SciDAC-posters-2015

	A	B	C	D	E	F	G	H
1	HY
2
3		Electronic
4		Poster	Poster Board	Poster Board		(default 8x4)
5		Submitted?	Position #	Allocation	Email	Size	Title	Authors
6	EXAMPLE
7	Example			2	example@test		Exciting science project
8						4x4 (A1)	Great posters A1, sharing a poster board with poster #A2	Author1, Author 2, Author 3
9						4x4 (A2)	Great posters A2, sharing a poster board with poster #A1	Author1, Author 2, Author 3
10						6x4 (B1)	Great poster #3, a single poster 6x4 poster, using an entire 8x4 poster board	Author1, Author 2, Author 3
11
12	BES
13	Roberto Car			2	rcar@princeton.edu		Advanced Modeling of Ions in Solutions, on Surfaces, and in Biological Environments
14						4x4 (A1)	The inherent potential energy surface (IPES) and crystallization in water at deeply supercooled conditions	Fausto Martelli, Biswajit Santra, Robert A. DiStasio Jr, Roberto Car
15						4x4 (B1)	Large-Scale Ab Initio Isobaric–Isothermal Simulations Using Self-Consistent van der Waals Inclusive Density Functionals	Hsin-Yu Ko, Biswajit Santra, Robert A. DiStasio Jr, Roberto Car
16
17	Chris Cramer			1	cramer@umn.edu		Charge Transfer and Charge Transport in Photoactivated Systems: Developing Electron-Correlated Methods for Excited State Structure and Dynamics in the NWChem Software Suite
18						(A1)	Excited State Absorption from Real-Time Time-Dependent Density Functional Theory	Sean Fischer, Chris Cramer, Niri Govind
19
20
21	John E. Pask			2	pask1@llnl.gov		Discontinuous Methods for Accurate, Massively Parallel Quantum Molecular Dynamics: Lithium Ion Interface Dynamics Fom First Principles
22					whu@lbl.gov	6x4 (B1)	DGDFT: A Massively Parallel Method for Large Scale Density Functional Theory Calculations	Wei Hu, Lin Lin, Chao Yang, Gaigong Zhang, Mathias Jacquelin, Eugene Vecharynski, and John E. Pask
23					ong7@llnl.gov	4x3 (B1)	Molecular Structure and Ion Transport Near Anode/Electrolyte Interface in Li-Ion Batteries from First Principles	Mitchell Ong, Vincenzo Lordi, Erik Draeger and John Pask
24
25
26	Andreas Glatz			2	glatz@anl.gov		OSCon -- Optimizing SuperConductor Transport Properties Through Large-Scale Simulation
27						4x3 (A1)	Superconducting Critical Current by Design
28						4x3 (A2)	Large-scale Simulation of Vortex Dynamics and Optimization
29						6x4 (B1)	Extracting, Tracking, and Visualizing Magnetic Flux Vortices in Complex-Valued Superconductor Simulation Data
30
31	James R. Chelikowsky			2	jrc@ices.utexas.edu,		Scalable Computational Tools for Discovery and Design – Excited State Phenomena in Energy Materials
32					jrc@iutexas.edu	6x4 (A1)	Algorithms for Electronic Structure Calculations in Real Space	Charles Lena, N. Scott Bobbitt, Grady Schofield, and James R. Chelikowsky
33					bmarco@civet.berkeley.edu	6x4 (B1)	Ultrafast Dynamics of Excited Electrons in Materials for Energy Applications	Marco Bernardi, Derek Vigil-Fowler, Jamal Mustafa, Jeffrey B Neaton, and Steven G Louie
34
35
36	Martin Head-Gordon			2	mhg@cchem.berkeley.edu		Simulating The Generation, Evolution and Fate of Electronic Excitations in Molecular and Nanoscale Materials With First Principles Methods
