int
SobelFilter::setup()
{
cl_int status = 0;
// Allocate host memory and read input image
std::string filePath = getPath() + std::string(INPUT_IMAGE);
status = readInputImage(filePath);
CHECK_ERROR(status, SDK_SUCCESS, "Read InputImage failed");
// create and initialize timers
int timer = sampleTimer->createTimer();
sampleTimer->resetTimer(timer);
sampleTimer->startTimer(timer);
status = setupCL();
if(status != SDK_SUCCESS)
{
return status;
}
sampleTimer->stopTimer(timer);
// Compute setup time
setupTime = (double)(sampleTimer->readTimer(timer));
return SDK_SUCCESS;
}
int
SimpleImage::setup()
{
/* Allocate host memoryF and read input image */
// std::string filePath = sampleCommon->getPath() + std::string(INPUT_IMAGE);
std::string filePath = std::string(INPUT_IMAGE);
if(readInputImage(filePath) != SDK_SUCCESS)
return SDK_FAILURE;
/* create and initialize timers */
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
int status = setupCL();
if(status != SDK_SUCCESS)
return status;
sampleCommon->stopTimer(timer);
/* Compute setup time */
setupTime = (double)(sampleCommon->readTimer(timer));
return SDK_SUCCESS;
}
int
ImageOverlap::setup()
{
int status = 0;
// Allocate host memoryF and read input image
std::string filePath = sampleCommon->getPath() + std::string(MAP_IMAGE);
std::string verifyfilePath = sampleCommon->getPath() + std::string(MAP_VERIFY_IMAGE);
status = readImage(filePath,verifyfilePath);
CHECK_ERROR(status, SDK_SUCCESS, "Read Map Image failed");
// create and initialize timers
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
status = setupCL();
if(status != SDK_SUCCESS)
return status;
sampleCommon->stopTimer(timer);
// Compute setup time
setupTime = (double)(sampleCommon->readTimer(timer));
return SDK_SUCCESS;
}
int
UnsharpMask::setup()
{
if(iterations < 1)
{
std::cout<<"Error, iterations cannot be 0 or negative. Exiting..\n";
return SDK_FAILURE;
}
// create and initialize timers
int timer = sampleTimer->createTimer();
sampleTimer->resetTimer(timer);
sampleTimer->startTimer(timer);
if(setupCL() != SDK_SUCCESS)
{
return SDK_FAILURE;
}
if(setupUnsharpMask() != SDK_SUCCESS)
{
return SDK_FAILURE;
}
sampleTimer->stopTimer(timer);
// Compute setup time
setupTime = (double)(sampleTimer->readTimer(timer));
return SDK_SUCCESS;
}
int
FastWalshTransform::setup()
{
// make sure the length is the power of 2
if(isPowerOf2(length))
{
length = roundToPowerOf2(length);
}
if(setupFastWalshTransform() != SDK_SUCCESS)
{
return SDK_FAILURE;
}
int timer = sampleTimer->createTimer();
sampleTimer->resetTimer(timer);
sampleTimer->startTimer(timer);
if(setupCL() != SDK_SUCCESS)
{
return SDK_FAILURE;
}
sampleTimer->stopTimer(timer);
setupTime = (cl_double)sampleTimer->readTimer(timer);
return SDK_SUCCESS;
}
int
MatrixTranspose::setup()
{
// width should be multiples of blockSize
if(width%blockSize !=0)
{
width = (width/blockSize + 1)*blockSize;
}
height = width;
int status=setupMatrixTranspose();
if(status!=SDK_SUCCESS)
return SDK_FAILURE;
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
if(setupCL() != SDK_SUCCESS)
return SDK_FAILURE;
sampleCommon->stopTimer(timer);
