Partitioning a Call Graph
Files
Publication date
2006
Editors
van den Berg, J.B.
Bhulai, S.
Hulshof, J.
Koole, G.
Quant, C.
Williams, J.F.
Advisors
Supervisors
DOI
Document Type
Part of book
Metadata
Show full item recordCollections
License
Abstract
Splitting a large software system into smaller and more manageable units has become an important problem for many organizations. The basic structure of a software system is given by a directed graph with vertices representing the programs of the system and arcs representing calls from one program to another. Generating a good partitioning into smaller modules becomes a minimization problem for the number of programs being called by external programs. First, we formulate an equivalent integer linear programming problem with 0–1 variables. Theoretically, with this approach the problem can be solved to optimality, but this becomes very costly with increasing size of the software system. Second, we formulate the problem as a hypergraph partitioning problem. This is a heuristic method using a multilevel strategy, but it turns out to be very fast and to deliver solutions that are close to optimal.
Keywords
Mathematics, Wiskunde en computerwetenschappen, Landbouwwetenschappen, Wiskunde: algemeen, Taverne
Citation
Bisseling, R H, Byrka, J, Cerav-Erbas, S, Gvozdenovic, N, Lorenz, M, Pendavingh, R, Reeves, C, Roger, M & Verhoeven, A 2006, Partitioning a Call Graph. in J B van den Berg, S Bhulai, J Hulshof, G Koole, C Quant & J F Williams (eds), Proceedings 52nd European Study Group Mathematics with Industry Amsterdam 2005. CWI, Amsterdam, pp. 95-107.