func main() { petsc.Initialize() defer petsc.Finalize() fftw3.Initialize() defer fftw3.Cleanup() rank, _ := petsc.RankSize() dims := []int64{32, 16, 8, 12} // Test size routine lsize, n0, n1 := fftw3.LocalSizeTransposed(dims) petsc.SyncPrintf("Rank %d : size = %d, n0=(%d,%d), n1=(%d,%d)\n", rank, lsize, n0[0], n0[1], n1[0], n1[1]) petsc.SyncFlush() // Ok, go create the grids dims = []int64{8, 8, 8} greal, gcmplx := fftw3.New(dims) petsc.Printf("Considering the real array....\n") petsc.SyncPrintf("Rank %d\n%s", rank, greal) petsc.SyncFlush() petsc.Printf("Considering the complex array....\n") petsc.SyncPrintf("Rank %d\n%s", rank, gcmplx) petsc.SyncFlush() }
func dump(pp []pstruct, rank int) { petsc.SyncPrintf("--- rank : %d \n", rank) for i := range pp { petsc.SyncPrintf("%s\n", pp[i]) } petsc.SyncFlush() }
func main() { if err := petsc.Initialize(); err != nil { petsc.Fatal(err) } defer func() { if err := petsc.Finalize(); err != nil { petsc.Fatal(err) } }() rank, size := petsc.RankSize() petsc.Printf("Initialization successful\n") petsc.SyncPrintf("Hello from rank %d of %d\n", rank, size) petsc.SyncFlush() }
func main() { // PETSc initialization if err := petsc.Initialize(); err != nil { petsc.Fatal(err) } defer func() { if err := petsc.Finalize(); err != nil { petsc.Fatal(err) } }() rank, size := petsc.RankSize() pp := PW3D.NewVec(petsc.DECIDE, 10000) defer pp.Destroy() lpp := PW3D.GetArray(pp) lpp.FillRandom(1, 1) pp.RestoreArray() petsc.Printf("Generating random particles....\n") slab := particles.Slab{L: 1, N: size, Idim: 0} PW3D.DomainDecompose(slab, pp) petsc.Printf("Slab decomposition complete\n") lpp = PW3D.GetArray(pp) _, mpirank := slab.Domain(lpp) rank64 := int64(rank) petsc.SyncPrintf("# Rank %d has %d particles....\n", rank, lpp.Length()) for ipart, irank := range mpirank { if irank != rank64 { petsc.SyncPrintf("ERROR: %d expected, %d placed, %+v\n", rank, irank, lpp[ipart]) } } petsc.SyncFlush() pp.RestoreArray() }
func main() { if err := petsc.Initialize(); err != nil { petsc.Fatal(err) } defer func() { if err := petsc.Finalize(); err != nil { petsc.Fatal(err) } }() rank, size := petsc.RankSize() // Create a vector using the local size v, err := petsc.NewVec(5, petsc.DETERMINE) if err != nil { petsc.Fatal(err) } n1, err := v.LocalSize() if err != nil { petsc.Fatal(err) } lo, hi, err := v.OwnRange() if err != nil { petsc.Fatal(err) } petsc.SyncPrintf("%d rank has local size %d [%d, %d]\n", rank, n1, lo, hi) petsc.SyncFlush() err = v.Destroy() if err != nil { petsc.Fatal(err) } // Create a vector using the global size v, err = petsc.NewVec(petsc.DECIDE, 100) if err != nil { petsc.Fatal(err) } n1, err = v.LocalSize() if err != nil { petsc.Fatal(err) } lo, hi, err = v.OwnRange() if err != nil { petsc.Fatal(err) } petsc.SyncPrintf("%d rank has local size %d [%d, %d]\n", rank, n1, lo, hi) petsc.SyncFlush() // Set and then access the array if err := v.Set(3.1415926); err != nil { petsc.Fatal(err) } // Try running ownershipranges if rank == 0 { rr, err := v.Ranges() if err != nil { petsc.Fatal(err) } fmt.Println(rr) if size > 2 { ix := []int64{rr[1], rr[2], rr[3]} y := []float64{4.14, 5.14, 6.14} v.SetValues(ix, y, true) } } v.AssemblyBegin() v.AssemblyEnd() if err := v.GetArray(); err != nil { petsc.Fatal(err) } petsc.SyncPrintf("%d rank has local size %d \n", rank, len(v.Arr)) petsc.SyncFlush() fmt.Println(rank, v.Arr[0:2]) if err := v.RestoreArray(); err != nil { petsc.Fatal(err) } sum, _ := v.Sum() petsc.Printf("Sum = %f\n", sum) max, _, _ := v.Max() petsc.Printf("Max = %f\n", max) min, _, _ := v.Min() petsc.Printf("Max = %f\n", min) v.Scale(0.3) sum, _ = v.Sum() petsc.Printf("Sum = %f\n", sum) err = v.Destroy() if err != nil { petsc.Fatal(err) } }
