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.gitignore
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1
.gitignore
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@ -138,3 +138,4 @@ dmypy.json
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# Cython debug symbols
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cython_debug/
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sgd_hw/
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3
.vscode/settings.json
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3
.vscode/settings.json
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{
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"python.pythonPath": "sgd_hw\\Scripts\\python.exe"
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}
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BIN
AI_2020_project_2.pdf
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BIN
AI_2020_project_2.pdf
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192
layer.py
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192
layer.py
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import numpy as np
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from contextlib import contextmanager
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from typing import Generator, Dict, Union
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import io
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#only scalar gradient
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#op must be tree. 그래프 구현할려면, 위상정렬해서 순회해야하기 때문에 그렇게 하지 않음.
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class NonExistVarableError(ValueError):
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pass
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def make_mermaid_graph(result):
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with io.StringIO("") as graph:
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graph.write("graph TD\n")
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result.mermaid_graph(graph)
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graph.write(f"{id(result)}-->Result\n")
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return graph.getvalue()
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class OpTree:
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def __init__(self):
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super().__init__()
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def __matmul__(self,a):
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return MatMulOp(self,a)
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def __add__(self,a):
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return AddOp(self,a)
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@property
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def T(self):
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return TransposeOp(self)
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class MatMulOp(OpTree):
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def __init__(self,a,b):
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super().__init__()
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self.a = a
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self.b = b
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va = self.a.numpy() if isinstance(self.a,OpTree) else self.a
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vb = self.b.numpy() if isinstance(self.b,OpTree) else self.b
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self.v = va @ vb
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def __str__(self):
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return f"MatmulOp"
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def mermaid_graph(self,writer):
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if isinstance(self.a,OpTree):
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self.a.mermaid_graph(writer)
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writer.write(f'{id(self.a)}-->{id(self)}[MatmulOp]\n')
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if isinstance(self.b,OpTree):
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self.b.mermaid_graph(writer)
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writer.write(f'{id(self.b)}-->{id(self)}[MatmulOp]\n')
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def numpy(self):
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return self.v
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def backprop(self,seed):
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#a @ b
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a = self.a.numpy() if isinstance(self.a,OpTree) else self.a
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b = self.b.numpy() if isinstance(self.b,OpTree) else self.b
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if isinstance(self.a,OpTree):
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s = seed * np.transpose(b) if seed.shape == () else (seed) @ np.transpose(b)
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#print('seed : ', s)
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self.a.backprop((s))
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if isinstance(self.b,OpTree):
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s = np.transpose(a) * seed if seed.shape == () else np.transpose(a) @ seed
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#print('seed : ', s)
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self.b.backprop(s)
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def matmul(a,b):
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return MatMulOp(a,b)
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class AddOp(OpTree):
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def __init__(self,a,b):
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super().__init__()
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self.a = a
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self.b = b
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va = self.a.numpy() if isinstance(self.a,OpTree) else self.a
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vb = self.b.numpy() if isinstance(self.b,OpTree) else self.b
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self.v = va + vb
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def __str__(self):
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return f"AddOp"
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def mermaid_graph(self,writer):
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if isinstance(self.a,OpTree):
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self.a.mermaid_graph(writer)
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writer.write(f'{id(self.a)}-->{id(self)}[AddOp]\n')
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if isinstance(self.b,OpTree):
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self.b.mermaid_graph(writer)
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writer.write(f'{id(self.b)}-->{id(self)}[AddOp]\n')
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def numpy(self):
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return self.v
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def backprop(self,seed):
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#borad_casted = self.a.shape != self.b.shape
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#np.ones((1,b.shape[1]))
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#a + b
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if isinstance(self.a,OpTree):
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self.a.backprop(seed)
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if isinstance(self.b,OpTree):
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self.b.backprop(seed)
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def addmul(a,b):
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return AddOp(a,b)
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class FunctionOp(OpTree):
