The design and formal verification of a hardware system for a task that is an important component of a fault tolerant computer architecture for flight control systems is presented. The hardware system implements an algorithm for obtaining interactive consistancy (byzantine agreement) among four microprocessors as a special instruction on the processors. The property verified insures that an execution of the special instruction by the processors correctly accomplishes interactive consistency, provided certain preconditions hold. An assumption is made that the processors execute synchronously. For verification, the authors used a computer aided design hardware design verification tool, Spectool, and the theorem prover, Clio. A major contribut...
Our work addresses the challenge of scaling pre-silicon functional verification of hardware designs ...
In this paper we explore the specification and verification of VLSI designs. The paper focuses on ab...
Over the past four decades microprocessors have come to be a vital and inseparable part of the moder...
Presented here is a formal specification and verification of a property of a quadruplicately redunda...
The work done at ORA for NASA-LRC in the design and formal verification of a hardware implementation...
A high-level design is presented for a reliable computing platform for real-time control application...
A number of methodologies for verifying systems and computer based tools that assist users in verify...
The proceedings of the first working group meeting on validation methods for fault tolerant computer...
Prepared at ORA Corporation for Langley Research Center under Contract NAS1-18972.Bibliography: v. 1...
Consider a network of four processors that use the Oral Messages (Byzantine Generals) Algorithm of P...
PVS is the most recent in a series of verification systems developed at SRI. Its design was strongly...
As commercial and personal unmanned aircraft gain popularity and begin to account for more traffic i...
A validation method for the synchronization subsystem of a fault tolerant computer system is investi...
A formally verified implementation of the 'oral messages' algorithm of Pease, Shostak, and Lamport i...
Consider a network of four processors that use the Oral Messages (Byzantine Generals) algorithm of P...
Our work addresses the challenge of scaling pre-silicon functional verification of hardware designs ...
In this paper we explore the specification and verification of VLSI designs. The paper focuses on ab...
Over the past four decades microprocessors have come to be a vital and inseparable part of the moder...
Presented here is a formal specification and verification of a property of a quadruplicately redunda...
The work done at ORA for NASA-LRC in the design and formal verification of a hardware implementation...
A high-level design is presented for a reliable computing platform for real-time control application...
A number of methodologies for verifying systems and computer based tools that assist users in verify...
The proceedings of the first working group meeting on validation methods for fault tolerant computer...
Prepared at ORA Corporation for Langley Research Center under Contract NAS1-18972.Bibliography: v. 1...
Consider a network of four processors that use the Oral Messages (Byzantine Generals) Algorithm of P...
PVS is the most recent in a series of verification systems developed at SRI. Its design was strongly...
As commercial and personal unmanned aircraft gain popularity and begin to account for more traffic i...
A validation method for the synchronization subsystem of a fault tolerant computer system is investi...
A formally verified implementation of the 'oral messages' algorithm of Pease, Shostak, and Lamport i...
Consider a network of four processors that use the Oral Messages (Byzantine Generals) algorithm of P...
Our work addresses the challenge of scaling pre-silicon functional verification of hardware designs ...
In this paper we explore the specification and verification of VLSI designs. The paper focuses on ab...
Over the past four decades microprocessors have come to be a vital and inseparable part of the moder...