HEP-CCE Announces: Graduate Student Summer Internship Program

The HEP-CCE announces a summer internship program for graduate students in the US who would like to work at Argonne National Laboratory, Fermilab National Accelerator Laboratory, and Lawrence Berkeley National Laboratory. The program covers the three high energy physics frontier  areas (Cosmic, Energy, and Intensity) and is aimed at  computationally-oriented graduate students interested in new  educational, training, and research opportunities. A strong computing/computational background is highly desirable. The internship will offer students the opportunity to push forward their scientific projects and to be exposed to a number of leading edge computational areas including next-generation architectures, the use of high-performance computing resources for data-intensive tasks, and analysis of large-scale data sets. Individual programs will last for ten weeks over June through September, 2017 and will include travel support and an associated stipend.

Applications to the program should include a CV, a statement of current research, and a short statement on how participation in the program will benefit the student’s current work and future career. A letter of recommendation from the student’s research adviser is also required.

Applications can be submitted via email to:  hepccestudents at lists.anl.gov
DEADLINE: April 10, 2017

Applicants must be at a US institution, but can be of non-US citizenship.

Lawrence Berkeley National Laboratory

In the 21st century, particle physics and cosmology have come together in a unified quest to understand the fundamental constituents of the Universe and how they evolved after the Big Bang. The LBNL Physics Division carries out research that spans the full range of particle physics and cosmology, from studies of sub-atomic particles created in accelerator collisions that decay almost instantly, to large-scale cosmological structures observed in galaxy surveys looking back billions of years in cosmic time. We are involved in several HEP experiments and play lead roles in the computational analysis and simulation work for: ATLAS, DES, DESI, LSST-DESC, LZ, LBNE, Daya Bay and Mu2e. LBNL is also host to the National Energy Research Scientific Computing Center (NERSC), the primary scientific computing facility for the Office of Science in the U.S. Department of Energy. As one of the largest facilities in the world devoted to providing computational resources and expertise for basic scientific research, NERSC is a world leader in accelerating scientific discovery through computation. NERSC is host to two large HPC systems Edison, a 130+k-core Cray XC30; and Cori, a 500+k-core Cray system based on the second generation of  Intel Xeon Phi’s called Knights Landing.

Argonne National Laboratory

Argonne National Laboratory has a comprehensive program in high energy physics, covering the Energy Frontier (ATLAS at LHC), Intensity Frontier (neutrino and muon experiments — NOvA, Mu2e, g-2), and the Cosmic Frontier (computational cosmology and surveys — DES, DESI, LSST, SPHEREx, SPT, WFIRST). Advanced computation plays a significant role in the frontier science carried out at Argonne. The ATLAS group in Argonne’s HEP Division hosts the ATLAS Analysis Support Center, while the Computing group focuses on the use of High Performance Computing for LHC data analysis, detector simulation, and perturbative QCD. The Computational Cosmology group carries out some of the largest cosmological simulations worldwide. Argonne is the home of the Argonne Leadership Computing Facility (ALCF), one of the two such facilites in the DOE complex. ALCF staff also carry out front-line research in HEP-relevant areas such as computational cosmology and lattice QCD. The ALCF hosts the 10 Pflop IBM BG/Q system Mira with 750K+ cores; another 100K BG/Q cores reside in the smaller systems Cetus and Vesta. The CPU/GPU analysis cluster Cooley offers 300 TFlops of performance. Theta, an 8 PFlop, Intel Xeon Phi Knights Landing-based system will be arriving in 2016. HEP Division researchers work closely with ALCF staff, as well as with members of Argonne’s Mathematics and Computer
Science (MCS) Division.

Fermilab National Accelerator Laboratory

Fermilab is the sole National Laboratory devoted exclusively to particle physics and as such has a special place in the HEP landscape, where it is making significant contributions in each of the scientific frontiers. In terms of the official DOE Office of Science list of Core Competencies, Fermilab is recognized in the area of Advanced Computer Science, Visualization and Data. Fermilab has a significant computing facility housing 80,000 cores of compute along with 30 petabytes of cache and nearly an exabyte of robotic tape storage capacity. Two 100 gigabit links connect this facility to the ESnet science network in a robust fashion. Fermilab hosts the CMS Tier 1 computing center along with a large analysis cluster to support the LHC Physics Center (LPC) located on site. Fermilab is home to the Intensity Frontier and is supporting MINOS, Minerva, Microboone, LArIAT, LAr1ND, ICARUS, g-2, Mu2e, NOvA and DUNE. Fermilab is also playing a key role in both the dark energy and dark matter experiments where it is engaged in DES, DESI, LSST for dark energy and CDMS, COUPP, and Darkside for dark matter efforts. Supporting so many experiments, the scientific computing division (140 strong) has developed a series of common tools, workflows, data acquisition systems, etc. to enable the experiments to focus on the science rather than on the computational infrastructure.