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6
uke3.py
6
uke3.py
@ -3,7 +3,7 @@
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"""
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Created on Thu Sep 28 08:23:56 2023
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@author: Inna Gumauri, Trygve Børte Nomeland
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@author: innagumauri
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"""
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#%% Task 1
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@ -47,7 +47,7 @@ def print_imp_dir(path="./"):
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p = Path(path)
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files = list(p.glob('*.py'))
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for f in files:
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print(f'{Path.cwd()}/{f}: {get_imp_file(f)}')
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print(f'{Path.cwd()}+{f}: {get_imp_file(f)}')
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print_imp_dir()
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# %%
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uke5.py
25
uke5.py
@ -1,25 +0,0 @@
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import numpy as np
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def relu(y):
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return np.maximum(0, y)
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def layer(W, x, b):
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return relu(W @ x + b)
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n = [64,128,128,128,10]
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print(f"Dimensions: {n}")
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# First layer
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x = np.random.rand(n[0])
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b = np.random.rand(n[1])
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y = np.random.rand(128,64)
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y = layer(y, x, b)
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for i in range(2, len(n)):
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W = np.random.rand(n[i], n[i - 1])
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b = np.random.rand(n[i])
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y = layer(W, y, b)
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print(y)
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107
uke6.py
107
uke6.py
@ -1,107 +0,0 @@
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import numpy as np
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from copy import deepcopy
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class Network:
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def __init__(self):
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self.layers = []
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class Layer:
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def __init__(self, w_file=None, b_file=None):
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# define dimensions
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self.n_layers = 4
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self.n_inputs = 784
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self.n_outputs = 10
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self.n = [self.n_inputs, 512, 256, self.n_outputs]
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self.x = np.random.rand(self.n_inputs)
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# define weights and biases
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# generate random wheights if no file is provided. else read the file
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if w_file == None:
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self.W_list = []
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for (self.n_cur, self.n_next) in zip(self.n[:-1], self.n[1:]):
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self.W_list.append(np.random.rand(self.n_next, self.n_cur))
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else:
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with open(w_file) as f:
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lines = f.readlines()
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self.W_list = [x.split(' ') for x in lines]
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self.W_list = [[float(n) for n in x] for x in self.W_list]
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f.close()
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if b_file == None:
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self.b_list = []
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for (self.n_cur, self.n_next) in zip(self.n[:-1], self.n[1:]):
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self.b_list.append(np.random.rand(self.n_next))
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else:
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with open(b_file) as f:
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lines = f.readlines()
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self.b_list = [x.split(' ') for x in lines]
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self.b_list = [[float(n) for n in x] for x in self.W_list]
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f.close()
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print(len(self.W_list[0]), len(self.b_list[0]), len(self.x))
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print(len(self.W_list[-1]), len(self.b_list[-1]), len(self.x))
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def run(self):
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print(f(self.W_list, self.b_list, self.x))
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# define activation function
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def sigma(y):
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if y > 0:
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return y
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else:
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return 0
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sigma_vec = np.vectorize(sigma)
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# define layer function for given weight matrix, input and bias
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def layer(W, x, b):
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return sigma_vec(W @ x + b)
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# define neural network with all weights W and all biases b in W_list and b_list
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def f(W_list, b_list, x):
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y = deepcopy(x) # deepcopy so that input is not changed
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for W, b in zip(W_list, b_list):
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y = layer(W, y, b) # call layer multiple times with all weights and biases
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return y
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def main():
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l = Layer()
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l.run()
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l2 = Layer(w_file = 'W_1.txt', b_file = 'b_1.txt')
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l2.run()
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def gamle_greier():
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# define dimensions
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n_layers = 4
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n_inputs = 64
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n_outputs = 10
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n = [n_inputs, 128, 128, n_outputs]
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# define weights and biases
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W_list = []
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b_list = []
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for (n_cur, n_next) in zip(n[:-1], n[1:]):
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W_list.append(np.random.rand(n_next, n_cur))
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b_list.append(np.random.rand(n_next))
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# generate random input (this would usually be pixels of an image)
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x = np.random.rand(n_inputs)
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# call the network
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print(f(W_list, b_list, x))
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for W in W_list:
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print(W.shape)
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if __name__ == '__main__':
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main()
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gamle_greier()
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