I have a large vector F with a few million entries that gives this inconsistent behaviour when taking norms.


Aside from some sort of hacky solution, does anyone have any idea what's going on?

  • 1
    What does np.sum(F*F) give? What about dropping the second argument, np.linalg.norm(F)? What is np.max(F)? What is np.isfinite(F).all()? – Eric Mar 12 '17 at 12:06
  • @Eric I added the computations you asked for in a more clear format. – Shakespeare Mar 12 '17 at 12:20
  • 1
    What is F.dtype? – Eric Mar 12 '17 at 12:22
  • 1
    Ouch... float16. Probably not what norm was optimized for. – sascha Mar 12 '17 at 12:23
  • 3
    @Shakespeare numpy.array([11 * 11 * 1e6], dtype='float16') is infinity. – kennytm Mar 12 '17 at 12:23
up vote 3 down vote accepted

As described in the comments, your issue is that float16 is too small to represent the intermediate results - its maximum value is 65504. A much simpler test-case is:


To avoid overflow, you can divide by your largest value, and then remultiply:

def safe_norm(x):
    xmax = np.max(x)
    return np.linalg.norm(x / xmax) * xmax

There's perhaps an argument that np.linalg.norm should do this by default for float16

  • Eric, before I accept, could you perhaps explain why the $L_p$ norm with $p=1.999$ or $p=2.0001$ worked but the default $p=2$ doesn't? – Shakespeare Mar 12 '17 at 12:26
  • @Shakespeare: What is np.linalg.norm(F,1.999999).dtype? And how does it compare to the p=2 case? – Eric Mar 12 '17 at 12:27
  • It's float64. Thank you, kind stranger – Shakespeare Mar 12 '17 at 12:28
  • @Shakespeare: There's something weird going on with type detection by numpy there, but it fails as expected if you use np.linalg.norm(..., np.float16(1.9999)) – Eric Mar 12 '17 at 12:29
  • 2
    You're speaking to one now ;). I've filed an issue to bring this up with the other numpy people though – Eric Mar 12 '17 at 12:35

There seems to be no fix from Numpy yet. So, for completeness, another (quite obvious) solution from my side for calculating a norm:

def calcNorm(vector):
    if (vector.dtype == np.float16):
        vector = vector.astype(np.float32)
    return np.linalg.norm(vector)

Or, as I needed it, in the use case of normalizing a vector:

def normalize(vector):
    prevType = vector.dtype
    if (vector.dtype == np.float16):
        vector = vector.astype(np.float32)
    norm = np.linalg.norm(vector)
    if (norm != 0 and np.isfinite(norm)):
        vector /= norm
    return vector.astype(prevType)

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