OpenCLFFT3D.cpp

/* -------------------------------------------------------------------------- *
 *                                   OpenMM                                   *
 * -------------------------------------------------------------------------- *
 * This is part of the OpenMM molecular simulation toolkit originating from   *
 * Simbios, the NIH National Center for Physics-Based Simulation of           *
 * Biological Structures at Stanford, funded under the NIH Roadmap for        *
 * Medical Research, grant U54 GM072970. See https://simtk.org.               *
 *                                                                            *
 * Portions copyright (c) 2009-2012 Stanford University and the Authors.      *
 * Authors: Peter Eastman                                                     *
 * Contributors:                                                              *
 *                                                                            *
 * This program is free software: you can redistribute it and/or modify       *
 * it under the terms of the GNU Lesser General Public License as published   *
 * by the Free Software Foundation, either version 3 of the License, or       *
 * (at your option) any later version.                                        *
 *                                                                            *
 * This program is distributed in the hope that it will be useful,            *
 * but WITHOUT ANY WARRANTY; without even the implied warranty of             *
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the              *
 * GNU Lesser General Public License for more details.                        *
 *                                                                            *
 * You should have received a copy of the GNU Lesser General Public License   *
 * along with this program.  If not, see <http://www.gnu.org/licenses/>.      *
 * -------------------------------------------------------------------------- */

#include "OpenCLFFT3D.h"
#include "OpenCLExpressionUtilities.h"
#include "OpenCLKernelSources.h"
#include "SimTKOpenMMRealType.h"
#include <map>
#include <sstream>
#include <string>

using namespace OpenMM;
using namespace std;

OpenCLFFT3D::OpenCLFFT3D(OpenCLContext& context, int xsize, int ysize, int zsize) : context(context), xsize(xsize), ysize(ysize), zsize(zsize) {
    zkernel = createKernel(xsize, ysize, zsize, zthreads);
    xkernel = createKernel(ysize, zsize, xsize, xthreads);
    ykernel = createKernel(zsize, xsize, ysize, ythreads);
}

void OpenCLFFT3D::execFFT(OpenCLArray& in, OpenCLArray& out, bool forward) {
    zkernel.setArg<cl::Buffer>(0, in.getDeviceBuffer());
    zkernel.setArg<cl::Buffer>(1, out.getDeviceBuffer());
    zkernel.setArg<cl_int>(2, forward ? 1 : -1);
    context.executeKernel(zkernel, xsize*ysize*zsize, zthreads);
    xkernel.setArg<cl::Buffer>(0, out.getDeviceBuffer());
    xkernel.setArg<cl::Buffer>(1, in.getDeviceBuffer());
    xkernel.setArg<cl_int>(2, forward ? 1 : -1);
    context.executeKernel(xkernel, xsize*ysize*zsize, xthreads);
    ykernel.setArg<cl::Buffer>(0, in.getDeviceBuffer());
    ykernel.setArg<cl::Buffer>(1, out.getDeviceBuffer());
    ykernel.setArg<cl_int>(2, forward ? 1 : -1);
    context.executeKernel(ykernel, xsize*ysize*zsize, ythreads);
}

int OpenCLFFT3D::findLegalDimension(int minimum) {
    if (minimum < 1)
        return 1;
    while (true) {
        // Attempt to factor the current value.

        int unfactored = minimum;
        for (int factor = 2; factor < 8; factor++) {
            while (unfactored > 1 && unfactored%factor == 0)
                unfactored /= factor;
        }
        if (unfactored == 1)
            return minimum;
        minimum++;
    }
}

cl::Kernel OpenCLFFT3D::createKernel(int xsize, int ysize, int zsize, int& threads) {
    int maxThreads = std::min(256, (int) context.getDevice().getInfo<CL_DEVICE_MAX_WORK_GROUP_SIZE>());
    bool isCPU = context.getDevice().getInfo<CL_DEVICE_TYPE>() == CL_DEVICE_TYPE_CPU;
    while (true) {
        bool loopRequired = (zsize > maxThreads || isCPU);
        stringstream source;
        int blocksPerGroup = (loopRequired ? 1 : max(1, maxThreads/zsize));
        int stage = 0;
        int L = zsize;
        int m = 1;

        // Factor zsize, generating an appropriate block of code for each factor.

