protected void LoadNextField()
{
// Keep t1 timestep as new t0. Update mapping on device side.
_t0X = _t1X;
new CudaTextureArray2D(_advectParticlesKernel, "vX_t0", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t0X);
_t0Y = _t1Y;
new CudaTextureArray2D(_advectParticlesKernel, "vY_t0", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t0Y);
CurrentTime++;
// Load new t1.
LoaderNCF ncFile = RedSea.Singleton.GetLoaderNCF(CurrentTime);
ScalarField t1X = ncFile.LoadFieldSlice(_ensembleRanges[0]);
ScalarField t1Y = ncFile.LoadFieldSlice(_ensembleRanges[1]);
ncFile.Close();
// All members are above each other.
int vHeight = _height * _numMembers;
// vX, t=1
_t1X = new CudaArray2D(CUArrayFormat.Float, _width, vHeight, CudaArray2DNumChannels.One);
_t1X.CopyFromHostToThis(t1X.Data);
new CudaTextureArray2D(_advectParticlesKernel, "vX_t1", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t1X);
// vY, t=1
_t1Y = new CudaArray2D(CUArrayFormat.Float, _width, vHeight, CudaArray2DNumChannels.One);
_t1Y.CopyFromHostToThis(t1Y.Data);
new CudaTextureArray2D(_advectParticlesKernel, "vY_t1", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t1Y);
}
public VectorFieldUnsteady LoadMeanField()
{
SliceRange[] mean = new SliceRange[] { new SliceRange(_ensembleRanges[0]), new SliceRange(_ensembleRanges[1]) };
mean[0].SetMember(RedSea.Dimension.MEMBER, 0);
mean[1].SetMember(RedSea.Dimension.MEMBER, 0);
return(LoaderNCF.LoadTimeSeries(mean, 0, 10));
}
public SliceRange(LoaderNCF file, RedSea.Variable var) : base()
{
// Query number of dimensions of variable.
int numDims;
NetCDF.ResultCode ncState = NetCDF.nc_inq_varndims(file.GetID(), (int)var, out numDims);
Debug.Assert(ncState == NetCDF.ResultCode.NC_NOERR);
int[] dimIDs = new int[numDims];
// Query relevant dimensions.
ncState = NetCDF.nc_inq_vardimid(file.GetID(), (int)var, dimIDs);
Debug.Assert(ncState == NetCDF.ResultCode.NC_NOERR);
Initialize(dimIDs, var);
}
protected void LoadNextField()
{
// Keep t1 timestep as new t0. Update mapping on device side.
var tmp = _t0X;
_t0X = _t1X;
_t1X = tmp;
new CudaTextureArray2D(_advectParticlesKernel, "vX_t0", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t0X);
tmp = _t0X;
_t0Y = _t1Y;
_t1Y = tmp;
new CudaTextureArray2D(_advectParticlesKernel, "vY_t0", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t0Y);
CurrentTime++;
// Load new t1.
LoaderNCF ncFile = RedSea.Singleton.GetLoaderNCF(CurrentTime);
ScalarField t1X = ncFile.LoadFieldSlice(_ensembleRanges[0]);
ScalarField t1Y = ncFile.LoadFieldSlice(_ensembleRanges[1]);
ncFile.Close();
// All members are above each other.
int vHeight = _height * _numMembers;
float[] paddedArray = new float[_t1X.Width * _t1X.Height];
Array.Copy(t1X.Data, paddedArray, t1X.Data.Length);
// vX, t=1
_t1X.CopyFromHostToThis <float>(paddedArray);
new CudaTextureArray2D(_advectParticlesKernel, "vX_t1", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t1X);
Array.Copy(t1Y.Data, paddedArray, t1Y.Data.Length);
// vY, t=1
_t1Y.CopyFromHostToThis <float>(paddedArray);
new CudaTextureArray2D(_advectParticlesKernel, "vY_t1", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t1Y);
}
/// <summary>
/// Setup as empty map with only one value at 1.
/// </summary>
/// <param name="pos"></param>
/// <param name="fieldEnsemble"></param>
/// <param name="startTime"></param>
/// <param name="endTime"></param>
public void SetupPoint(Int2 pos, int startTime)
{
// ~~~~~~~~~~~~~~ Copy relevant data ~~~~~~~~~~~~~~ \\
// Count up when advection was executed.
CurrentTime = startTime;
_startTime = startTime;
// ~~~~~~~~~~~~ Load ensemble ~~~~~~~~~~~~ \\
// Load fields first to get the grid size.
