We present the status of a project which aims at building, formally and pervasively verifying a distributed automotive system. The target system is a gate-level model which consists of several interconnected electronic control units with independent clocks. This model is verified against the specification as seen by a system programmer. The automotive system is implemented on several FPGA boards. The pervasive verification is carried out using combination of interactive theorem proving (Isabelle/HOL) and model checking (LTL)
The next generation of intelligent vehicles will evolve from being able to drive autonomously to one...
Abstract—Automotive systems comprise a high number of net-worked safety-critical functions. Any desi...
Fault-tolerant real-time distributed control systems are being developed for next-generation aircraf...
The Verisoft project aims at the pervasive formal verification of entire computer systems. In partic...
In these lecture notes we outline for the first time in a single place a correctness proof for a dis...
Abstract—We study distributed controllers where sensor, con-troller, and actuator tasks are mapped o...
Abstract. The correctness of a system according to a given specification is essential, especially fo...
Distributed embedded systems (DESs) are no longer the exception; they are the rule in many appli-cat...
Abstract—In the modern car, electronic devices are even employed for safety-critical missions like b...
Distributed embedded systems (DESs) are no longer the exception; they are the rule in many applicati...
In this thesis we review and extend the pervasive correctness proof for an asynchronous distributed ...
yesThe complexity of pervasive systems arises from the many different aspects that such systems poss...
Formal verification may play a central role in the development of safe controllers, such as those f...
Formal verification may play a central role in the development of safecontrollers, such as those fou...
Designing and implementing distributed systems correctly is a very challenging task. Tradition- ally...
The next generation of intelligent vehicles will evolve from being able to drive autonomously to one...
Abstract—Automotive systems comprise a high number of net-worked safety-critical functions. Any desi...
Fault-tolerant real-time distributed control systems are being developed for next-generation aircraf...
The Verisoft project aims at the pervasive formal verification of entire computer systems. In partic...
In these lecture notes we outline for the first time in a single place a correctness proof for a dis...
Abstract—We study distributed controllers where sensor, con-troller, and actuator tasks are mapped o...
Abstract. The correctness of a system according to a given specification is essential, especially fo...
Distributed embedded systems (DESs) are no longer the exception; they are the rule in many appli-cat...
Abstract—In the modern car, electronic devices are even employed for safety-critical missions like b...
Distributed embedded systems (DESs) are no longer the exception; they are the rule in many applicati...
In this thesis we review and extend the pervasive correctness proof for an asynchronous distributed ...
yesThe complexity of pervasive systems arises from the many different aspects that such systems poss...
Formal verification may play a central role in the development of safe controllers, such as those f...
Formal verification may play a central role in the development of safecontrollers, such as those fou...
Designing and implementing distributed systems correctly is a very challenging task. Tradition- ally...
The next generation of intelligent vehicles will evolve from being able to drive autonomously to one...
Abstract—Automotive systems comprise a high number of net-worked safety-critical functions. Any desi...
Fault-tolerant real-time distributed control systems are being developed for next-generation aircraf...