Petascale supercomputers are enabling detailed 3D simulations of core-collapse supernovae that reveal the role of fluid instabilities, turbulence, and magnetic ... Read More »
A research team based at the University of Texas at Austin used supercomputing resources to create the first fully coupled simulation of the reionization of our... Read More »
The authors successfully interoperated the hybrid ABS model, interactive CFD model, control center model, and gas sensor model to evaluate the countermeasures u... Read More »
The relatively stable architectures and programming models of the past two and a half decades have allowed application users to focus primarily on scientific discovery. The end of this trend could force these often large, complex, and validated applications to make major changes that divert these users from their primary purpose. This special issue will explore how leading organizations plan to approach this disruption. ... Read More »
The high-performance computing centers of the future will expand their roles as service providers, and as the machines scale up, so should the sizes of the comm... Read More »
A new approach is needed within graduate mentoring programs to address how race and gender experiences of students and scholars impact their choices to pursue a... Read More »
Argonne National Laboratory will unveil its new high-performance supercomputer, Theta, later this year. To test its potential, a select group of researchers is ... Read More »
Physics, medicine, astronomy — these and other hard sciences share a common need for efficient algorithms, system software, and computer architecture to address large computational problems. And yet, useful advances in computational techniques that could benefit many researchers are rarely shared. To meet that need, Computing in Science & Engineering (CiSE) presents scientific and computational contributions in a clear and accessible format.