Implementing Efficient Fault Containment for Multiprocessors Implementing Efficient Fault Containment for Multiprocessors
نویسنده
چکیده
MENDEL ROSENBLUM is Assistant Professor at Stanford University; email: [email protected]. JOHN CHAPIN is a Ph.D. student at Stanford University; email: [email protected]. DAN TEODOSIU is a Ph.D. student at Stanford University; email: [email protected]. SCOTT DEVINE is a Ph.D. student at Stanford University; email: [email protected]. TIRTHANKAR LAHIRI is a Ph.D. student at Stanford University; email: [email protected]. ANOOP GUPTA is Associate Professor at Stanford University; email: [email protected].
منابع مشابه
A Dissertation Submitted to the Department of Computer Science and the Committee on Graduate Studies of Stanford University in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy
Current shared-memory multiprocessors suffer from an inherent fragility, since a single hardware or system software failure can cause the entire machine to crash. This dissertation describes a combination of hardware and software techniques that can be used to provide fault containment for large-scale shared memory machines. With fault containment, the impact of a fault remains limited to only ...
متن کاملVirtual Clusters: Resource Mangement on Large Shared-memory Multiprocessors a Dissertation Submitted to the Department of Computer Science and the Committee on Graduate Studies of Stanford University in Partial Fulfillment of the Requirements for the Degree of Doctor of Philosophy
Despite the fact that large scale shared-memory multiprocessors have been commercially available for several years, system software that fully utilizes all of their features is still not available. These machines require system software that is scalable, supports fault containment, and provides scalable resource management. Software supporting these features is currently unavailable, mostly due...
متن کاملNovel efficient fault-tolerant full-adder for quantum-dot cellular automata
Quantum-dot cellular automata (QCA) are an emerging technology and a possible alternative for semiconductor transistor based technologies. A novel fault-tolerant QCA full-adder cell is proposed: This component is simple in structure and suitable for designing fault-tolerant QCA circuits. The redundant version of QCA full-adder cell is powerful in terms of implementing robust digital functions. ...
متن کاملNovel efficient fault-tolerant full-adder for quantum-dot cellular automata
Quantum-dot cellular automata (QCA) are an emerging technology and a possible alternative for semiconductor transistor based technologies. A novel fault-tolerant QCA full-adder cell is proposed: This component is simple in structure and suitable for designing fault-tolerant QCA circuits. The redundant version of QCA full-adder cell is powerful in terms of implementing robust digital functions. ...
متن کاملApplying Frequency Response method for contact Rails Fault Diagnosing in Ungrounded Electrical Railway System
Abstract General faults in regular electrical railways system could be detect by implementing the specific protection functions such as ground fault or sensitive earth fault. Otherwise, in ungrounded electrical railway systems which using both feeding and return contact rail at the same time, fault detection cannot done with above-mentioned function. Due to recent growth in electrical railway ...
متن کامل