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python - Error in calculating integral for 2D interpolation. Comparing numpy arrays

My optimization task deals with calculation of the following integral and finding the best values of xl and xu:

mathematical formula of an integral from x_l to x_u

Iterations take too long, so I decided to speed them up by calculating integral for all possible values xl and xu and then interpolate calculated values during optimization.

I wrote the following function:

def k_integrand(x, xl, xu):
    return((x**2)*mpmath.exp(x))/((xu - xl)*(mpmath.exp(x)-1)**2)
@np.vectorize   
def K(xl, xu):
    y, err = integrate.quad(k_integrand, xl, xu, args = (xl, xu))
    return y

and two identical arrays grid_xl and grid_xu with dinamic increment of values.

When I run the code I get this:

K(grid_xl, grid_xu)
Traceback (most recent call last):

  File "<ipython-input-2-5b9df02f12b7>", line 1, in <module>
    K(grid_xl, grid_xu)

  File "C:/Users/909404/OneDrive/Работа/ZnS-FeS/Теплоемкость/Python/CD357/4 - Optimization CD357 interpolation.py", line 75, in K
    y, err = integrate.quad(k_integrand, xl, xu, args = (xl, xu))

  File "C:Users909404Anaconda3libsite-packagesscipyintegratequadpack.py", line 323, in quad
    points)

  File "C:Users909404Anaconda3libsite-packagesscipyintegratequadpack.py", line 372, in _quad
    if (b != Inf and a != -Inf):

ValueError: The truth value of an array with more than one element is ambiguous. Use a.any() or a.all()

I guess it comes from the fact that xl should be always less than xu. Is there any way to compare the values of xl and xu and return NaN in case if xl>=xu?

In the end I want to have something like this: Table

And to have the ability to use interpolation.

Maybe I have chosen the wrong way? I'd appreciate any help.

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by (71.8m points)

I can't reproduce your error unless I omit the np.vectorize decorator. Setting xl/xu values that coincide does give me a ZeroDivisionError though.

Anyway, there's nothing stopping you from checking the values of xu vs xl in your higher-level function. That way you can skip integration entirely for nonsensical data points and return np.nan early:

import numpy as np
import mpmath
import scipy.integrate as integrate

def k_integrand(x, xl, xu):    
    return ((x**2)*mpmath.exp(x))/((xu - xl)*(mpmath.exp(x)-1)**2)

@np.vectorize   
def K(xl, xu):
    if xu <= xl:
        # don't even try to integrate
        return np.nan
    y, err = integrate.quad(k_integrand, xl, xu, args = (xl, xu))
    return y

grid_xl = np.linspace(0.1,1,10)        # shape (10,) ~ (1,10)
grid_xu = np.linspace(0.5,4,8)[:,None] # shape (8,1)

With these definitions I get (following np.set_printoptions(linewidth=200) for easier comparison:

In [35]: K(grid_xl, grid_xu)
Out[35]: 
array([[0.99145351, 0.98925197, 0.98650808, 0.98322919,        nan,        nan,        nan,        nan,        nan,        nan],
       [0.97006703, 0.96656815, 0.96254363, 0.95800307, 0.95295785, 0.94742104, 0.94140733, 0.93493293, 0.9280154 ,        nan],
       [0.93730403, 0.93263063, 0.92745487, 0.92178832, 0.91564423, 0.90903747, 0.90198439, 0.89450271, 0.88661141, 0.87833062],
       [0.89565597, 0.88996696, 0.88380385, 0.87717991, 0.87010995, 0.8626103 , 0.85469862, 0.84639383, 0.83771595, 0.82868601],
       [0.84794429, 0.8414176 , 0.83444842, 0.82705134, 0.81924245, 0.81103915, 0.8024601 , 0.79352503, 0.7842547 , 0.77467065],
       [0.79692339, 0.78974   , 0.78214742, 0.77416128, 0.76579857, 0.75707746, 0.74801726, 0.73863822, 0.72896144, 0.71900874],
       [0.7449893 , 0.73732055, 0.7292762 , 0.72087263, 0.71212741, 0.70305921, 0.69368768, 0.68403329, 0.67411725, 0.66396132],
       [0.69402415, 0.68602325, 0.67767956, 0.66900991, 0.66003222, 0.65076537, 0.6412291 , 0.63144388, 0.62143077, 0.61121128]])

You can see that the values perfectly agree with your linked image.

Now, I've got bad news and good news. The bad news is that while np.vectorize provides syntactical sugar around calling your scalar integration function with array inputs, it won't actually give you speed-up compared to a native for loop. The good news is that you can replace the calls to mpmath.exp with calls to np.exp and you'll end up with the same result much faster:

def k_integrand_np(x, xl, xu):    
    return ((x**2)*np.exp(x))/((xu - xl)*(np.exp(x)-1)**2)

@np.vectorize   
def K_np(xl, xu):
    if xu <= xl:
        # don't even try to integrate
        return np.nan
    y, err = integrate.quad(k_integrand_np, xl, xu, args = (xl, xu))
    return y

With these definitions

In [14]: res_mpmath = K(grid_xl, grid_xu)
    ...: res_np = K_np(grid_xl, grid_xu)
    ...: inds = ~np.isnan(res_mpmath)
    ...: 

In [15]: np.array_equal(res_mpmath[inds], res_np[inds])
Out[15]: True

In [16]: %timeit K(grid_xl, grid_xu)
107 ms ± 521 μs per loop (mean ± std. dev. of 7 runs, 10 loops each)

In [17]: %timeit K_np(grid_xl, grid_xu)
7.26 ms ± 157 μs per loop (mean ± std. dev. of 7 runs, 100 loops each)

So the two methods give the same result (exactly!), but the numpy version is almost 15 times faster.


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