[LbmBenchmarkKernelsPublic.git] / src / BenchKernelD3Q19ListPullSplitNt1SIntrinsics.h

// --------------------------------------------------------------------------
//
// Copyright
//   Markus Wittmann, 2016-2017
//   RRZE, University of Erlangen-Nuremberg, Germany
//   markus.wittmann -at- fau.de or hpc -at- rrze.fau.de
//
//   Viktor Haag, 2016
//   LSS, University of Erlangen-Nuremberg, Germany
//
//  This file is part of the Lattice Boltzmann Benchmark Kernels (LbmBenchKernels).
//
//  LbmBenchKernels is free software: you can redistribute it and/or modify
//  it under the terms of the GNU General Public License as published by
//  the Free Software Foundation, either version 3 of the License, or
//  (at your option) any later version.
//
//  LbmBenchKernels 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 General Public License for more details.
//
//  You should have received a copy of the GNU General Public License
//  along with LbmBenchKernels.  If not, see <http://www.gnu.org/licenses/>.
//
// --------------------------------------------------------------------------

#ifndef INDEX_START
        #error INDEX_START must be defined
#endif

#ifndef INDEX_STOP
        #error INDEX_STOP must be defined
#endif

        #define I(index, dir)   P_INDEX_3((nCells), (index), (dir))

        for (int blockedIndex = (INDEX_START); blockedIndex < (INDEX_STOP); blockedIndex += nTmpArray) {

                indexMax = MinI(nTmpArray, (INDEX_STOP) - blockedIndex);
#ifdef DEBUG
                memset(tmpArray, -1, sizeof(PdfT) * nTmpArray * N_TMP);
#endif
                for (int index = 0; index < indexMax; ++index) {


                        adjListIndex = (index + blockedIndex) * N_D3Q19_IDX;

                        pdf_C = src[I(index + blockedIndex, D3Q19_C)];

                        #define X(name, idx, idxinv, _x, _y, _z)        JOIN(pdf_,name) = src[adjList[adjListIndex + idx]]; tmpArray[TMP_INDEX(index, idx)] = JOIN(pdf_,name);
                        D3Q19_LIST_WO_C
                        #undef X

                        ux = pdf_E + pdf_NE + pdf_SE + pdf_TE + pdf_BE -
                                 pdf_W - pdf_NW - pdf_SW - pdf_TW - pdf_BW;
                        uy = pdf_N + pdf_NE + pdf_NW + pdf_TN + pdf_BN -
                                 pdf_S - pdf_SE - pdf_SW - pdf_TS - pdf_BS;
                        uz = pdf_T + pdf_TE + pdf_TW + pdf_TN + pdf_TS -
                                 pdf_B - pdf_BE - pdf_BW - pdf_BN - pdf_BS;

                        tmpArray[TMP_INDEX(index, TMP_UX)] = ux;
                        tmpArray[TMP_INDEX(index, TMP_UY)] = uy;
                        tmpArray[TMP_INDEX(index, TMP_UZ)] = uz;

                        dens = pdf_C +
                                   pdf_N  + pdf_E  + pdf_S  + pdf_W  +
                                   pdf_NE + pdf_SE + pdf_SW + pdf_NW +
                                   pdf_T  + pdf_TN + pdf_TE + pdf_TS + pdf_TW +
                                   pdf_B  + pdf_BN + pdf_BE + pdf_BS + pdf_BW;

                        dir_indep_trm = dens - (ux * ux + uy * uy + uz * uz) * 3.0 / 2.0;

                        w_1_indep = w_1 * dir_indep_trm;
                        w_2_indep = w_2 * dir_indep_trm;

                        tmpArray[TMP_INDEX(index, TMP_W1)] = w_1_indep;
                        tmpArray[TMP_INDEX(index, TMP_W2)] = w_2_indep;

                        dst[I(index + blockedIndex, D3Q19_C )]  = pdf_C - omegaEven * (pdf_C - w_0 * dir_indep_trm);
                }