        while (L > 1) {
            int input = stage%2;
            int output = 1-input;
            int radix;
            if (L%7 == 0)
                radix = 7;
            else if (L%5 == 0)
                radix = 5;
            else if (L%4 == 0)
                radix = 4;
            else if (L%3 == 0)
                radix = 3;
            else if (L%2 == 0)
                radix = 2;
            else
                throw OpenMMException("Illegal size for FFT: "+context.intToString(zsize));
            source<<"{\n";
            L = L/radix;
            source<<"// Pass "<<(stage+1)<<" (radix "<<radix<<")\n";
            if (loopRequired) {
                source<<"for (int i = get_local_id(0); i < "<<(L*m)<<"; i += get_local_size(0)) {\n";
                source<<"int base = i;\n";
            }
            else {
                source<<"if (get_local_id(0) < "<<(blocksPerGroup*L*m)<<") {\n";
                source<<"int block = get_local_id(0)/"<<(L*m)<<";\n";
                source<<"int i = get_local_id(0)-block*"<<(L*m)<<";\n";
                source<<"int base = i+block*"<<zsize<<";\n";
            }
            source<<"int j = i/"<<m<<";\n";
            if (radix == 7) {
                source<<"real2 c0 = data"<<input<<"[base];\n";
                source<<"real2 c1 = data"<<input<<"[base+"<<(L*m)<<"];\n";
                source<<"real2 c2 = data"<<input<<"[base+"<<(2*L*m)<<"];\n";
                source<<"real2 c3 = data"<<input<<"[base+"<<(3*L*m)<<"];\n";
                source<<"real2 c4 = data"<<input<<"[base+"<<(4*L*m)<<"];\n";
                source<<"real2 c5 = data"<<input<<"[base+"<<(5*L*m)<<"];\n";
                source<<"real2 c6 = data"<<input<<"[base+"<<(6*L*m)<<"];\n";
                source<<"real2 d0 = c1+c6;\n";
                source<<"real2 d1 = c1-c6;\n";
                source<<"real2 d2 = c2+c5;\n";
                source<<"real2 d3 = c2-c5;\n";
                source<<"real2 d4 = c4+c3;\n";
                source<<"real2 d5 = c4-c3;\n";
                source<<"real2 d6 = d2+d0;\n";
                source<<"real2 d7 = d5+d3;\n";
                source<<"real2 b0 = c0+d6+d4;\n";
                source<<"real2 b1 = "<<context.doubleToString((cos(2*M_PI/7)+cos(4*M_PI/7)+cos(6*M_PI/7))/3-1)<<"*(d6+d4);\n";
                source<<"real2 b2 = "<<context.doubleToString((2*cos(2*M_PI/7)-cos(4*M_PI/7)-cos(6*M_PI/7))/3)<<"*(d0-d4);\n";
                source<<"real2 b3 = "<<context.doubleToString((cos(2*M_PI/7)-2*cos(4*M_PI/7)+cos(6*M_PI/7))/3)<<"*(d4-d2);\n";
                source<<"real2 b4 = "<<context.doubleToString((cos(2*M_PI/7)+cos(4*M_PI/7)-2*cos(6*M_PI/7))/3)<<"*(d2-d0);\n";
                source<<"real2 b5 = -sign*"<<context.doubleToString((sin(2*M_PI/7)+sin(4*M_PI/7)-sin(6*M_PI/7))/3)<<"*(d7+d1);\n";
                source<<"real2 b6 = -sign*"<<context.doubleToString((2*sin(2*M_PI/7)-sin(4*M_PI/7)+sin(6*M_PI/7))/3)<<"*(d1-d5);\n";
                source<<"real2 b7 = -sign*"<<context.doubleToString((sin(2*M_PI/7)-2*sin(4*M_PI/7)-sin(6*M_PI/7))/3)<<"*(d5-d3);\n";
                source<<"real2 b8 = -sign*"<<context.doubleToString((sin(2*M_PI/7)+sin(4*M_PI/7)+2*sin(6*M_PI/7))/3)<<"*(d3-d1);\n";
                source<<"real2 t0 = b0+b1;\n";
                source<<"real2 t1 = b2+b3;\n";
                source<<"real2 t2 = b4-b3;\n";
                source<<"real2 t3 = -b2-b4;\n";
                source<<"real2 t4 = b6+b7;\n";
                source<<"real2 t5 = b8-b7;\n";
                source<<"real2 t6 = -b8-b6;\n";
                source<<"real2 t7 = t0+t1;\n";
                source<<"real2 t8 = t0+t2;\n";
                source<<"real2 t9 = t0+t3;\n";
                source<<"real2 t10 = (real2) (t4.y+b5.y, -(t4.x+b5.x));\n";
                source<<"real2 t11 = (real2) (t5.y+b5.y, -(t5.x+b5.x));\n";
                source<<"real2 t12 = (real2) (t6.y+b5.y, -(t6.x+b5.x));\n";
                source<<"data"<<output<<"[base+6*j*"<<m<<"] = b0;\n";
                source<<"data"<<output<<"[base+(6*j+1)*"<<m<<"] = multiplyComplex(w[j*"<<zsize<<"/"<<(7*L)<<"], t7-t10);\n";
                source<<"data"<<output<<"[base+(6*j+2)*"<<m<<"] = multiplyComplex(w[j*"<<(2*zsize)<<"/"<<(7*L)<<"], t9-t12);\n";
                source<<"data"<<output<<"[base+(6*j+3)*"<<m<<"] = multiplyComplex(w[j*"<<(3*zsize)<<"/"<<(7*L)<<"], t8+t11);\n";
                source<<"data"<<output<<"[base+(6*j+4)*"<<m<<"] = multiplyComplex(w[j*"<<(4*zsize)<<"/"<<(7*L)<<"], t8-t11);\n";