setupTime = (cl_double)sampleCommon->readTimer(timer);
return SDK_SUCCESS;
}
int
ComputeBench::setup()
{
if (iterations < 1) {
std::cout << "Error, iterations cannot be 0 or negative. Exiting..\n";
exit(0);
}
int timer = sampleTimer->createTimer();
sampleTimer->resetTimer(timer);
sampleTimer->startTimer(timer);
int status = setupCL();
if (status != SDK_SUCCESS) {
return status;
}
if (setupComputeBench() != SDK_SUCCESS) {
return SDK_FAILURE;
}
sampleTimer->stopTimer(timer);
setupTime = (cl_double) sampleTimer->readTimer(timer);
return SDK_SUCCESS;
}
int
BoxFilterSeparable::setup()
{
// Allocate host memory and read input image
if(readInputImage(INPUT_IMAGE) != SDK_SUCCESS)
{
return SDK_FAILURE;
}
// create and initialize timers
int timer =sampleTimer->createTimer();
sampleTimer->resetTimer(timer);
sampleTimer->startTimer(timer);
if(setupCL() != SDK_SUCCESS)
{
return SDK_FAILURE;
}
sampleTimer->stopTimer(timer);
// Compute setup time
setupTime = (double)(sampleTimer->readTimer(timer));
return SDK_SUCCESS;
}
int
ConstantBandwidth::setup()
{
if(iterations < 1)
{
std::cout<<"Error, iterations cannot be 0 or negative. Exiting..\n";
exit(0);
}
if(setupConstantBandwidth() != SDK_SUCCESS)
return SDK_FAILURE;
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
int status = setupCL();
if(status != SDK_SUCCESS)
{
if(status == SDK_EXPECTED_FAILURE)
return SDK_EXPECTED_FAILURE;
return SDK_FAILURE;
}
sampleCommon->stopTimer(timer);
setupTime = (cl_double)sampleCommon->readTimer(timer);
return SDK_SUCCESS;
}
int SimpleConvolution::setup()
{
if(!sampleCommon->isPowerOf2(width))
width = sampleCommon->roundToPowerOf2(width);
if(!sampleCommon->isPowerOf2(height))
height = sampleCommon->roundToPowerOf2(height);
maskHeight = maskWidth;
if(!(maskWidth%2))
maskWidth++;
if(!(maskHeight%2))
maskHeight++;
if (setupSimpleConvolution() != SDK_SUCCESS)
return SDK_FAILURE;
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
if (setupCL() != SDK_SUCCESS)
return SDK_FAILURE;
sampleCommon->stopTimer(timer);
setupTime = (cl_double)sampleCommon->readTimer(timer);
return SDK_SUCCESS;
}
//
// Verify a CertGroup
//
void TPImpl::certGroupVerify(const CertGroup &certGroup,
const TPVerifyContext &context,
TPVerifyResult *result)
{
setupCL();
setupCSP();
check(CSSM_TP_CertGroupVerify(handle(), (*mUseCL)->handle(), (*mUseCSP)->handle(),
&certGroup, &context, result));
}
int
MatrixMulDouble::setup()
{
// Validation of input values
if((n == 0) || (m == 0) || (k == 0))
{
std::cout << "Error: Matrix dimensions can not be 0" << std::endl;
return SDK_FAILURE;
}
// Make sure the dimensions are multiples of blockSize
const int vectorSize = 4;
if(n % (blockSize * vectorSize) != 0)
{
n = (n / (blockSize * vectorSize) + 1) * (blockSize * vectorSize);
}
if(m % (blockSize * vectorSize) != 0)
{
m = (m / (blockSize * vectorSize) + 1) * (blockSize * vectorSize);
}
if(k % (blockSize * vectorSize) != 0)
{
k = (k / (blockSize * vectorSize) + 1) * (blockSize * vectorSize);
}
widthA = m;
heightA = n;
widthB = k;
heightB = m;
if(setupMatrixMulDouble() != SDK_SUCCESS)
{
return SDK_FAILURE;
}
int timer = sampleTimer->createTimer();
sampleTimer->resetTimer(timer);
