Fault tolerant and fault testable hardware design
Fault tolerant and fault testable hardware design
Fault-tolerant computing: theory and techniques; Vol. 2
Fault-tolerant computing: theory and techniques; Vol. 2
A theoretician's view of fault tolerant distributed computing
Fault-tolerant distributed computing
A comparison of the Byzantine agreement problem and the transaction commit problem
Fault-tolerant distributed computing
A simple model for agreement in distributed systems
Fault-tolerant distributed computing
DAWGS—a distributed compute server utilizing idle workstations
Journal of Parallel and Distributed Computing
Paralex: an environment for parallel programming in distributed systems
ICS '92 Proceedings of the 6th international conference on Supercomputing
Fault tolerant system design
Computer related risks
Cost/utilization: a measure of system performance
Communications of the ACM
Assignment Problems in Parallel and Distributed Computing
Assignment Problems in Parallel and Distributed Computing
Management Information Systems
Management Information Systems
Fault Tolerance: Principles and Practice
Fault Tolerance: Principles and Practice
GATOSTAR: A Fault Tolerant Load Sharing Facility for Parallel Applications
EDCC-1 Proceedings of the First European Dependable Computing Conference on Dependable Computing
Workshop on Fault-Tolerant Parallel and Distributed Systems (FTPDS 2000)
IPDPS '00 Proceedings of the 15 IPDPS 2000 Workshops on Parallel and Distributed Processing
Fault Tolerance: Why Should I Pay for It?
Revised Papers from a Workshop on Hardware and Software Architectures for Fault Tolerance
Software-Faults: The Remaining Problem in Fault Tolerant Systems?
Revised Papers from a Workshop on Hardware and Software Architectures for Fault Tolerance
Distributed Fault Tolerance - Lessons Learned from Delta-4
Revised Papers from a Workshop on Hardware and Software Architectures for Fault Tolerance
A Highly Available Application in the Transis Environment
Revised Papers from a Workshop on Hardware and Software Architectures for Fault Tolerance
Fault Tolerance Cost Effectiveness
Revised Papers from a Workshop on Hardware and Software Architectures for Fault Tolerance
Reliable Enterprise Computing Systems
Revised Papers from a Workshop on Hardware and Software Architectures for Fault Tolerance
A Reliable Client-Server Model on Top of a Micro-Kernel
Revised Papers from a Workshop on Hardware and Software Architectures for Fault Tolerance
Dependable computing: concepts, limits, challenges
FTCS'95 Proceedings of the Twenty-Fifth international conference on Fault-tolerant computing
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Previous fault-tolerance algorithms and systems did not pay sufficient attention to the issues of utilization and cost-benefit analysis, that is, the fact that the processing capacity of backup computers is practically wasted whenever the rest of the network is functioning properly.This study develops and conceptually illustrates an algorithmic reconfiguration model that combines the mechanism of load balancing and fault tolerance in order to increase utilization of computer resources in a distributed multi-server and multi-tasking environment. The model is empirically tested in a network of computers controlling telecommunication hubs and compared to previous efforts to address this problem.