We investigate the fine-grained complexity of liveness verification for leader contributor systems. These consist of a designated leader thread and an arbitrary number of identical contributor threads communicating via a shared memory. The liveness verification problem asks whether there is an infinite computation of the system in which the leader reaches a final state infinitely often. Like its reachability counterpart, the problem is known to be NP-complete. Our results show that, even from a fine-grained point of view, the complexities differ only by a polynomial factor. Liveness verification decomposes into reachability and cycle detection. We present a fixed point iteration solving the latter in polynomial time. For reachability, we re...
Counter systems are a well-known and powerful modeling notation for specifying infinite-state system...
AbstractWhen proving the correctness of algorithms in distributed systems, one generally considerssa...
We investigate the impact of dynamic topology reconfiguration on the complexity of verification prob...
Abstract. We characterize the complexity of liveness verification for parameter-ized systems consist...
The liveness problem for timed automata asks if a given automaton has a run passing infinitely often...
We consider the verification of distributed systems composed of an arbitrary number of asynchronous ...
We consider the verification of distributed systems composed of an arbitrary number of asynchronous ...
peer reviewedSince the topic emerged several years ago, work on regular model checking has mostly be...
In previous work we have developed a syntactic reduction of repeated reachability to reachability fo...
We present a simple but novel algorithm for checking liveness properties of finite-state systems, ca...
We consider the problem of verifying liveness for systems with a finite, but unbounded, number of pr...
In this thesis we propose general and simple methods for automatic verification of parameterized sys...
Abstract. Counter systems are a well-known and powerful modeling notation for specifying infinite-st...
AbstractInteraction systems were proposed and implemented by Sifakis et al. as a model for the desig...
International audienceThreshold automata, and the counter systems they define, were introduced as a ...
Counter systems are a well-known and powerful modeling notation for specifying infinite-state system...
AbstractWhen proving the correctness of algorithms in distributed systems, one generally considerssa...
We investigate the impact of dynamic topology reconfiguration on the complexity of verification prob...
Abstract. We characterize the complexity of liveness verification for parameter-ized systems consist...
The liveness problem for timed automata asks if a given automaton has a run passing infinitely often...
We consider the verification of distributed systems composed of an arbitrary number of asynchronous ...
We consider the verification of distributed systems composed of an arbitrary number of asynchronous ...
peer reviewedSince the topic emerged several years ago, work on regular model checking has mostly be...
In previous work we have developed a syntactic reduction of repeated reachability to reachability fo...
We present a simple but novel algorithm for checking liveness properties of finite-state systems, ca...
We consider the problem of verifying liveness for systems with a finite, but unbounded, number of pr...
In this thesis we propose general and simple methods for automatic verification of parameterized sys...
Abstract. Counter systems are a well-known and powerful modeling notation for specifying infinite-st...
AbstractInteraction systems were proposed and implemented by Sifakis et al. as a model for the desig...
International audienceThreshold automata, and the counter systems they define, were introduced as a ...
Counter systems are a well-known and powerful modeling notation for specifying infinite-state system...
AbstractWhen proving the correctness of algorithms in distributed systems, one generally considerssa...
We investigate the impact of dynamic topology reconfiguration on the complexity of verification prob...