//Loader ncFile = new Loader(RedSea.Singleton.DataFolder + (_startTime + 1) + RedSea.Singleton.FileName);
//ScalarField t0X = ncFile.LoadFieldSlice(_ensembleRanges[0]);
//ScalarField t0Y = ncFile.LoadFieldSlice(_ensembleRanges[1]);
//ncFile.Close();
LoaderNCF ncFile = RedSea.Singleton.GetLoaderNCF(_startTime);
ScalarField t1X = ncFile.LoadFieldSlice(_ensembleRanges[0]);
ScalarField t1Y = ncFile.LoadFieldSlice(_ensembleRanges[1]);
ncFile.Close();
// ~~~~~~~~~~~~~~ Copy relevant data ~~~~~~~~~~~~~~ \\
// Keep for plane creation and size reference.
_ensembleGrid = t1X.Grid as RectlinearGrid;
// Mapper for binding the SlimDX texture to CUDA easily.
_cudaDxMapper = new CudaGraphicsInteropResourceCollection();
// Tell CUDA which value is a border.
_texInvalidValue = t1X.InvalidValue ?? float.MaxValue;
// ~~~~~~~~~~~~ Fill CUDA resources ~~~~~~~~~~~~ \\
// All members are above each other.
int vHeight = _height * _numMembers;
//// vX, t=0
//_t0X = new CudaArray2D(CUArrayFormat.Float, _width, vHeight, CudaArray2DNumChannels.One);
//_t0X.CopyFromHostToThis<float>(t0X.Data);
//new CudaTextureArray2D(_advectParticlesKernel, "vX_t0", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t0X);
//// vY, t=0
//_t0Y = new CudaArray2D(CUArrayFormat.Float, _width, vHeight, CudaArray2DNumChannels.One);
//_t0Y.CopyFromHostToThis<float>(t0Y.Data);
//new CudaTextureArray2D(_advectParticlesKernel, "vY_t0", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t0Y);
// vX, t=1
_t1X = new CudaArray2D(CUArrayFormat.Float, _width, vHeight, CudaArray2DNumChannels.One);
_t1X.CopyFromHostToThis <float>(t1X.Data);
new CudaTextureArray2D(_advectParticlesKernel, "vX_t1", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t1X);
// vY, t=1
_t1Y = new CudaArray2D(CUArrayFormat.Float, _width, vHeight, CudaArray2DNumChannels.One);
_t1Y.CopyFromHostToThis <float>(t1Y.Data);
new CudaTextureArray2D(_advectParticlesKernel, "vY_t1", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, _t1Y);
// ~~~~~~~~~~~~~ Create texture ~~~~~~~~~~~~~~~~~~~~ \\
// Create texture. Completely zero, except for one point.
Texture2DDescription desc = new Texture2DDescription
{
ArraySize = 1,
BindFlags = BindFlags.ShaderResource,
CpuAccessFlags = CpuAccessFlags.None,
Format = Format.R32_Float,
Width = _width,
Height = _height,
MipLevels = 1,
OptionFlags = ResourceOptionFlags.None,
SampleDescription = new SampleDescription(1, 0),
Usage = ResourceUsage.Default
};
// Put field data into stream/rectangle object
float[] zeros = new float[_width * _height];
Array.Clear(zeros, 0, zeros.Length);
// Fill the empty texture.
DataRectangle texData = new DataRectangle(_width * sizeof(float), new DataStream(zeros, true, true));
_pongFlowMap = new CudaDeviceVariable <float>(_width * _height);//new Texture2D(_device, desc, texData);
// Magically, copy to device happens here.
_pongFlowMap = zeros;
// Add one pixel for integration.
zeros[pos.X + pos.Y * _width] = 1;
texData = new DataRectangle(_width * sizeof(float), new DataStream(zeros, true, true));
// Create texture.
FlowMap = new Texture2D(_device, desc, texData);
// ~~~~~~~~~ Make textures mappable to CUDA ~~~~~~~~~~ \\
_cudaDxMapper.Add(new CudaDirectXInteropResource(FlowMap.ComPointer, CUGraphicsRegisterFlags.None, CudaContext.DirectXVersion.D3D11));
_cudaDxMapper.MapAllResources();
CudaArray2D lastFlowMap = _cudaDxMapper[0].GetMappedArray2D(0, 0);
new CudaTextureArray2D(_advectParticlesKernel, "flowMap", CUAddressMode.Wrap, CUFilterMode.Linear, CUTexRefSetFlags.None, lastFlowMap);
_cudaDxMapper.UnmapAllResources();
}