                source<<"data"<<output<<"[base+(6*j+5)*"<<m<<"] = multiplyComplex(w[j*"<<(5*zsize)<<"/"<<(7*L)<<"], t9+t12);\n";
                source<<"data"<<output<<"[base+(6*j+6)*"<<m<<"] = multiplyComplex(w[j*"<<(6*zsize)<<"/"<<(7*L)<<"], t7+t10);\n";
            }
            else if (radix == 5) {
                source<<"real2 c0 = data"<<input<<"[base];\n";
                source<<"real2 c1 = data"<<input<<"[base+"<<(L*m)<<"];\n";
                source<<"real2 c2 = data"<<input<<"[base+"<<(2*L*m)<<"];\n";
                source<<"real2 c3 = data"<<input<<"[base+"<<(3*L*m)<<"];\n";
                source<<"real2 c4 = data"<<input<<"[base+"<<(4*L*m)<<"];\n";
                source<<"real2 d0 = c1+c4;\n";
                source<<"real2 d1 = c2+c3;\n";
                source<<"real2 d2 = "<<context.doubleToString(sin(0.4*M_PI))<<"*(c1-c4);\n";
                source<<"real2 d3 = "<<context.doubleToString(sin(0.4*M_PI))<<"*(c2-c3);\n";
                source<<"real2 d4 = d0+d1;\n";
                source<<"real2 d5 = "<<context.doubleToString(0.25*sqrt(5.0))<<"*(d0-d1);\n";
                source<<"real2 d6 = c0-0.25f*d4;\n";
                source<<"real2 d7 = d6+d5;\n";
                source<<"real2 d8 = d6-d5;\n";
                string coeff = context.doubleToString(sin(0.2*M_PI)/sin(0.4*M_PI));
                source<<"real2 d9 = sign*(real2) (d2.y+"<<coeff<<"*d3.y, -d2.x-"<<coeff<<"*d3.x);\n";
                source<<"real2 d10 = sign*(real2) ("<<coeff<<"*d2.y-d3.y, d3.x-"<<coeff<<"*d2.x);\n";
                source<<"data"<<output<<"[base+4*j*"<<m<<"] = c0+d4;\n";
                source<<"data"<<output<<"[base+(4*j+1)*"<<m<<"] = multiplyComplex(w[j*"<<zsize<<"/"<<(5*L)<<"], d7+d9);\n";
                source<<"data"<<output<<"[base+(4*j+2)*"<<m<<"] = multiplyComplex(w[j*"<<(2*zsize)<<"/"<<(5*L)<<"], d8+d10);\n";
                source<<"data"<<output<<"[base+(4*j+3)*"<<m<<"] = multiplyComplex(w[j*"<<(3*zsize)<<"/"<<(5*L)<<"], d8-d10);\n";
                source<<"data"<<output<<"[base+(4*j+4)*"<<m<<"] = multiplyComplex(w[j*"<<(4*zsize)<<"/"<<(5*L)<<"], d7-d9);\n";
            }
            else if (radix == 4) {
                source<<"real2 c0 = data"<<input<<"[base];\n";
                source<<"real2 c1 = data"<<input<<"[base+"<<(L*m)<<"];\n";
                source<<"real2 c2 = data"<<input<<"[base+"<<(2*L*m)<<"];\n";
                source<<"real2 c3 = data"<<input<<"[base+"<<(3*L*m)<<"];\n";
                source<<"real2 d0 = c0+c2;\n";
                source<<"real2 d1 = c0-c2;\n";
                source<<"real2 d2 = c1+c3;\n";
                source<<"real2 d3 = sign*(real2) (c1.y-c3.y, c3.x-c1.x);\n";
                source<<"data"<<output<<"[base+3*j*"<<m<<"] = d0+d2;\n";
                source<<"data"<<output<<"[base+(3*j+1)*"<<m<<"] = multiplyComplex(w[j*"<<zsize<<"/"<<(4*L)<<"], d1+d3);\n";
                source<<"data"<<output<<"[base+(3*j+2)*"<<m<<"] = multiplyComplex(w[j*"<<(2*zsize)<<"/"<<(4*L)<<"], d0-d2);\n";
                source<<"data"<<output<<"[base+(3*j+3)*"<<m<<"] = multiplyComplex(w[j*"<<(3*zsize)<<"/"<<(4*L)<<"], d1-d3);\n";
            }
            else if (radix == 3) {
                source<<"real2 c0 = data"<<input<<"[base];\n";
                source<<"real2 c1 = data"<<input<<"[base+"<<(L*m)<<"];\n";
                source<<"real2 c2 = data"<<input<<"[base+"<<(2*L*m)<<"];\n";
                source<<"real2 d0 = c1+c2;\n";
                source<<"real2 d1 = c0-0.5f*d0;\n";
                source<<"real2 d2 = sign*"<<context.doubleToString(sin(M_PI/3.0))<<"*(real2) (c1.y-c2.y, c2.x-c1.x);\n";
                source<<"data"<<output<<"[base+2*j*"<<m<<"] = c0+d0;\n";
                source<<"data"<<output<<"[base+(2*j+1)*"<<m<<"] = multiplyComplex(w[j*"<<zsize<<"/"<<(3*L)<<"], d1+d2);\n";
                source<<"data"<<output<<"[base+(2*j+2)*"<<m<<"] = multiplyComplex(w[j*"<<(2*zsize)<<"/"<<(3*L)<<"], d1-d2);\n";
            }
            else if (radix == 2) {
                source<<"real2 c0 = data"<<input<<"[base];\n";
                source<<"real2 c1 = data"<<input<<"[base+"<<(L*m)<<"];\n";
                source<<"data"<<output<<"[base+j*"<<m<<"] = c0+c1;\n";
                source<<"data"<<output<<"[base+(j+1)*"<<m<<"] = multiplyComplex(w[j*"<<zsize<<"/"<<(2*L)<<"], c0-c1);\n";
            }
            source<<"}\n";
            m = m*radix;
            source<<"barrier(CLK_LOCAL_MEM_FENCE);\n";
            source<<"}\n";
            ++stage;
        }

