DavidButts
DavidButts
/ Julia-Numpy-Numba.py
Created
January 26, 2018 16:31
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| import time | |
| import numpy as np | |
| from numba import jit | |
| x_dim = 1000 | |
| y_dim = 1000 | |
| x_min = -1.8 | |
| x_max = 1.8 | |
| y_min = -1.8j | |
| y_max = 1.8j |
DavidButts
/ Julia-Python-Numba.py
Created
January 26, 2018 16:29
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| import time | |
| import numpy as np | |
| from numba import njit, prange | |
| x_dim = 1000 | |
| y_dim = 1000 | |
| x_min = -1.8 | |
| x_max = 1.8 | |
| y_min = -1.8j | |
| y_max = 1.8j |
DavidButts
/ Julia-Numpy.py
Created
January 26, 2018 15:59
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| import time #timing | |
| import numpy as np #arrays | |
| import numba as nb #speed | |
| x_dim = 1000 | |
| y_dim = 1000 | |
| x_min = -1.8 | |
| x_max = 1.8 | |
| y_min = -1.8j | |
| y_max = 1.8j |
DavidButts
/ Julia-Python.py
Created
January 26, 2018 15:40
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| import time #timing | |
| import numpy as np #arrays | |
| import numba as nb #speed | |
| x_dim = 1000 | |
| y_dim = 1000 | |
| x_min = -1.8 | |
| x_max = 1.8 | |
| y_min = -1.8j | |
| y_max = 1.8j |
DavidButts
/ C++David-Timing.cpp
Last active
January 13, 2018 20:37
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| //Written by David Butts | |
| #include<time.h> | |
| #include<chrono> | |
| #include<thread> | |
| #include<iomanip> | |
| int next_val(const vector<int> &v){ | |
| if (v == vector<int>{0,0,0}) | |
| return 0; | |
| else if (v == vector<int>{0,0,1}) | |
| return 0; |
DavidButts
/ C++Bill-Timing.cpp
Last active
January 13, 2018 20:37
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| //Written by Bill Punch | |
| #include<iostream> | |
| using std::cout; using std::endl; using std::boolalpha; | |
| #include<chrono> | |
| #include<iomanip> | |
| #include<bitset> | |
| using std::bitset; | |
| int main() { | |
| const size_t sz = 100000; |
DavidButts
/ Numba-Timing.py
Last active
January 13, 2018 20:15
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| #Written by David Butts | |
| #This code is an implementation of a Rule 30 Wolfram model written in Python. | |
| import numpy as np | |
| import time | |
| import numba | |
| @nb.jit #numba the function | |
| def Rule30_code(): | |
| Rule30 = np.zeros((1000,100000)) #initilize an array to run on (timesteps, width) | |
| Rule30[0,50] = 1 | |
| for y in range(Rule30.shape[0]-1): #iterate through grid |
DavidButts
/ Python-Timing.py
Last active
January 13, 2018 20:09
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| #Written by David Butts | |
| #This code is an implementation of a Rule 30 Wolfram model written in Python. | |
| import numpy as np | |
| import time | |
| def Rule30_code(): | |
| Rule30 = np.zeros((1000,100000)) #initilize an array to run on (timesteps, width) | |
| Rule30[0,50] = 1 | |
| for y in range(Rule30.shape[0]-1): #iterate through grid | |
| for x in range(Rule30.shape[1]): | |
| #update the next rows values according to neighbor & self value |