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A Speed Comparison Of C, Julia, Python, Numba, and Cython on LU Factorization
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| // lu.c | |
| inline int _(int row, int col, int rows){ | |
| return row*rows + col; | |
| } | |
| void det_by_lu(double *y, double *x, int N){ | |
| int i,j,k; | |
| *y = 1.; | |
| for(k = 0; k < N; ++k){ | |
| *y *= x[_(k,k,N)]; | |
| for(i = k+1; i < N; ++i){ | |
| x[_(i,k,N)] /= x[_(k,k,N)]; | |
| } | |
| for(i = k+1; i < N; ++i){ | |
| #pragma omp simd | |
| for(j = k+1; j < N; ++j){ | |
| x[_(i,j,N)] -= x[_(i,k,N)] * x[_(k,j,N)]; | |
| } | |
| } | |
| } | |
| } |
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| function det_by_lu(y, x, N) | |
| y[1] = 1. | |
| for k = 1:N | |
| y[1] *= x[k,k] | |
| for i = k+1:N | |
| x[i,k] /= x[k,k] | |
| end | |
| for j = k+1:N | |
| for i = k+1:N | |
| x[i,j] -= x[i,k] * x[k,j] | |
| end | |
| end | |
| end | |
| end | |
| function run_julia(y,A,B,N) | |
| loops = max(10000000 // (N*N), 1) | |
| print(loops) | |
| for l in 1:loops | |
| B[:,:] = A | |
| det_by_lu(y, B, N) | |
| end | |
| end | |
| y = [0.0] | |
| N=5 | |
| A = rand(N,N) | |
| B = zeros(N,N) | |
| @time run_julia(y,A,B,N) | |
| N=5 | |
| A = rand(N,N) | |
| B = zeros(N,N) | |
| @time run_julia(y,A,B,N) | |
| N=10 | |
| A = rand(N,N) | |
| B = zeros(N,N) | |
| @time run_julia(y,A,B,N) | |
| N=30 | |
| A = rand(N,N) | |
| B = zeros(N,N) | |
| @time run_julia(y,A,B,N) | |
| N=100 | |
| A = rand(N,N) | |
| B = zeros(N,N) | |
| @time run_julia(y,A,B,N) | |
| N=200 | |
| A = rand(N,N) | |
| B = zeros(N,N) | |
| @time run_julia(y,A,B,N) | |
| N=300 | |
| A = rand(N,N) | |
| B = zeros(N,N) | |
| @time run_julia(y,A,B,N) | |
| N=400 | |
| A = rand(N,N) | |
| B = zeros(N,N) | |
| @time run_julia(y,A,B,N) | |
| N=600 | |
| A = rand(N,N) | |
| B = zeros(N,N) | |
| @time run_julia(y,A,B,N) | |
| N=1000 | |
| A = rand(N,N) | |
| B = zeros(N,N) | |
| @time run_julia(y,A,B,N) | |
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