Title :
“On-the-fly” solution techniques for stochastic Petri nets and extensions
Author :
Deavours, Daniel D. ; Sanders, William H.
Author_Institution :
Center for Reliable & High Performance Comput., Illinois Univ., Urbana, IL, USA
fDate :
10/1/1998 12:00:00 AM
Abstract :
High level modeling representations, such as stochastic Petri nets, frequently generate very large state spaces and corresponding state transition rate matrices. We propose a new steady state solution approach that avoids explicit storing of the matrix in memory. This method does not impose any structural restrictions on the model, uses Gauss Seidel and variants as the numerical solver, and uses less memory than current state of the art solvers. An implementation of these ideas shows that one can realistically solve very large, general models in relatively little memory
Keywords :
Petri nets; iterative methods; mathematics computing; matrix algebra; modelling; stochastic systems; Gauss Seidel; high level modeling representations; numerical solver; on-the-fly solution techniques; state transition rate matrices; steady state solution approach; stochastic Petri nets; structural restrictions; very large general models; very large state spaces; Computer Society; Explosions; Gaussian processes; Impedance; Jacobian matrices; Petri nets; Scalability; State-space methods; Steady-state; Stochastic processes;
Journal_Title :
Software Engineering, IEEE Transactions on
