I have created a dictionary of the form

``````a={'t1':[{seta1},{seta2},{seta3},{seta4}],
't2':[{setb1},{setb2},{setb3},{setb4}],
.
.
.
't100':[{someset1,someset2,someset3,someset4}]}
``````

where

``````'t1','t2','t3',...,'t100'=>timestamps
{seta1},{seta2},{seta3},{seta4}...=>clusters at those respective timestamps
``````

and

``````  b={} #my resulting dictionary
``````

now i need to find intersections of the sets at various timestamps, and if there are intersections, I need to include them in b.
Initially, b is empty, so entire a['t1'] goes to b with key 't1'. i.e.,

``````if len(b)==0:
b['t1']=a['t1']
``````

now i start from the second key in a i.e., 't2' and find intersections between b['t1'] and a['t2'] like this

``````k=[i&j for i in a[key1] for j in b[key2]]
``````

if there are common intersections between sets of a and b whose length is greater than or equal to 2, then I create a key 't1,t2' and append the intersections into b in this way

``````if key2+','+key1 not in b.keys(): #t1,t2 not in b.keys()
b[key2+','+key1]=[]
b[key2+','+key1].append(k)
``````

if there are no intersections between b[key2] (i.e.,.b['t1']) and a[key1] (i.e.,.a['t2']) then i need to create key 't2' in b and append the non-intersecting set of a['t2'] into b['t2']

so the point is, at the end of the iteration, the itersection of each and every sets in a['t2'] and b['t1'] would land me up having keys in b viz. 't1', 't2' , 't1,t2'

In the next iteration, I will consider 't3' and find intersections of all the sets having keys 't1' , 't2' , 't1,t2' . This might result in keys 't1' , 't2' ,'t1,t2' ,'t1,t3' ,'t1,t2,t3' ,'t2,t3' ,'t3' .

I am doing the intersections iteratively. ie

``````for key1 in a.keys():
if len(b)==0:
b[key1]=a[key1]
else:
for key2 in b.keys():
k=[i&j for i in a[key1] for j in b[key2]]
#no intersections? if so, create key1 in b and append the corresponding set of a[key1]
#if intersection of length>1 found, create key2,key1 in     b     and append the intersecting set. also pop the set from dictionary a if it is a total intersection: which means the complete set in a[key1] is intersecting.
``````

doing so, i am finding intersections itertively. Is there a possibility that i can do the intersections parallely using Multiprocessing tool in python? i.e., t3&t1, t3&t2, t3&(t1,t2) done parallely instead of iterating by instatiating a process for each intersection? I dunno how multithreading/multiprocessing works, but so far, i have understood that multithreading doesn't enhance performance but i want the program to speed up its execution. but isn't creating process intensive?

pls help!

-
I believe you are using the wrong approach. The number of possible intersections will grow too much. I don't understand exactly what you want to obtain in `b`, so I can't tell if there are better ways of doing that. Creating processes is expensive, but it depends much on the OS and situation. On linux creating a process doesn't take much more time then creating a thread, since the same system call is used(`clone`). Usually the bottleneck is the IPC(inter-process communication), when pickling/unpickling objects. – Bakuriu Mar 23 '13 at 8:29
since i ran the code using iteration, with each set in a timestamp had around 30 elements, then the output took around 2 to 3 minutes. But if the number of elements are increased to 40 in each set of a timestamp, then the execution keeps going. I am likely to get hundred different objects per set per timestamp. So I thought iteration wouldn't be much of help. Is there any other possible way to go ahead? pls suggest.! – user2179627 Mar 23 '13 at 13:13