I have this spark program and I'll try to limit it to just the pertinent parts

```
# Split by delimiter ,
# If the file is in unicode, we need to convert each value to a float in order to be able to
# treat it as a number
points = sc.textFile(filename).map(lambda line: [float(x) for x in line.split(",")]).persist()
# start with K randomly selected points from the dataset
# A centroid cannot be an actual data point or else the distance measure between a point and
# that centroid will be zero. This leads to an undefined membership value into that centroid.
centroids = points.takeSample(False, K, 34)
#print centroids
# Initialize our new centroids
newCentroids = [[] for k in range(K)]
tempCentroids = []
for centroid in centroids:
tempCentroids.append([centroid[N] + 0.5])
#centroids = sc.broadcast(tempCentroids)
convergence = False
ncm = NCM()
while(not convergence):
memberships = points.map(lambda p : (p, getMemberships([p[N]], centroids.value, m)))
cmax = memberships.map(lambda (p, mus) : (p, getCMax(mus, centroids.value)))
# Memberships
T = cmax.map(lambda (p, c) : (p, getMemberships2([p[N]], centroids.value, m, delta, weight1, weight2, weight3, c)))
I = cmax.map(lambda (p, c) : (p, getIndeterminateMemberships([p[N]], centroids.value, m, delta, weight1, weight2, weight3, c)[0]))
F = cmax.map(lambda (p, c) : (p, getFalseMemberships([p[N]], centroids.value, m, delta, weight1, weight2, weight3, c)[0]))
# Components of new centroids
wTm = T.map(lambda (x, t) : ('onekey', scalarPow(m, scalarMult(weight1, t))))
#print "wTm = " + str(wTm.collect())
print "at first reduce"
sumwTm = wTm.reduceByKey(lambda p1, p2 : addPoints(p1, p2))
#print "sumwTm = " + str(sumwTm.collect())
wTmx = T.map(lambda (x, t) : pointMult([x[N]], scalarPow(m, scalarMult(weight1, t))))
print "adding to cnumerator list"
#print wTmx.collect()
cnumerator = wTmx.flatMap(lambda p: getListComponents(p)).reduceByKey(lambda p1, p2 : p1 + p2).values()
print "collected cnumerator, now printing"
#print "cnumerator = " + str(cnumerator.collect())
#print str(sumwTm.collect())
# Calculate the new centroids
sumwTmCollection = sumwTm.collect()[0][1]
cnumeratorCollection = cnumerator.collect()
#print "sumwTmCollection = " + str(sumwTmCollection)
#cnumeratorCollection =cnumerator.collectAsMap().get(0).items
print "cnumeratorCollection = " + str(cnumeratorCollection)
for i in range(len(newCentroids)):
newCentroids[i] = scalarMult(1 / sumwTmCollection[i], [cnumeratorCollection[i]])
centroids = newCentroids
# Test for convergence
convergence = ncm.test([centroids[N]], [newCentroids[N]], epsilon)
#convergence = True
# Replace our old centroids with the newly found centroids and repeat if convergence not met
# Clear out space for a new set of centroids
newCentroids = [[] for k in range(K)]
```

This program works pretty well on my local machine, however, it does not behave as expected when run on a standalone cluster. It doesn't necessarily throw an error, but what it does do it give different output than that which I receive when running on my local machine. The cluster and the 3 nodes seem to be working fine. I have a feeling the problem is that I keep updating `centroids`

, which is a python list, and it changes each time through the `while-loop`

. Is it possible that each node may not have the most recent copy of that list? I think so so I tried using a `broadcast variable`

but those can't be updated (read only). I also tried using an `accumulator`

but those are just for accumulations. I also tried to save the python lists as a file on hdfs for each node to have access to, but this didn't work well. Do you think I'm understanding the problem correctly? Is something else likely going on here? How can I get code that works fine on my local machine, but not on a cluster?

`centroids = newCentroids`

. – Matt Cremeens Apr 24 '16 at 11:35`centroids = sc.broadcast(tempCentroids)`

at the top, but then in your while loop you reference`centroids.value`

... – Glennie Helles Sindholt Apr 27 '16 at 11:18