37					jonw@berkeley.edu	6x4 (A1)	Recent advances in spin-flip approaches to strong electron correlations in molecules	Nicholas J. Mayhall, Shane Yost, Jonathan C. Weisberg, Martin Head-Gordon
38					whiteaf@berkeley.edu	6x4 (B1)	Non-Hermitian Hartree Fock for Electronic Resonances	Alec White, C. William McCurdy, Martin Head-Gordon
39
40
41	Garnet Chan			2	gkc1000@gmail.com		Predictive Computing for Condensed Matter
42					lkwagner@illinois.edu	6x4 (A1)	High accuracy and effective models for strongly correlated electron systems	Hitesh Changlani, Huihuo Zheng, Brian Busemeyer Lucas K. Wagner
43					bkclark@gmail.com	6x4 (B1)	Wave-functions for improved simulations of strongly correlated systems	Hassan Shapourian, Bryan K. Clark
44
45
46	BER
47	Bill Collins			2	wdcollins@lbl.gov,		Multiscale Methods for Accurate, Efficient, and Scale-Aware Models of the Earth System
48						8x4 (A1)	MPAS-Ocean: A multiscale approach to global ocean modeling	Todd Ringler, Lenny Oliker, Doug Jacobsen, Juan Saenz, Abhinav Sarje
49					hui.wan@pnnl.gov	4x4 (B1)	Assessing and improving numerical treatments of multiscale processes in the atmosphere	Hui Wan, Peter Caldwell, Katherine Evans, David Gardner, Philip Rasch, Carol Woodward, Jean Sexton, Aaron Lott, Richard Archibald, Patrick Worley, Matthew Norman, Mark Taylor
50						4x4 (B2)	Applications of uncertainty quantification to multiscale processes in the atmosphere	Vera Bulaevskaya, Kenny Chowdhary, Bert Debusschere, Steve Ghan, Vince Larson, Kyo-Sun Lim, Donald Lucas, Yun Qian, Daniele Rosa, Mark Taylor (in alphabetical order)
51
52	Stephen Price & Esmond Ng			2	sprice@lanl.gov, egng@lbl.gov		Predicting Ice Sheet and Climate Evolution at Extreme Scales PISCEES
53						4x4 (A1)	Progress on the PISCEES FELIX ice sheet dynamical cores	I. Tezaur, A. Salinger, M. Perego, R. Tuminaro, L. Ju, T. Zhang, M. Gunzburger
54						4x4 (A2)	Applying the BISICLES Ice Sheet Dynamical Core to Full-scale Antarctic Problems	D. Martin, E. Ng, X. Asay-Davis, S. Price, S. Cornford
55						4x4 (B1)	LIVVkit: Advanced software and workflow for analysis of continental-scale Ice Sheet Modeling	K. Evans, J. Kennedy, A. Bennett, P. Worley, S. Price, M. Hoffman
56						4x4 (B2)	Ice Sheet Model Experiments for Evaluating Sea Level Rise Uncertainties	C. Jackson, J. Jakeman, S. Price, I. Tezaur, M. Eldred, P. Heimback, M. Perego, A. Salinger, G. Stadler
57	FES
58	Choong-Seock Chang			2	cschang@pppl.gov		Center for Edge Physics Simulation EPSI
59						4x4 (A1)	Pushing the Envelope of Fusion Edge Science on Extreme Scale HPCs	S. Ku, C.S. Chang, S. Parker, and the EPSI Team
60					klasky@ornl.gov	4x4 (A2)	Data Management and UQ in Extreme Scale XGC Simulation	R. Moser, M. Greenwald, V. Carey, S, Klasky, M. Parashar, J. Choi, S. Ku, M. Chilenski, and the EPSI Team
61					Shephard@rpi.edu	4x4 (B1)	Advances in Solver and Meshing Technologies for XGC	M. Adams, M. Shephard, E. D'Azevedo, S. Ku, R. Hager, and the EPSI Team
