All Resources

Many integrated core debugging

Intel® Xeon® Phi™ coprocessors present an exciting opportunity for HPC developers to take advantage of many-core processor technology. Since the Intel Xeon Phi coprocessor shares many architectural features and much of the development tool chain with multicore Intel Xeon processors, it is generally fairly easy to migrate a program to the Intel Xeon Phi coprocessor. However, to fully leverage the Intel Xeon Phi coprocessor, a new level of parallelism needs to be expressed which may require significantly rethinking algorithms. Scientists need tools that support debugging and optimizing hybrid MPI/OpenMP parallel applications that may have dozens or even hundreds of threads per node.

Continue Reading Here

University of Southern California case study

Developed by University of Southern California’s Keck School of Medicine in 1967 as the first software of its kind available, RightDose™ was created to optimize drug therapy for populations and especially for individual patients. Continuing to be an industry-leading solution today, RightDose is a clinical tool designed for use by physicians and pharmacists to calculate individualized drug regimens to achieve desired serum drug concentrations for patients with maximum precision and accuracy. Partnering with leaders in mathematical algorithms and capabilities, the founders developed the application as clinicians aiming to improve the care of patients requiring intensive therapy that could be potentially toxic. By bringing together state-of-the-art mathematics and engineering principles to the drug delivery field, the software leverages complex algorithms and mathematical models, similar to those used in flight control of commercial aircraft and tracking down moving enemy targets, to ensure that individual patients and diverse population groups receive the most precisely designed dosages, especially if parameters within the body continually change.

Continue Reading Here