We consider the problem of predicting faults in deployed, large-scale distributed systems that are heterogeneous and federated. Motivated by the importance of ensuring reliability of the services these systems provide, we argue that the key step in making these systems reliable is the need to automatically predict faults. For example, doing so is vital for avoiding Internet-wide outages that occur due to programming errors or misconfigurations
Abstract. For dependability outages in distributed internet infrastructures, it is often not enough ...
We consider issues of fault tolerance for distributed computing systems at two levels of system desi...
Failures in computing systems are unavoidable. Therefore, it is important to detect and diagnose fai...
We consider the problem of predicting faults in deployed, large-scale distributed systems that are h...
In a large scale real-time distributed system, a large number of components and the time criticality...
We propose a new approach for developing and deploying distributed systems, in which nodes predict d...
As today\u27s distributed applications increase in complexity, it becomes increasingly difficult to ...
Distributed software systems have become the backbone of Internet services. Failures in pro-duction ...
Distributed computing environments are increasingly deployed over geographically spanning data cente...
Abstract. The use of tools to forecast faults over computational resources composing highly distribu...
We propose a new approach for developing and deploying distributed systems, in which nodes predict d...
AbstractDependability is a qualitative term referring to a system's ability to meet its service requ...
Making distributed systems reliable is notoriously difficult. It is even more difficult to achieve h...
Loosely-coupled distributed systems have significant scale and cost advantages over more traditional...
Dependability is a qualitative term referring to a system's ability to meet its service requirements...
Abstract. For dependability outages in distributed internet infrastructures, it is often not enough ...
We consider issues of fault tolerance for distributed computing systems at two levels of system desi...
Failures in computing systems are unavoidable. Therefore, it is important to detect and diagnose fai...
We consider the problem of predicting faults in deployed, large-scale distributed systems that are h...
In a large scale real-time distributed system, a large number of components and the time criticality...
We propose a new approach for developing and deploying distributed systems, in which nodes predict d...
As today\u27s distributed applications increase in complexity, it becomes increasingly difficult to ...
Distributed software systems have become the backbone of Internet services. Failures in pro-duction ...
Distributed computing environments are increasingly deployed over geographically spanning data cente...
Abstract. The use of tools to forecast faults over computational resources composing highly distribu...
We propose a new approach for developing and deploying distributed systems, in which nodes predict d...
AbstractDependability is a qualitative term referring to a system's ability to meet its service requ...
Making distributed systems reliable is notoriously difficult. It is even more difficult to achieve h...
Loosely-coupled distributed systems have significant scale and cost advantages over more traditional...
Dependability is a qualitative term referring to a system's ability to meet its service requirements...
Abstract. For dependability outages in distributed internet infrastructures, it is often not enough ...
We consider issues of fault tolerance for distributed computing systems at two levels of system desi...
Failures in computing systems are unavoidable. Therefore, it is important to detect and diagnose fai...