sampleTimer->startTimer(timer);
int status = setupCL();
if(status != SDK_SUCCESS)
{
if(status == SDK_EXPECTED_FAILURE)
{
return SDK_EXPECTED_FAILURE;
}
return SDK_FAILURE;
}
sampleTimer->stopTimer(timer);
setupTime = (cl_double)sampleTimer->readTimer(timer);
return SDK_SUCCESS;
}
CLContext::CLContext() :
devices(NULL),
maxWorkItemSizes(NULL),
groupSize(256),
maxWorkGroupSize(0)
{
if(setupCL() != CL_SUCCESS)
exit(1);
}
int SobelFilterImage::setup()
{
int status = setupCL();
if (status != 0)
{
return status;
}
return 0;
}
int
NBody::setup()
{
setupNBody();
setupCL();
display = !quiet && !verify;
return 0;
}
int
Lucas::setup ()
{
int status = setupCL ();
if (status != SDK_SUCCESS)
{
if (status == SDK_EXPECTED_FAILURE)
return SDK_EXPECTED_FAILURE;
return SDK_FAILURE;
}
return SDK_SUCCESS;
}
int
MatrixMulImage::setup()
{
// Make sure the dimensions are multiples of blockSize
const int vectorSize = 4;
if(n % (blockSize * vectorSize) != 0)
{
n = (n / (blockSize * vectorSize) + 1) * (blockSize * vectorSize);
}
if(m % blockSize != 0)
{
m = (m / blockSize + 1) * blockSize;
}
if(k % (blockSize * vectorSize) != 0)
{
k = (k / (blockSize * vectorSize) + 1) * (blockSize * vectorSize);
}
width0 = m;
height0 = n;
width1 = k;
height1 = m;
if(setupMatrixMulImage() != SDK_SUCCESS)
return SDK_FAILURE;
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
int status = setupCL();
if(status != SDK_SUCCESS)
{
if(status == SDK_EXPECTED_FAILURE)
return SDK_EXPECTED_FAILURE;
return SDK_FAILURE;
}
sampleCommon->stopTimer(timer);
setupTime = (cl_double)sampleCommon->readTimer(timer);
return SDK_SUCCESS;
}
int BinomialOption::setup()
{
if(setupBinomialOption())
return SDK_FAILURE;
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
if(setupCL())
return SDK_FAILURE;
sampleCommon->stopTimer(timer);
// Compute setup time
setupTime = (double)(sampleCommon->readTimer(timer));
return SDK_SUCCESS;
}
int
BoxFilterGLSeparable::setup()
{
/* create and initialize timers */
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
if(setupCL() != SDK_SUCCESS)
return SDK_FAILURE;
sampleCommon->stopTimer(timer);
/* Compute setup time */
setupTime = (double)(sampleCommon->readTimer(timer));
return SDK_SUCCESS;
}
int DwtHaar1D::setup()
{
if(setupDwtHaar1D() != SDK_SUCCESS)
return SDK_FAILURE;
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
if(setupCL() != SDK_SUCCESS)
return SDK_FAILURE;
sampleCommon->stopTimer(timer);
// Compute setup time
setupTime = (double)(sampleCommon->readTimer(timer));
return SDK_SUCCESS;
}
int PrefixSum::setup()
{
if(!sampleCommon->isPowerOf2(length))
length = sampleCommon->roundToPowerOf2(length);
if(setupPrefixSum() != SDK_SUCCESS)
return SDK_FAILURE;
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
if (setupCL() != SDK_SUCCESS)
return SDK_FAILURE;
sampleCommon->stopTimer(timer);
setupTime = (cl_double)sampleCommon->readTimer(timer);
return SDK_SUCCESS;
}
int
MemoryOptimizations::setup()
{
if(setupMemoryOptimizations()!=SDK_SUCCESS)
return SDK_FAILURE;
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
int status = setupCL();
if(status != SDK_SUCCESS)
return status;
sampleCommon->stopTimer(timer);
