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prof.py
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prof.py
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import cvxpy as cp
import numpy as np
from scipy import sparse
from scipy.sparse import linalg as splinalg
import time
import diffcp.cone_program as cone_prog
import diffcp.cones as cone_lib
import diffcp.utils as utils
m = 100
n = 50
A, b, c, cone_dims = utils.least_squares_eq_scs_data(m, n)
for mode in ["lsqr", "dense"]:
x, y, s, derivative, adjoint_derivative = cone_prog.solve_and_derivative(
A, b, c, cone_dims, eps=1e-10, mode=mode)
dA = utils.get_random_like(
A, lambda n: np.random.normal(0, 1e-2, size=n))
db = np.random.normal(0, 1e-2, size=b.size)
dc = np.random.normal(0, 1e-2, size=c.size)
derivative_time = 0.0
for _ in range(10):
tic = time.time()
dx, dy, ds = derivative(dA, db, dc)
toc = time.time()
derivative_time += (toc - tic) / 10
adjoint_derivative_time = 0.0
for _ in range(10):
tic = time.time()
dA, db, dc = adjoint_derivative(
c, np.zeros(y.size), np.zeros(s.size))
toc = time.time()
adjoint_derivative_time += (toc - tic) / 10
print(mode, derivative_time, adjoint_derivative_time)