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I've the below code snippet:

data/imat are data matrices of 100000 x 500, while the matrix S which I'm constructing is of the order 50000 x 100000. But the matrix S is super sparse with only one entry in each column

def getSparseCovErr(imat, sketch):
   ATA =, imat)
   BTB = sketch.transpose().dot(sketch)
   fn = np.linalg.norm(imat, 'fro') ** 2
   val = np.linalg.norm(ATA - BTB , 2)/fn
   del ATA
   del BTB
   return val

nrows, ncols = data.shape
samples = noOfSamples(ncols, eps, delta)

cols = np.arange(nrows)
rows = np.random.random_integers(samples - 1, size = nrows)
diag = []
for i in range(len(cols)):
    if np.random.random() < 0.5:
S = sparse.csc_matrix((diag, (rows, cols)), shape = (samples, nrows))/np.sqrt(samples)
Q =

Q = sparse.bsr_matrix(Q)

print getSparseCovErr(data, Q)

When I run the above code for the first time it gives me the print statement output. After that, if I do another run I get the below error:

python: malloc.c:2369: sysmalloc: Assertion `(old_top == (((mbinptr) (((char *) &((av)->bins[((1) - 1) * 2])) - __builtin_offsetof (struct malloc_chunk, fd)))) && old_size == 0) || ((unsigned long) (old_size) >= (unsigned long)((((__builtin_offsetof (struct malloc_chunk, fd_nextsize))+((2 * (sizeof(size_t))) - 1)) & ~((2 * (sizeof(size_t))) - 1))) && ((old_top)->size & 0x1) && ((unsigned long)old_end & pagemask) == 0)' failed.

Then if I run once again, I get something like:

    Q = sparse.bsr_matrix(Q)
  File "/usr/lib64/python2.7/site-packages/scipy/sparse/", line 170, in __init__
    arg1 = coo_matrix(arg1, dtype=dtype).tobsr(blocksize=blocksize)
  File "/usr/lib64/python2.7/site-packages/scipy/sparse/", line 186, in __init__  = M[self.row, self.col]
IndexError: index -1517041769959067988 is out of bounds for axis 0 with size 178133

It seems to me like the first run I do is creating memory issues. How can I debug this and what are the possible problems and solutions?

share|improve this question
This is really hard to answer since the code is only runnable by you. But could you clarify which part you re-run and which, if any variables you need after the print statement – deinonychusaur Jun 26 '14 at 7:18
@deinonychusaur I run the code that I have posted here the way it is. – gizgok Jun 26 '14 at 12:22
@deinonychusaur The variable Q can be eliminated but then I would need to do the operation inside every error function and this also gives the same errors. When I first run the code as it is, the print statement gives an output, after that if I run again it does not. – gizgok Jun 26 '14 at 12:30

Would this work?

def getSparseCovErr(imat, sketch):
   return np.linalg.norm(, imat) - sketch.transpose().dot(sketch)) / (np.linalg.norm(imat, 'fro') ** 2)

def getQ(data, rows, cols, diag, samples, nrows):
    return sparse.bsr_matrix((sparse.csc_matrix((diag, (rows, cols)), shape = (samples, nrows))/np.sqrt(samples)).dot(data))

print getSparseCovErr(data, getQ(data, rows, cols, diag, samples, nrows))

That is, trying to get things out of scope as soon as possible. Might be some parenthesis wrong since it's hard to test without the functions.

If not, I would assume one of your functions you are storing is actually changing the state / storing data.

Using your original code and given that you use ipython you can do the following:

In [5]: %%bash
ps -e -orss=,args= | sort -b -k1,1n | pr -TW$COLUMNS | tail -n 10

To monitor the allocation of memory for each step of your code to nail down the problem.

share|improve this answer
I actually have the code in seperate functions itself. I'm not using ipython, but I possibly should now. I'm suspecting that this might due to number of non zero entries the sparse matrix * dense data matrix multiplication produces. – gizgok Jun 26 '14 at 13:41
But if no information stays in state, it should be no problem repeating the execution. Anyhow checking when memory allocation happens is probably a good start. – deinonychusaur Jun 26 '14 at 13:48

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