DAS_2024_1/kadyrov_aydar_lab_6/app.py
2024-12-01 21:48:26 +04:00

66 lines
1.9 KiB
Python

import threading
#fix
import time
import random
import numpy as np
from concurrent.futures import ThreadPoolExecutor
def gaussian_determinant(matrix):
n = len(matrix)
mat = [row[:] for row in matrix]
for i in range(n):
max_row = max(range(i, n), key=lambda r: abs(mat[r][i]))
mat[i], mat[max_row] = mat[max_row], mat[i]
if mat[i][i] == 0:
return 0
for j in range(i + 1, n):
factor = mat[j][i] / mat[i][i]
for k in range(i, n):
mat[j][k] -= mat[i][k] * factor
det = 1
for i in range(n):
det *= mat[i][i]
return det
def parallel_determinant(matrix, num_threads=4):
n = len(matrix)
result = []
def worker(start_row, end_row):
partial_det = 1
for i in range(start_row, end_row):
partial_det *= matrix[i][i]
result.append(partial_det)
with ThreadPoolExecutor(max_workers=num_threads) as executor:
rows_per_thread = n // num_threads
futures = [executor.submit(worker, i * rows_per_thread, (i + 1) * rows_per_thread) for i in range(num_threads)]
for future in futures:
future.result()
return sum(result)
def generate_matrix(size):
return [[random.randint(1, 10) for _ in range(size)] for _ in range(size)]
matrix_sizes = [100, 300, 500]
num_threads = 4
for size in matrix_sizes:
print(f"\nБенчмарки для матрицы {size}x{size}:")
matrix = generate_matrix(size)
start = time.time()
det_seq = gaussian_determinant(matrix)
end = time.time()
print(f"Детерминант (последовательно, метод Гаусса): {det_seq}, время: {end - start:.5f} сек")
start = time.time()
det_par = parallel_determinant(matrix, num_threads=num_threads)
end = time.time()
print(f"Детерминант (параллельно): {det_par}, время: {end - start:.5f} сек")