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solution.cpp
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solution.cpp
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/*
SYCL Academy (c)
SYCL Academy is licensed under a Creative Commons
Attribution-ShareAlike 4.0 International License.
You should have received a copy of the license along with this
work. If not, see <http://creativecommons.org/licenses/by-sa/4.0/>.
*/
//#define SYCL_ACADEMY_USING_COMPUTECPP
#define CATCH_CONFIG_MAIN
#include <catch2/catch.hpp>
#include <sycl/sycl.hpp>
class kernel_a_1;
class kernel_b_1;
class kernel_a_2;
class kernel_b_2;
int usm_selector(const sycl::device& dev) {
if (dev.has(sycl::aspect::usm_device_allocations)) {
if (dev.has(sycl::aspect::gpu)) return 2;
return 1;
}
return -1;
}
TEST_CASE("buffer_accessor_temporary_data", "temporary_data_solution") {
constexpr size_t dataSize = 1024;
float in[dataSize], out[dataSize];
for (int i = 0; i < dataSize; ++i) {
in[i] = static_cast<float>(i);
out[i] = 0.0f;
}
try {
auto gpuQueue = sycl::queue{sycl::gpu_selector_v};
auto bufIn = sycl::buffer{in, sycl::range{dataSize}};
auto bufInt = sycl::buffer<float>{sycl::range{dataSize}};
auto bufOut = sycl::buffer<float>{sycl::range{dataSize}};
bufIn.set_final_data(nullptr);
bufOut.set_final_data(out);
gpuQueue.submit([&](sycl::handler& cgh) {
sycl::accessor accIn{bufIn, cgh, sycl::read_only};
sycl::accessor accOut{bufInt, cgh, sycl::write_only};
cgh.parallel_for<kernel_a_1>(sycl::range{dataSize}, [=](sycl::id<1> idx) {
accOut[idx] = accIn[idx] * 8.0f;
});
});
gpuQueue.submit([&](sycl::handler& cgh) {
sycl::accessor accIn{bufInt, cgh, sycl::read_only};
sycl::accessor accOut{bufOut, cgh, sycl::write_only};
cgh.parallel_for<kernel_b_1>(sycl::range{dataSize}, [=](sycl::id<1> idx) {
accOut[idx] = accIn[idx] / 2.0f;
});
});
gpuQueue.wait_and_throw();
} catch (const sycl::exception& e) {
std::cout << "Exception caught: " << e.what() << std::endl;
}
for (int i = 0; i < dataSize; ++i) {
REQUIRE(out[i] == i * 4.0f);
}
}
TEST_CASE("usm_temporary_data", "temporary_data_solution") {
constexpr size_t dataSize = 1024;
float in[dataSize], out[dataSize];
for (int i = 0; i < dataSize; ++i) {
in[i] = static_cast<float>(i);
out[i] = 0.0f;
}
try {
auto usmQueue = sycl::queue{usm_selector};
auto devicePtrIn = sycl::malloc_device<float>(dataSize, usmQueue);
auto devicePtrInt = sycl::malloc_device<float>(dataSize, usmQueue);
auto devicePtrOut = sycl::malloc_device<float>(dataSize, usmQueue);
auto e1 = usmQueue.memcpy(devicePtrIn, in, sizeof(float) * dataSize);
auto e2 = usmQueue.parallel_for<kernel_a_2>(
sycl::range{dataSize}, e1, [=](sycl::id<1> idx) {
auto globalId = idx[0];
devicePtrInt[globalId] = devicePtrIn[globalId] * 8.0f;
});
auto e3 = usmQueue.parallel_for<kernel_b_2>(
sycl::range{dataSize}, e2, [=](sycl::id<1> idx) {
auto globalId = idx[0];
devicePtrOut[globalId] = devicePtrInt[globalId] / 2.0f;
});
usmQueue
.submit([&](sycl::handler& cgh) {
cgh.depends_on(e3);
cgh.memcpy(out, devicePtrOut, sizeof(float) * dataSize);
})
.wait();
sycl::free(devicePtrIn, usmQueue);
sycl::free(devicePtrInt, usmQueue);
sycl::free(devicePtrOut, usmQueue);
usmQueue.throw_asynchronous();
} catch (const sycl::exception& e) {
std::cout << "Exception caught: " << e.what() << std::endl;
}
for (int i = 0; i < dataSize; ++i) {
REQUIRE(out[i] == i * 4.0f);
}
}