                #define LOOP_1(_dir1, _dir2, _vel, _vel_tmp) \
                        for (int index = 0; index < indexMax; index += VSIZE) { \
                                Assert((unsigned long)&(dst[I(index + blockedIndex, JOIN(D3Q19_,_dir1) )]) % VSIZE == 0); \
                                vui         = VLDU(&tmpArray[TMP_INDEX(index, JOIN(TMP_,_vel_tmp))]); \
                                vpdf_a      = VLDU(&tmpArray[TMP_INDEX(index, JOIN(D3Q19_,_dir1))]); \
                                vpdf_b      = VLDU(&tmpArray[TMP_INDEX(index, JOIN(D3Q19_,_dir2))]); \
                                vw_1_indep  = VLDU(&tmpArray[TMP_INDEX(index, TMP_W1)]); \
                                \
                                vevenPart = VMUL(vomegaEven, VSUB(VSUB(VMUL(voneHalf, VADD(vpdf_a, vpdf_b)), VMUL(vui, VMUL(vui, vw_1_nine_half))), vw_1_indep)); \
                                voddPart  = VMUL(vomegaOdd,  VSUB(     VMUL(voneHalf, VSUB(vpdf_a, vpdf_b)), VMUL(vui, vw_1_x3))); \
                                VSTNT(&dst[I(index + blockedIndex, JOIN(D3Q19_,_dir1))], VSUB(VSUB(vpdf_a, vevenPart), voddPart)); \
                                VST(&tmpArray[TMP_INDEX(index, JOIN(D3Q19_,_dir2))], VADD(VSUB(vpdf_b, vevenPart), voddPart)); \
                        } \
                        for (int index = 0; index < indexMax; index += VSIZE) { \
                                Assert((unsigned long)&(dst[I(index + blockedIndex, JOIN(D3Q19_,_dir2) )]) % VSIZE == 0); \
                                vpdf_b      = VLDU(&tmpArray[TMP_INDEX(index, JOIN(D3Q19_,_dir2))]); \
                                VSTNT(&dst[I(index + blockedIndex, JOIN(D3Q19_,_dir2))], vpdf_b); \
                        }

                #define LOOP_2(_dir1, _dir2, _v1, _v2, _v1_tmp, _v2_tmp, _expr) \
                        for (int index = 0; index < indexMax; index += VSIZE) { \
                                _v1         = VLDU(&tmpArray[TMP_INDEX(index, JOIN(TMP_,_v1_tmp))]); \
                                _v2         = VLDU(&tmpArray[TMP_INDEX(index, JOIN(TMP_,_v2_tmp))]); \
                                vpdf_a          = VLDU(&tmpArray[TMP_INDEX(index, JOIN(D3Q19_,_dir1))]); \
                                vpdf_b          = VLDU(&tmpArray[TMP_INDEX(index, JOIN(D3Q19_,_dir2))]); \
                                vw_2_indep  = VLDU(&tmpArray[TMP_INDEX(index, TMP_W2)]); \
                                \
                                vui = _expr; \
                                vevenPart = VMUL(vomegaEven, VSUB(VSUB(VMUL(voneHalf, VADD(vpdf_a, vpdf_b)), VMUL(vui, VMUL(vui, vw_2_nine_half))), vw_2_indep)); \
                                voddPart  = VMUL(vomegaOdd,  VSUB(     VMUL(voneHalf, VSUB(vpdf_a, vpdf_b)), VMUL(vui, vw_2_x3))); \
                                VSTNT(&dst[I(index + blockedIndex, JOIN(D3Q19_,_dir1))], VSUB(VSUB(vpdf_a, vevenPart), voddPart)); \
                                VST(&tmpArray[TMP_INDEX(index, JOIN(D3Q19_,_dir2))], VADD(VSUB(vpdf_b, vevenPart), voddPart)); \
                        } \
                        for (int index = 0; index < indexMax; index += VSIZE) { \
                                Assert((unsigned long)&(dst[I(index + blockedIndex, JOIN(D3Q19_,_dir2) )]) % VSIZE == 0); \
                                vpdf_b      = VLDU(&tmpArray[TMP_INDEX(index, JOIN(D3Q19_,_dir2))]); \
                                VSTNT(&dst[I(index + blockedIndex, JOIN(D3Q19_,_dir2))], vpdf_b); \
                        }

                LOOP_1(N, S, vuy, UY);
                LOOP_1(E, W, vux, UX);
                LOOP_1(T, B, vuz, UZ);

                LOOP_2(NW, SE, vuy, vux, UY, UX, VSUB(vuy, vux));
                LOOP_2(NE, SW, vuy, vux, UY, UX, VADD(vuy, vux));
                LOOP_2(TW, BE, vux, vuz, UX, UZ, VSUB(vuz, vux));
                LOOP_2(TE, BW, vux, vuz, UX, UZ, VADD(vuz, vux));
                LOOP_2(TS, BN, vuy, vuz, UY, UZ, VSUB(vuz, vuy));
                LOOP_2(TN, BS, vuy, vuz, UY, UZ, VADD(vuz, vuy));

                #undef LOOP_1
                #undef LOOP_2

        } // loop over fluid nodes

        #undef I

        #undef INDEX_START
        #undef INDEX_STOP