Algorithmic fault tolerance for matrix operations on triangular arrays

An approach to design fault-tolerant hexagonal systolic array (SA) for multiplication of rectangular matrices is described. The approach comprises three steps. First, redundancies are introduced at the computational level by deriving three equivalent algorithms but with disjoint index spaces. Second

Networks of workstations (NOWs) offer a cost-effective platform for high-performance, long-running parallel computations. However, these computations must be able to tolerate the changing and often faulty nature of NOW environments. We present high-performance implementations of several fault-tolera

Fault tolerant motion planning of two spatial coordinating manipulators having two possible locked joints respectively is studied. First, the calculation method of fault tolerant workspace with respect to different joints is given, and the centrality index that measures the relative position between