func main() { petsc.Initialize() defer petsc.Finalize() rank, size := petsc.RankSize() // Set up basic elements for the vector var bs, nlocal, nlocal1 int64 bs = 2 // block size nlocal1 = 5 // number of local blocks nlocal = nlocal1 * bs // local size r64 := int64(rank) * nlocal1 s64 := int64(size) * nlocal1 gndx := []int64{(r64 + nlocal1) % s64, (s64 + r64 - 1) % s64} petsc.SyncPrintf("Ghost indices : %v \n", gndx) petsc.SyncFlush() // Create the vector v, _ := petsc.NewGhostVecBlocked(nlocal, petsc.DETERMINE, bs, gndx) defer v.Destroy() // Fill in the local versions of the array lo, _, _ := v.OwnRange() v.GetArray() for ii := range v.Arr { v.Arr[ii] = float64(int64(ii) + lo) } v.RestoreArray() petsc.Printf("Filled in vector\n") // Update ghost values v.GhostUpdateBegin(false, true) v.GhostUpdateEnd(false, true) // Get the local values and print them lv, _ := v.GhostGetLocalForm() lv.GetArray() petsc.SyncPrintf("Rank %d : ", rank) for _, val := range lv.Arr { petsc.SyncPrintf("%3d ", int(val)) } petsc.SyncPrintf("\n") petsc.SyncFlush() lv.RestoreArray() lv.Destroy() // Now reset the array to 0 v.Set(0) v.GhostUpdateBegin(false, true) v.GhostUpdateEnd(false, true) // Fill the array with 1's including the ghosts lv, _ = v.GhostGetLocalForm() lv.GetArray() for ii := range lv.Arr { lv.Arr[ii] = float64(rank + 1) } lv.RestoreArray() lv.Destroy() v.GhostUpdateBegin(true, false) v.GhostUpdateEnd(true, false) // Reprint, only with local pieces v.GetArray() petsc.SyncPrintf("Rank %d : ", rank) for _, val := range v.Arr { petsc.SyncPrintf("%3d ", int(val)) } petsc.SyncPrintf("\n") petsc.SyncFlush() v.RestoreArray() }
func main() { // PETSc initialization if err := petsc.Initialize(); err != nil { petsc.Fatal(err) } defer func() { if err := petsc.Finalize(); err != nil { petsc.Fatal(err) } }() rank, _ := petsc.RankSize() v, err := structvec.NewStructVec(pstruct{}, petsc.DECIDE, 10) if err != nil { petsc.Fatal(err) } defer v.Destroy() petsc.Printf("Type of v : %s\n", v.Type()) petsc.Printf("Size of v : %d\n", v.BlockSize()) petsc.SyncPrintf("Local size = %d\n", v.Nlocal) petsc.SyncFlush() petsc.Printf("Global size = %d\n", v.Ntotal) // local particle data lpp, ok := v.GetArray().([]pstruct) if !ok { petsc.Fatal(err) } for i := range lpp { lpp[i].FillRandom() } err = v.RestoreArray() if err != nil { petsc.Fatal(err) } // Print array lpp, ok = v.GetArray().([]pstruct) if !ok { petsc.Fatal(err) } for i := range lpp { petsc.SyncPrintf("%s\n", lpp[i]) } petsc.SyncFlush() err = v.RestoreArray() if err != nil { petsc.Fatal(err) } petsc.Printf("----------------\n") // Fiddle with array if rank == 0 { lpp = make([]pstruct, 2) ix := []int64{3, 7} err = v.SetValues(ix, lpp) if err != nil { petsc.Fatal(err) } } v.AssemblyBegin() v.AssemblyEnd() // Print array lpp, ok = v.GetArray().([]pstruct) if !ok { petsc.Fatal(err) } for i := range lpp { petsc.SyncPrintf("%s\n", lpp[i]) } petsc.SyncFlush() err = v.RestoreArray() if err != nil { petsc.Fatal(err) } }