Add to ORKGAbstractions useful in fault-tolerant and distributed systems are described. The abstractions are specified as properties of protocols, hence they have a different flavor from abstractions prevalent in sequential and concurrent programming. Among the abstractions discussed are agreement, order, failure detection, and stable storage
Agreement problems allow a set of processes to agree on a common output value. These problems are of...
Agreement problems allow a set of processes to agree on a common output value. These problems are of...
This paper discusses how architectural abstractions can be effective in developing fault-tolerant so...
Four kinds of abstraction for the design and analysis of fault-- tolerant distributed systems are di...
ions for Constructing Dependable Distributed Systems Shivakant Mishra 1 and Richard D. Schlichting T...
Understanding distributed computing is not an easy task. This is due to the many facets of uncertain...
To optimize performance in a fault-tolerant distributed system, it is often necessary to enforce dif...
International audienceThis book presents the most important fault-tolerant distributed programming a...
International audienceThis book presents the most important fault-tolerant distributed programming a...
International audienceThis book presents the most important fault-tolerant distributed programming a...
International audienceThis book presents the most important fault-tolerant distributed programming a...
Fault tolerance in distributed computing is a wide area with a significant body of literature that i...
In this document, we discuss application requirements for fault tolerance in the framework of distri...
Fault tolerance in distributed computing is a wide area with a significant body of literature that i...
This paper describes a method for automated analysis of fault-tolerance properties of distributed sy...
Agreement problems allow a set of processes to agree on a common output value. These problems are of...
Agreement problems allow a set of processes to agree on a common output value. These problems are of...
This paper discusses how architectural abstractions can be effective in developing fault-tolerant so...
Four kinds of abstraction for the design and analysis of fault-- tolerant distributed systems are di...
ions for Constructing Dependable Distributed Systems Shivakant Mishra 1 and Richard D. Schlichting T...
Understanding distributed computing is not an easy task. This is due to the many facets of uncertain...
To optimize performance in a fault-tolerant distributed system, it is often necessary to enforce dif...
International audienceThis book presents the most important fault-tolerant distributed programming a...
International audienceThis book presents the most important fault-tolerant distributed programming a...
International audienceThis book presents the most important fault-tolerant distributed programming a...
International audienceThis book presents the most important fault-tolerant distributed programming a...
Fault tolerance in distributed computing is a wide area with a significant body of literature that i...
In this document, we discuss application requirements for fault tolerance in the framework of distri...
Fault tolerance in distributed computing is a wide area with a significant body of literature that i...
This paper describes a method for automated analysis of fault-tolerance properties of distributed sy...
Agreement problems allow a set of processes to agree on a common output value. These problems are of...
Agreement problems allow a set of processes to agree on a common output value. These problems are of...
This paper discusses how architectural abstractions can be effective in developing fault-tolerant so...