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FiniteVolumeGPU/GPUSimulators/KP07_dimsplit.py
André R. Brodtkorb 803ce8ab70 Working prototype of autotuning
2018-08-23 11:47:18 +02:00

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4.3 KiB
Python
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# -*- coding: utf-8 -*-
"""
This python module implements the Kurganov-Petrova numerical scheme
for the shallow water equations, described in
A. Kurganov & Guergana Petrova
A Second-Order Well-Balanced Positivity Preserving Central-Upwind
Scheme for the Saint-Venant System Communications in Mathematical
Sciences, 5 (2007), 133-160.
Copyright (C) 2016 SINTEF ICT
This program 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.
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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
"""
#Import packages we need
import numpy as np
from GPUSimulators import Simulator
"""
Class that solves the SW equations using the dimentionally split KP07 scheme
"""
class KP07_dimsplit (Simulator.BaseSimulator):
"""
Initialization routine
h0: Water depth incl ghost cells, (nx+1)*(ny+1) cells
hu0: Initial momentum along x-axis incl ghost cells, (nx+1)*(ny+1) cells
hv0: Initial momentum along y-axis incl ghost cells, (nx+1)*(ny+1) cells
nx: Number of cells along x-axis
ny: Number of cells along y-axis
dx: Grid cell spacing along x-axis (20 000 m)
dy: Grid cell spacing along y-axis (20 000 m)
dt: Size of each timestep (90 s)
g: Gravitational accelleration (9.81 m/s^2)
"""
def __init__(self, \
context, \
h0, hu0, hv0, \
nx, ny, \
dx, dy, dt, \
g, \
theta=1.3, \
block_width=16, block_height=16):
# Call super constructor
super().__init__(context, \
h0, hu0, hv0, \
nx, ny, \
2, 2, \
dx, dy, dt, \
g, \
block_width, block_height);
self.theta = np.float32(theta)
#Get kernels
self.kernel = context.get_prepared_kernel("KP07_dimsplit_kernel.cu", "KP07DimsplitKernel", \
"iifffffiPiPiPiPiPiPi", \
BLOCK_WIDTH=self.local_size[0], \
BLOCK_HEIGHT=self.local_size[1])
def __str__(self):
return "Kurganov-Petrova 2007 dimensionally split"
def simulate(self, t_end):
return super().simulateDimsplit(t_end)
def stepEuler(self, dt):
return self.stepDimsplitXY(dt)
def stepDimsplitXY(self, dt):
self.kernel.prepared_async_call(self.global_size, self.local_size, self.stream, \
self.nx, self.ny, \
self.dx, self.dy, dt, \
self.g, \
self.theta, \
np.int32(0), \
self.data.h0.data.gpudata, self.data.h0.data.strides[0], \
self.data.hu0.data.gpudata, self.data.hu0.data.strides[0], \
self.data.hv0.data.gpudata, self.data.hv0.data.strides[0], \
self.data.h1.data.gpudata, self.data.h1.data.strides[0], \
self.data.hu1.data.gpudata, self.data.hu1.data.strides[0], \
self.data.hv1.data.gpudata, self.data.hv1.data.strides[0])
self.data.swap()
self.t += dt
def stepDimsplitYX(self, dt):
self.kernel.prepared_async_call(self.global_size, self.local_size, self.stream, \
self.nx, self.ny, \
self.dx, self.dy, dt, \
self.g, \
self.theta, \
np.int32(1), \
self.data.h0.data.gpudata, self.data.h0.data.strides[0], \
self.data.hu0.data.gpudata, self.data.hu0.data.strides[0], \
self.data.hv0.data.gpudata, self.data.hv0.data.strides[0], \
self.data.h1.data.gpudata, self.data.h1.data.strides[0], \
self.data.hu1.data.gpudata, self.data.hu1.data.strides[0], \
self.data.hv1.data.gpudata, self.data.hv1.data.strides[0])
self.data.swap()
self.t += dt
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