Commit e1c5288c by Zoltan Karsa

remove unused modules

parent dfdf4126
...@@ -291,8 +291,8 @@ __device__ void DAB_oldal(int v, int w, const vec3& C, const vec3& D, char* egys ...@@ -291,8 +291,8 @@ __device__ void DAB_oldal(int v, int w, const vec3& C, const vec3& D, char* egys
} }
} }
__global__ void gpu_egyensulyi(int v, int w, double* Cx_arr, double* Cy_arr, __global__ void gpu_egyensulyi(int v, int w, const double* Cx_arr, const double* Cy_arr,
double* Dx_arr, double* Dy_arr, double* Dz_arr, int size_C, int size_D, int lcm, char* egysulyi_mtx) { const double* Dx_arr, const double* Dy_arr, const double* Dz_arr, int size_C, int size_D, int lcm, char* egysulyi_mtx) {
int pos = blockDim.x * blockIdx.x + threadIdx.x; int pos = blockDim.x * blockIdx.x + threadIdx.x;
if (pos >= size_C*size_D) if (pos >= size_C*size_D)
return; return;
......
import cupy as cp, matplotlib.pyplot as plt import cupy as cp
from numba import cuda from numba import cuda
from utils import expSpace from utils import expSpace
from mpi import size, rank from mpi import size, rank
def gen_angels_to_pick(n, plot = False): def gen_angels_to_pick(n):
if n % 2 == 0: if n % 2 == 0:
raise "n%2==0" raise "n%2==0"
N = int((n + 3) / 2) N = int((n + 3) / 2)
...@@ -14,11 +14,6 @@ def gen_angels_to_pick(n, plot = False): ...@@ -14,11 +14,6 @@ def gen_angels_to_pick(n, plot = False):
anglestopick = cp.concatenate((X1, X3), axis=None) anglestopick = cp.concatenate((X1, X3), axis=None)
anglestopick = cp.unique(anglestopick) # Vigyázni vele! anglestopick = cp.unique(anglestopick) # Vigyázni vele!
anglestopick = anglestopick[1:-1] anglestopick = anglestopick[1:-1]
if plot:
Y = cp.zeros(n)
plt.plot(anglestopick, Y, '|')
plt.show()
return anglestopick return anglestopick
......
...@@ -37,12 +37,14 @@ def main(argv): ...@@ -37,12 +37,14 @@ def main(argv):
elif opt in ("-m", "--mpi"): elif opt in ("-m", "--mpi"):
mpi = True mpi = True
space = gen_angels_to_pick(n, PLOT) space = gen_angels_to_pick(n)
Cx, Cy = angles_alap(space) Cx, Cy = angles_alap(space)
Dx, Dy, Dz = angles_ratet(space, mpi) Dx, Dy, Dz = angles_ratet(space, mpi)
del space
res = start_kernel(Cx, Cy, Dx, Dy, Dz, v, w) res = start_kernel(Cx, Cy, Dx, Dy, Dz, v, w)
Cx_cpu = np.zeros(Cx.size, dtype=np.float64) Cx_cpu = np.zeros(Cx.size, dtype=np.float64)
......
import cupy as cp import cupy as cp
from functools import wraps
import time import time
import numpy as np import numpy as np
from mpi import size, rank from mpi import size, rank
...@@ -12,17 +11,6 @@ ep_pontok_module = cp.RawModule(code=code, options=('--std=c++11',), name_expres ...@@ -12,17 +11,6 @@ ep_pontok_module = cp.RawModule(code=code, options=('--std=c++11',), name_expres
exact_one_cuda = ep_pontok_module.get_function(kers[0]) exact_one_cuda = ep_pontok_module.get_function(kers[0])
filter_cuda = ep_pontok_module.get_function(kers[1]) filter_cuda = ep_pontok_module.get_function(kers[1])
def timeit(func):
@wraps(func)
def timeit_wrapper(*args, **kwargs):
start_time = time.perf_counter()
result = func(*args, **kwargs)
end_time = time.perf_counter()
total_time = end_time - start_time
print(f'Function {func.__name__}{args} {kwargs} Took {total_time:.4f} seconds')
return result
return timeit_wrapper
def expSpace(min, max, N, exponentialliness = 20.0): def expSpace(min, max, N, exponentialliness = 20.0):
LinVec = cp.linspace(0, cp.log10(exponentialliness+1, dtype=cp.float64),N, dtype=cp.float64) LinVec = cp.linspace(0, cp.log10(exponentialliness+1, dtype=cp.float64),N, dtype=cp.float64)
return (max-min)/exponentialliness * (10.0**LinVec - 1) + min return (max-min)/exponentialliness * (10.0**LinVec - 1) + min
......
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