62					dazevedoef@ornl.gov	4x4 (B2)	Performance and Algorithm in Extreme Scale XGC Simulation with Emphasis on Nonlinear Fokker-Planck Solver	E. D'Azevedo, P. Worley, E. Yoon, R. Hager, S. Ku, and the EPSI Team
63	Brian D. Wirth			2	bdwirth@utk.edu,		Plasma Surface Interactions: Bridging from the Surface to the Micron Frontier through Leadership Class Computing
64						6x4 (A1)	Plasma-Surface Interactions (PSI): Atomistic Insights into He Transport and Agglomeration in Plasma-Exposed Tungsten	Blas Uberuaga
65						4x3	Plasma Surface Interactions (PSI): Improved PMI models for Plasma Edge codes and SOL Impurity Transport	Davide Curreli
66
67
68	Jeff Candy			2	candy@fusion.gat.com		AToM: Advanced Tokamak Modeling
69						8x4 (A1)	AToM -- Advancing Mission-Critical Tokamak Modeling Workflows on HPC Systems	O. Meneghini, and the AToM team
70						8x4 (B1)	AToM -- Tokamak Profile Prediction with Dynamic Pedestal	D. Green, and the AToM team
71
72
73	HEP
74	Panagiotis Spentzouris			2	spentz@fnal.gov,		Community Project for Accelerator Science and Simulation ComPASS
75						A1	Advanced Computational Tools for High Energy Accelerators	Jean-Luc Vay
76					amundson@fnal.gov	B1	Advanced Computational Tools for High Intensity Accelerators	James Amundson
77
78	Paul Mackenzie			2	mackenzie@fnal.gov,		Searching for Physics Beyond the Standard Model: Strongly-Coupled Field Theories at the Intensity and Energy Frontiers
79						4 by 4 (A1)	Computational Advances and Precision Kaon Physics	Robert Mawhinney
80						4 by 4 (A2)	Designing multi-level algorithms for SciDAC QUDA library	R. Brower, M. Clark, A. Strelchenko
81
82
83
84
85
86	Salman Habib			2	habib@anl.gov,		Computation-Driven Discovery for the Dark Universe
87						A1	Planning a Universe: Nested Designs and Input Transformations for the Dark Universe Simulations	Earl Lawrence (LANL), Derek Bingham (SFU), Dave Higdon (Virginia Tech), Katrin Heitmann (Argonne), Salman Habib (Argonne).
88						B1	New Science Results from HACC	Katrin Heitmann et al. (Argonne),
89
90
91	NP
92	Frithjof Karsch			2	karsch@bnl.gov,		Computing Properties of Hadrons, Nuclei and Nuclear Matter from Quantum Chromodynamics
93						4 by 4 (A1)	QCD thermodynamics and the RHIC Beam Energy Scan	F. Karsch, Swagato Mukherjee, H. Ohno, P. Petreczky, S. Sharma, P. Steinbrecher and M. Wagner
94						4 by 4 (A2)	Architecture independent SIMD Library for Lattice QCD	F. Karsch, Swagato Mukherjee, H. Ohno, P. Petreczky, S. Sharma, P. Steinbrecher and M. Wagner
95						(B1)	Multi-baryon systems and nuclear forces.	Chang, Emmanuel
96
97	Joseph Carlson			2	carlson@lanl.gov,		Nuclear Computational Low-Energy Initiative NUCLEI
98						4 by 4 (A1)	Uncertainty Quantification for Nuclear Density Functional Theory	J. McDonnell, N. Schunck. D. Higdon, J. Sarich, S.M. Wild, and W. Nazarewicz
99						4 by 4 (A2)	Large-scale Simulations of Nuclear Pasta Through Advanced Computing	I. Sagert, G. Fann, Ch. Horowitz, D. Berry, M. Caplan, A. Schneider
100						4 by 4 (B1)	Load Balancing and Quantum Monte Carlo in Nuclear Physics	S. C. Pieper, R. Lusk, J. Carlson, S. Gandolfi, A. Lovato