func main() {
nimble.Init()
nimble.SetOD("demag.out")
N0, N1, N2 := 1, 32, 128
cx, cy, cz := 3e-9, 3.125e-9, 3.125e-9
mesh := nimble.NewMesh(N0, N1, N2, cx, cy, cz)
fmt.Println("mesh:", mesh)
//testM :=
m := nimble.NewConstant("m", "", mesh, testM).Output()
const acc = 10
kernel := mag.BruteKernel(ZeroPad(mesh), acc)
demag := conv.NewSymm2D(mesh, kernel, m)
hd := demag.Output()
// Msat := 1.0053
// aex := mag.Mu0 * 13e-12 / Msat
// hex := MakeChan3("Hex", "", mesh)
// Stack(mag.NewExchange6(m.NewReader(), hex, mesh, aex))
//
// heff := MakeChan3("Heff", "", mesh)
// Stack(NewAdder3(heff, hd.NewReader(), hex.NewReader()))
//
// const alpha = 1
// torque := MakeChan3("τ", "", mesh)
// Stack(mag.NewLLGTorque(torque, m.NewReader(), heff.NewReader(), alpha))
//
// const dt = 50e-15
// solver := mag.NewEuler(m, torque.NewReader(), mag.Gamma0, dt)
// mag.SetAll(m.UnsafeArray(), mag.Uniform(0, 0.1, 1))
// Stack(dump.NewAutosaver("h.dump", hd.NewReader(), 1))
// Stack(dump.NewAutosaver("m.dump", m.NewReader(), 1))
// Stack(dump.NewAutosaver("hex.dump", hex.NewReader(), 1))
// Stack(dump.NewAutotable("m.table", m.NewReader(), 1))
//
// RunStack()
//
// solver.Steps(100)
// res := m.UnsafeArray()
// got := [3]float32{res[0][0][0][0], res[1][0][0][0], res[2][0][0][0]}
// expect := [3]float32{-0.075877085, 0.17907967, 0.9809043}
// Log("result:", got)
// if got != expect {
// Fatal(fmt.Errorf("expected: %v", expect))
// }
//solver.Steps(10000)
ProfDump(os.Stdout)
Cleanup()
}
func main() {
nimble.Init()
defer nimble.Cleanup()
nimble.SetOD("gpueuler.out")
N0, N1, N2 := 1, 32, 128
cx, cy, cz := 3e-9, 3.125e-9, 3.125e-9
mesh := nimble.NewMesh(N0, N1, N2, cx, cy, cz)
fmt.Println("mesh:", mesh)
m := nimble.MakeChanN(3, "m", "", mesh, nimble.UnifiedMemory, 0)
fmt.Println("m:", m)
acc := 8
kernel := mag.BruteKernel(mesh, acc)
B := conv.NewSymm2D("B", "T", mesh, nimble.UnifiedMemory, kernel, m).Output()
const (
Bsat = 1.0053
aex = mag.Mu0 * 13e-12 / Bsat
α = 1
)
//exch := cpu.NewExchange6("Bex", "T", nimble.UnifiedMemory, m.NewReader(), aex)
exch := gpu.NewExchange6("Bex", m, aex)
nimble.Stack(exch)
Bex := exch.Output()
// heff := MakeChan3("Heff", "", mesh)
Beff := gpu.NewSum("Beff", B, Bex, Bsat, 1, nimble.UnifiedMemory).Output()
tBox := gpu.NewLLGTorque("torque", m, Beff, α)
nimble.Stack(tBox)
torque := tBox.Output()
const dt = 100e-15
solver := gpu.NewEuler(m, torque, mag.Gamma0, dt)
M := cpu.Host(m.ChanN().UnsafeData())
for i := range M[2] {
M[2][i] = 1
M[1][i] = 0.1
}
every := 100
nimble.Autosave(B, every)
nimble.Autosave(m, every)
nimble.Autosave(Bex, every)
nimble.Autosave(Beff, every)
nimble.Autosave(torque, every)
nimble.Autotable(m, every)
nimble.RunStack()
solver.Steps(100)
res := cpu.Host(m.ChanN().UnsafeData())
got := [3]float32{res[0][0], res[1][0], res[2][0]}
expect := [3]float32{-0.033120323, 0.20761484, 0.9776498}
solver.Steps(10000)
fmt.Println("result:", got)
if got != expect {
fmt.Println("expected:", expect)
os.Exit(2)
} else {
fmt.Println("OK")
}
}
