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I'm looking for a super duper numerical quadrature function. It should have the following three properties:

  • Adaptive - it automatically adjusts the density of sampling points to fit the integrand. This is absolutely necessary because my integrand is very nonuniform and expensive to compute.
  • Vectorized - it calls the integrand on lists of sample points rather than one point at a time, for efficiency.
  • Able to handle vector-valued functions - all components of the vector-valued integrand are computed at the same time for no additional cost, so it makes no sense to integrate all the components separately.

In addition, it should be:

  • 2D - the integral I want to compute is a double integral over a planar region, and I want to be able to specify an overall (relative) tolerance for the whole integral and have it manage the error budget appropriately.

Does anybody know of a library that has such a function? Even two or three of the four properties would be better than nothing.

I'm using Python and SciPy, so if it already works with Python that's a bonus. (But I'm also able to write glue code to let it call my integrand if necessary.)

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Alas, no answers yet! I am writing my own numerical integration algorithm in C#. It is adaptive and handles N-dimensions, but is not vectorized, however. Getting the terminating conditions (tolerance) right is proving difficult. – Paul Chernoch Oct 1 '12 at 21:38
    
@Keenan Pepper Maybe the process described in this question can give you some insight – Saullo Castro May 18 '13 at 12:36

I used this library, it does everything you want, except it is written in C. But it also has an R interface, so maybe you can call R from Python (that is possible).

http://ab-initio.mit.edu/wiki/index.php/Cubature_(Multi-dimensional_integration)

Or, you can call the library using ctypes (it is not straight forward, but it is doable).

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The quadrature function in scipy.integrate satisfies the first two requirements of what you are looking for. The similar romberg function uses a different method.

Other functions only satisfy one of the requirements:

  • The similarly-named quad function does adaptive quadrature, but only supports a function with a scalar argument. You can pass it a ctypes function for increased performance, but normal Python functions will be very slow.
  • The simps function and related sampling methods can be passed a vector of (typically evenly-spaced) samples, but aren't adaptive.

The third requirement you listed (simultaneous integral of a vector-valued function) is a bit esoteric and conflicts with the ability to accept a vectorized function in the first place (the function argument would have to take a matrix!) Similarly, the ability to compute a double integral would complicate the specification of the function significantly.

In most cases, the quadrature function would be the way to go.

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