Given an undirected graph G=(V,E), each node i is associated with 'Ci' number of objects. At each step, for every node i, the Ci objects are divided up equally among i's neighbors. After K steps, output the number of objects of the top five nodes which has the most objects.
Here is one example of what happens in one step:
Objects of A is divided equally by B and C.
Objects of B is divided equally by A and C.
Objects of C is divided equally by A and B.
Some Constrains: |V|<10^5, |E|<2*10^5, K<10^7, Ci<1000
My current idea is: represent the transformation in each step with a matrix. This problem is converted to the calculation of the power of matrix. But this solution is much too slow considering |V| can be 10^5.
Is there any faster way to do it?