DAGuE: A generic distributed DAG engine for High Performance Computing

We model here a distributed implementation of cross-stopping, a combination of cross-validation and early-stopping techniques, for the selection of the optimal architecture of feed-forward networks. Due to the very large computational demand of the method, we use the RAIN system (Redundant Array of

Rapid increases in the complexity of algorithms for real-time signal processing applications have led to performance requirements exceeding the capabilities of conventional digital signal processor (DSP) architectures. Many applications, such as autonomous sonar arrays, are distributed in nature and

Parallel cluster architectures are an effective way to build high-performance computer systems at a moderate price. Consequently, clusters will become very attractive to parallel applications and high-end parallel servers, which are usually built around distributed object middleware. Commonly used m

The quality of compiler-optimized code for high-performance applications is far behind what optimization and domain experts can achieve by hand. Although it may seem surprising at first glance, the performance gap has been widening over time, due to the tremendous complexity increase in microprocess