Make DeviceStream into a class

[alexxy/gromacs.git] / src / gromacs / ewald / pme_gpu_types_host_impl.h

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/*! \internal \file
 * \brief Defines the host-side PME GPU data structure, which is dependent on the GPU types.
 * It's included by pointer in the general PmeGpu host structure in pme_gpu_types_host.h.
 *
 * \author Aleksei Iupinov <a.yupinov@gmail.com>
 * \ingroup module_ewald
 */

#ifndef PMEGPUTYPESHOSTIMPL_H
#define PMEGPUTYPESHOSTIMPL_H

#include "config.h"

#include <array>
#include <set>
#include <vector>

#if GMX_GPU == GMX_GPU_CUDA
#    include "gromacs/gpu_utils/gpueventsynchronizer.cuh"
#    include "gromacs/gpu_utils/gpuregiontimer.cuh"
#elif GMX_GPU == GMX_GPU_OPENCL
#    include "gromacs/gpu_utils/gpueventsynchronizer_ocl.h"
#    include "gromacs/gpu_utils/gpuregiontimer_ocl.h"
#endif

#include "gromacs/timing/gpu_timing.h" // for gtPME_EVENT_COUNT

#include "pme_gpu_3dfft.h"

class GpuParallel3dFft;

/*! \internal \brief
 * The main PME CUDA/OpenCL-specific host data structure, included in the PME GPU structure by the archSpecific pointer.
 */
struct PmeGpuSpecific
{
    /*! \brief Constructor
     *
     * \param[in] deviceContext GPU device context.
     */
    PmeGpuSpecific(const DeviceContext& deviceContext) : deviceContext_(deviceContext) {}

    /*! \brief
     * A handle to the GPU context.
     * TODO: this is currently extracted from the implementation of pmeGpu->programHandle_,
     * but should be a constructor parameter to PmeGpu, as well as PmeGpuProgram,
     * managed by high-level code.
     */
    const DeviceContext& deviceContext_;

    /*! \brief The GPU stream where everything related to the PME happens. */
    DeviceStream pmeStream_;

    /* Synchronization events */
    /*! \brief Triggered after the PME Force Calculations have been completed */
    GpuEventSynchronizer pmeForcesReady;
    /*! \brief Triggered after the grid has been copied to the host (after the spreading stage). */
    GpuEventSynchronizer syncSpreadGridD2H;

    /* Settings which are set at the start of the run */
    /*! \brief A boolean which tells whether the complex and real grids for cu/clFFT are different or same. Currenty true. */
    bool performOutOfPlaceFFT = false;
    /*! \brief A boolean which tells if the GPU timing events are enabled.
     *  False by default, can be enabled by setting the environment variable GMX_ENABLE_GPU_TIMING.
     *  Note: will not be reliable when multiple GPU tasks are running concurrently on the same
     * device context, as CUDA events on multiple streams are untrustworthy.
     */
    bool useTiming = false;

    //! Vector of FFT setups
    std::vector<std::unique_ptr<GpuParallel3dFft>> fftSetup;

    //! All the timers one might use
    std::array<GpuRegionTimer, gtPME_EVENT_COUNT> timingEvents;

    //! Indices of timingEvents actually used
    std::set<size_t> activeTimers;

    /* GPU arrays element counts (not the arrays sizes in bytes!).
     * They might be larger than the actual meaningful data sizes.
     * These are paired: the actual element count + the maximum element count that can fit in the current allocated memory.
     * These integer pairs are mostly meaningful for the reallocateDeviceBuffer calls.
     * As such, if DeviceBuffer is refactored into a class, they can be freely changed, too.
     * The only exceptions are realGridSize and complexGridSize which are also used for grid clearing/copying.
     * TODO: these should live in a clean buffered container type, and be refactored in the NB/cudautils as well.
     */
    /*! \brief The kernelParams.atoms.coordinates float element count (actual)*/
    int coordinatesSize = 0;
    /*! \brief The kernelParams.atoms.coordinates float element count (reserved) */
    int coordinatesSizeAlloc = 0;
    /*! \brief The kernelParams.atoms.forces float element count (actual) */
    int forcesSize = 0;
    /*! \brief The kernelParams.atoms.forces float element count (reserved) */
    int forcesSizeAlloc = 0;
    /*! \brief The kernelParams.atoms.gridlineIndices int element count (actual) */
    int gridlineIndicesSize = 0;
    /*! \brief The kernelParams.atoms.gridlineIndices int element count (reserved) */
    int gridlineIndicesSizeAlloc = 0;
    /*! \brief Both the kernelParams.atoms.theta and kernelParams.atoms.dtheta float element count (actual) */
    int splineDataSize = 0;
    /*! \brief Both the kernelParams.atoms.theta and kernelParams.atoms.dtheta float element count (reserved) */
    int splineDataSizeAlloc = 0;
    /*! \brief The kernelParams.atoms.coefficients float element count (actual) */
    int coefficientsSize = 0;
    /*! \brief The kernelParams.atoms.coefficients float element count (reserved) */
    int coefficientsSizeAlloc = 0;
    /*! \brief The kernelParams.grid.splineValuesArray float element count (actual) */
    int splineValuesSize = 0;
    /*! \brief The kernelParams.grid.splineValuesArray float element count (reserved) */
    int splineValuesSizeAlloc = 0;
    /*! \brief The kernelParams.grid.realGrid float element count (actual) */
    int realGridSize = 0;
    /*! \brief The kernelParams.grid.realGrid float element count (reserved) */
    int realGridSizeAlloc = 0;
    /*! \brief The kernelParams.grid.fourierGrid float (not float2!) element count (actual) */
    int complexGridSize = 0;
    /*! \brief The kernelParams.grid.fourierGrid float (not float2!) element count (reserved) */
    int complexGridSizeAlloc = 0;
};

#endif