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def __init__(self,f, f_grad, f_name, i):
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super().__init__()
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self.f = np.vectorize(f)
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self.f_grad = np.vectorize(f_grad)
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self.f_name = f_name
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self.i = i
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self.v = self.f(i.numpy())
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def __str__(self):
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return f"Function{self.f_name}Op"
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def mermaid_graph(self,writer):
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self.i.mermaid_graph(writer)
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writer.write(f'{id(self.i)}-->{id(self)}[Function{self.f_name}Op]\n')
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def numpy(self):
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return self.v
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def backprop(self,seed):
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self.i.backprop(seed * (self.f_grad(self.i.numpy())))
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class TransposeOp(OpTree):
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def __init__(self, i):
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super().__init__()
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self.i = i
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self.v = np.transpose(i.numpy())
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def __str__(self):
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return f"TransposeOp"
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def mermaid_graph(self,writer):
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self.i.mermaid_graph(writer)
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writer.write(f'{id(self.i)}-->{id(self)}[TransposeOp]\n')
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def numpy(self):
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return self.v
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def backprop(self,seed):
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self.i.backprop(np.transpose(seed))
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def transposemul(a):
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return TransposeOp(a)
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def relu(v):
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relu_f = lambda x: np.max([x,0])
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relu_diff = lambda x: 1 if x > 0 else 0
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return FunctionOp(relu_f,relu_diff,"Relu",v)
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class Variable(OpTree):
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def __init__(self,x):
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super().__init__()
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self.x = x
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self.grad = None
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def numpy(self):
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return self.x
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def mermaid_graph(self,writer):
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writer.write(f'{id(self)}["Variable{self.x.shape}"]\n')
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def backprop(self,seed):
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self.grad = seed
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"""
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input_var = Variable(np.array([[1],[2],[3]]))
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weight = Variable(np.array([[2,-1,1]]))
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v = relu(weight @ input_var)
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print(f"result : {v.numpy()}")
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v.backprop(np.ones(()))
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print(f"grad input : {input_var.grad}, w : {weight.grad}")
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"""
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#input_diff = Variable(np.array([[1.01],[2],[3]]))
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#v_diff = relu(weight @ input_diff)
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#print(f"diff 1 : {(np.sum(v_diff.numpy()) - v.numpy()) / 0.01}")
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#i -= grad * delta
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"""
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graph TD
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2284612545696["Variable(1, 3)"]
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2284612545696-->2284612624880[MatmulOp]
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2284612544496["Variable(3, 2)"]
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2284612544496-->2284612624880[MatmulOp]
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2284612624880-->2284612625072[FunctionReluOp]
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2284612625072-->2284612627856[MatmulOp]
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2284612627856-->Result
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"""
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32
p2.py
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32
p2.py
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from layer import *
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import numpy as np
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import pickle
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DIMENTION = 3
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VAR_RANGE = 1
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N = 10
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ALPHA = 0.1
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SIGMA = VAR_RANGE * ALPHA
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gen: np.random.Generator = np.random.default_rng()
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or_weight = (gen.uniform(high = VAR_RANGE,low = -VAR_RANGE,size=(1,DIMENTION)))
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or_bias = (gen.uniform(high = VAR_RANGE, low = -VAR_RANGE,size=()))
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print(or_bias)
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input_x = gen.uniform(low = -VAR_RANGE,high=VAR_RANGE,size=(DIMENTION,N))
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y = or_weight @ input_x + or_bias
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error = gen.normal(0,SIGMA,size = (1,N))
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y += error
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print(y)
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input_var = Variable(np.array([[1],[2],[3]]))
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weight = Variable(np.array([[2,-1,1]]))
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bias = Variable(np.array([[1]]))
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v = ((weight @ input_var) + bias)
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print(make_mermaid_graph(v))
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print(f"result : {v.numpy()}")
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v.backprop(np.ones(()))
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print(f"grad input : {input_var.grad}, w : {weight.grad}, b : {bias.grad}")
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BIN
requirements.txt
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BIN
requirements.txt
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