$CUDA_SDK/common/lib/$$SYSTEM_NAME \ #$$CUDA_SDK/../shared/lib/$$SYSTEM_NAME # The following library conflicts with something in Cuda QMAKE_LFLAGS_RELEASE = /NODEFAULTLIB:msvcrt.lib QMAKE_LFLAGS_DEBUG = /NODEFAULTLIB:msvcrtd.lib # Add the necessary libraries CUDA_LIBS = cuda cudart # The following makes sure all path names (which often include spaces) are put between quotation marks CUDA_INC = $$join(INCLUDEPATH,'" -I"','-I"','"') NVCC_LIBS =$$join(CUDA_LIBS,' -l','-l', '') LIBS += $$join(CUDA_LIBS,'.lib ', '', '.lib') # Configuration of the Cuda compiler CONFIG(debug, debug|release) { # Debug mode cuda_d.input = CUDA_SOURCES cuda_d.output =$$CUDA_OBJECTS_DIR/${QMAKE_FILE_BASE}_cuda.o
cuda_d.commands = $$CUDA_DIR/bin/nvcc.exe -D_DEBUG$$NVCC_OPTIONS $$CUDA_INC$$NVCC_LIBS --machine $$SYSTEM_TYPE -arch=$$CUDA_ARCH -c -o ${QMAKE_FILE_OUT}${QMAKE_FILE_NAME}
cuda_d.dependency_type = TYPE_C
QMAKE_EXTRA_COMPILERS += cuda_d
}
else {
# Release mode
cuda.input = CUDA_SOURCES
cuda.output = $$CUDA_OBJECTS_DIR/{QMAKE_FILE_BASE}_cuda.o cuda.commands =$$CUDA_DIR/bin/nvcc.exe $$NVCC_OPTIONS$$CUDA_INC $$NVCC_LIBS --machine$$SYSTEM_TYPE -arch=CUDA_ARCH -c -o ${QMAKE_FILE_OUT}${QMAKE_FILE_NAME}
cuda.dependency_type = TYPE_C
QMAKE_EXTRA_COMPILERS += cuda
}


I also added some essential declarations, i.e. QT += core for the app to work, and also removed the SDK part, which I did not find useful in this case.

I tried this combination to work. Could not make it work due to a number of dependencies in my project. My final solution was to break the application into two separate applications on Windows 1)

1. CUDA application developed in VC and running as a service/DLL in Windows
2. GUI interface developed in QT and using the DLL for CUDA related tasks.

Hope it saves some time of others

• So you mean that I cannot have a project including .cpp and .cu file? iwant .cpp file compile using gcc and cu use NVCC, and I need to all a function from cu file in .cpp – Ehsan Oct 3 '17 at 13:31

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