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class EigenvalueMethods:
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@staticmethod
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def power_method(LinAlgType, A, max_iter, tol=1e-6):
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n = len(A)
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x = [1] * n
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lambda_old = 0
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for _ in range(max_iter):
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2024-10-25 17:01:19 +02:00
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x = LinAlgType.matrix_vector_multiply(A, x)
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lambda_new = LinAlgType.vector_norm(x)
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x = LinAlgType.vector_scalar_divide(x, lambda_new)
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if abs(lambda_new - lambda_old) < tol:
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break
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lambda_old = lambda_new
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return lambda_new
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@staticmethod
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2024-10-25 17:01:19 +02:00
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def inverse_power_method(LinAlgType, A, max_iter, tol=1e-6):
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2024-10-20 16:30:42 +02:00
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n = len(A)
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I = [[1 if i == j else 0 for j in range(n)] for i in range(n)]
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A_inv = [LinAlgType.gaussian_elimination(A.tolist(), I_col) for I_col in I]
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A_inv = list(map(list, zip(*A_inv)))
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2024-10-25 17:01:19 +02:00
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return 1 / EigenvalueMethods.power_method(LinAlgType, A_inv, max_iter, tol)
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