setupTime = (cl_double)sampleCommon->readTimer(timer);
return SDK_SUCCESS;
}
int
GlobalMemoryBandwidth::setup()
{
if(setupGlobalMemoryBandwidth()!=SDK_SUCCESS)
return SDK_FAILURE;
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
int status = setupCL();
if(status != SDK_SUCCESS)
return status;
sampleCommon->stopTimer(timer);
setupTime = (cl_double)sampleCommon->readTimer(timer);
return SDK_SUCCESS;
}
int MathBenchmark::setup() {
//if (setupMemory() != SDK_SUCCESS)
// return SDK_FAILURE;
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
int status = setupCL();
if (status != SDK_SUCCESS) {
if (status == SDK_EXPECTED_FAILURE)
return SDK_EXPECTED_FAILURE;
return SDK_FAILURE;
}
sampleCommon->stopTimer(timer);
setupTime = (cl_double) sampleCommon->readTimer(timer);
return SDK_SUCCESS;
}
int
GaussianNoise::setup()
{
// Allocate host memory and read input image
if(readInputImage(INPUT_IMAGE) != SDK_SUCCESS)
return SDK_FAILURE;
// create and initialize timers
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
if(setupCL() != SDK_SUCCESS)
return SDK_FAILURE;
sampleCommon->stopTimer(timer);
// Compute setup time
setupTime = (double)(sampleCommon->readTimer(timer));
return SDK_SUCCESS;
}
int
NBody::setup()
{
if(setupNBody() != SDK_SUCCESS)
return SDK_FAILURE;
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
if(setupCL() != SDK_SUCCESS)
return SDK_FAILURE;
sampleCommon->stopTimer(timer);
/* Compute setup time */
setupTime = (double)(sampleCommon->readTimer(timer));
display = !quiet && !verify;
return SDK_SUCCESS;
}
int ScanLargeArrays::setup()
{
if(!sampleCommon->isPowerOf2(length))
length = sampleCommon->roundToPowerOf2(length);
if(setupScanLargeArrays() != SDK_SUCCESS)
return SDK_FAILURE;
// create and initialize timers
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
if(setupCL() != SDK_SUCCESS)
return SDK_FAILURE;
sampleCommon->stopTimer(timer);
// Compute setup time
setupTime = (double)(sampleCommon->readTimer(timer));
return SDK_SUCCESS;
}
int Wordcount::setup()
{
if(setupWordcount() != SDK_SUCCESS)
{
return SDK_FAILURE;
}
//int timer = sampleCommon->createTimer();
//sampleCommon->resetTimer(timer);
//sampleCommon->startTimer(timer);
if(setupCL() != SDK_SUCCESS)
{
return SDK_FAILURE;
}
//sampleCommon->stopTimer(timer);
/* Compute setup time */
//setupTime = (double)(sampleCommon->readTimer(timer));
return SDK_SUCCESS;
}
int MersenneTwister::setup()
{
if(setupMersenneTwister() != SDK_SUCCESS)
{
return SDK_FAILURE;
}
int timer = sampleTimer->createTimer();
sampleTimer->resetTimer(timer);
sampleTimer->startTimer(timer);
if(setupCL() != SDK_SUCCESS)
{
return SDK_FAILURE;
}
sampleTimer->stopTimer(timer);
// Compute setup time
setupTime = (double)(sampleTimer->readTimer(timer));
return SDK_SUCCESS;
}
int Reduction::setup()
{
if(setupReduction()!=SDK_SUCCESS)
{
return SDK_FAILURE;
}
int timer = sampleCommon->createTimer();
sampleCommon->resetTimer(timer);
sampleCommon->startTimer(timer);
if(setupCL()!=SDK_SUCCESS)
{
return SDK_FAILURE;
}
sampleCommon->stopTimer(timer);
/* Compute setup time */
setupTime = (double)(sampleCommon->readTimer(timer));
return SDK_SUCCESS;
}
