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python - Numpy dot too clever about symmetric multiplications

Anybody know about documentation for this behaviour?

import numpy as np
A  = np.random.uniform(0,1,(10,5))
w  = np.ones(5)
Aw = A*w
Sym1 = Aw.dot(Aw.T)
Sym2 = (A*w).dot((A*w).T)
diff = Sym1 - Sym2

diff.max() is near machine-precision non-zero, e.g. 4.4e-16.

This (the discrepancy from 0) is usually fine... in a finite-precision world we should not be surprised.

Moreover, I would guess that numpy is being smart about symmetric products, to save flops and ensure symmetric output...

But I deal with chaotic systems, and this small discrepancy quickly becomes noticeable when debugging. So I'd like to know exactly what's going on.

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This behaviour is the result of a change introduced for NumPy 1.11.0, in pull request #6932. From the release notes for 1.11.0:

Previously, gemm BLAS operations were used for all matrix products. Now, if the matrix product is between a matrix and its transpose, it will use syrk BLAS operations for a performance boost. This optimization has been extended to @, numpy.dot, numpy.inner, and numpy.matmul.

In the changes for that PR, one finds this comment:

/*
 * Use syrk if we have a case of a matrix times its transpose.
 * Otherwise, use gemm for all other cases.
 */

So NumPy is making an explicit check for the case of a matrix times its transpose, and calling a different underlying BLAS function in that case. As @hpaulj notes in a comment, such a check is cheap for NumPy, since a transposed 2d array is simply a view on the original array, with inverted shape and strides, so it suffices to check a few pieces of metadata on the arrays (rather than having to compare the actual array data).

Here's a slightly simpler case that shows the discrepancy. Note that using a .copy on one of the arguments to dot is enough to defeat NumPy's special-casing.

import numpy as np
random = np.random.RandomState(12345)
A = random.uniform(size=(10, 5))
Sym1 = A.dot(A.T)
Sym2 = A.dot(A.T.copy())
print(abs(Sym1 - Sym2).max())

I guess one advantage of this special-casing, beyond the obvious potential for speed-up, is that you're guaranteed (I'd hope, but in practice it'll depend on the BLAS implementation) to get a perfectly symmetric result when syrk is used, rather than a matrix which is merely symmetric up to numerical error. As an (admittedly not very good) test for this, I tried:

import numpy as np
random = np.random.RandomState(12345)
A = random.uniform(size=(100, 50))
Sym1 = A.dot(A.T)
Sym2 = A.dot(A.T.copy())
print("Sym1 symmetric: ", (Sym1 == Sym1.T).all())
print("Sym2 symmetric: ", (Sym2 == Sym2.T).all())

Results on my machine:

Sym1 symmetric:  True
Sym2 symmetric:  False

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