        // Create the kernel.

        if (loopRequired) {
            source<<"for (int z = get_local_id(0); z < ZSIZE; z += get_local_size(0))\n";
            source<<"out[y*(ZSIZE*XSIZE)+z*XSIZE+x] = data"<<(stage%2)<<"[z];\n";
        }
        else {
            source<<"if (index < XSIZE*YSIZE)\n";
            source<<"out[y*(ZSIZE*XSIZE)+(get_local_id(0)%ZSIZE)*XSIZE+x] = data"<<(stage%2)<<"[get_local_id(0)];\n";
        }
        map<string, string> replacements;
        replacements["XSIZE"] = context.intToString(xsize);
        replacements["YSIZE"] = context.intToString(ysize);
        replacements["ZSIZE"] = context.intToString(zsize);
        replacements["BLOCKS_PER_GROUP"] = context.intToString(blocksPerGroup);
        replacements["M_PI"] = context.doubleToString(M_PI);
        replacements["COMPUTE_FFT"] = source.str();
        replacements["LOOP_REQUIRED"] = (loopRequired ? "1" : "0");
        cl::Program program = context.createProgram(context.replaceStrings(OpenCLKernelSources::fft, replacements));
        cl::Kernel kernel(program, "execFFT");
        threads = (isCPU ? 1 : blocksPerGroup*zsize);
        int kernelMaxThreads = kernel.getWorkGroupInfo<CL_KERNEL_WORK_GROUP_SIZE>(context.getDevice());
        if (threads > kernelMaxThreads) {
            // The device can't handle this block size, so reduce it.
            
            maxThreads = kernelMaxThreads;
            continue;
        }
        int bufferSize = blocksPerGroup*zsize*(context.getUseDoublePrecision() ? sizeof(mm_double2) : sizeof(mm_float2));
        kernel.setArg(3, bufferSize, NULL);
        kernel.setArg(4, bufferSize, NULL);
        kernel.setArg(5, bufferSize, NULL);
        return kernel;
    }
}