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1

The Argonne Leadership Computing  

E-Print Network (OSTI)

Leadership Computing Facility (ALCF) was created and exists today as a preeminent global resource t y #12;Argonne Leadership Computing Facility ALCF Continues a Tradition of Computing Innovation--a tradition that continues today at the ALCF. The seedbed for such groundbreaking software as MPI, PETSc, PVFS

Kemner, Ken

2

Argonne Leadership Computing Facility  

E-Print Network (OSTI)

on constant Q surface. (Credit: Anurag Gupta/GE Global) www.alcf.anl.gov The Leadership Computing Facility Division operates the Argonne Leadership Computing Facility -- the ALCF -- as part of the U.S. Department.......................................................................................... 63 2010 ALCF Projects ............................................................................ 64

Kemner, Ken

3

Careers | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Specialist As a member of the Argonne Leadership Computing Facilitys (ALCF) High Performance Computing (HPC) team, appointee will participate in the technical operation, support...

4

Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites

area area Contact Us | Careers | Staff Directory | User Support Search form Search Search Argonne Leadership Computing Facility an Office of Science user facility Home . About Overview History Staff Directory Careers Visiting Us Contact Us Resources & Expertise Mira Cetus Vesta Intrepid Challenger Surveyor Visualization Clusters Data and Networking Our Teams User Advisory Council Science at ALCF INCITE 2014 Projects ALCC 2013 Projects ESP Projects View All Projects Allocation Programs Early Science Program Publications Industry Collaborations News & Events Web Articles In the News Upcoming Events Past Events Informational Materials Photo Galleries User Services User Support Machine Status Presentations Training & Outreach User Survey Getting Started How to Get an Allocation New User Guide

5

History | Argonne Leadership Computing Facility  

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HPC at Argonne ALCF Continues a Tradition of Computing Innovation In 1949, because the computers they needed weren't yet available commercially for purchase, Argonne physicists...

6

Tony Tolbert | Argonne Leadership Computing Facility  

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Tony Tolbert Consultant - Business Intelligence Argonne Leadership Computing Facility 9700 S. Cass Avenue Bldg. 240 Wkstn. 3D29 Argonne, IL 60439 630-252-6027 wtolbert@alcf.anl...

7

Web Articles | Argonne Leadership Computing Facility  

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In the News In the News Supercomputers: New Software Needed Information Week Story UA Chemist Leads Supercomputer Effort to Aid Nuclear Understanding UA News Rewinding the universe Deixis Magazine more news Web Articles sort ascending Theory and Computing Sciences building at Argonne ALCF and MCS Establish Joint Lab for Evaluating Computing Platforms To centralize research activities aimed at evaluating future high performance computing platforms, a new joint laboratory at Argonne will provide significant opportunities for the Argonne Leadership Computing Facility (ALCF) and the Mathematics and Computer Science (MCS), both located in the Theory and Computing Sciences building, to work collaboratively on prototype technologies for petascale and beyond. January 08, 2014

8

Accounts Policy | Argonne Leadership Computing Facility  

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Decommissioning of BG/P Systems and Resources Decommissioning of BG/P Systems and Resources Blue Gene/Q Versus Blue Gene/P Mira/Cetus/Vesta Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Pullback Policy ALCF Acknowledgment Policy Account Sponsorship & Retention Policy Accounts Policy Data Policy INCITE Quarterly Report Policy Job Scheduling Policy on BG/P Job Scheduling Policy on BG/Q Refund Policy Software Policy User Authentication Policy Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Accounts Policy All holders of user accounts must abide by all appropriate Argonne Leadership Computing Facility and Argonne National Laboratory computing usage policies. These are described at the time of the account request and

9

Vesta | Argonne Leadership Computing Facility  

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Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. Feedback Form Vesta Vesta is the...

10

Intrepid | Argonne Leadership Computing Facility  

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Resources & Expertise Resources & Expertise Mira Cetus Vesta Intrepid Challenger Surveyor Visualization Clusters Data and Networking Our Teams User Advisory Council Intrepid Intrepid Data and Networking Intrepid Intrepid has a highly scalable torus network, as well as a high-performance collective network that minimizes the bottlenecks common in simulations on large, parallel computers. Intrepid uses less power per teraflop than systems built around commodity microprocessors, resulting in greater energy efficiency and reduced operating costs. Blue Gene applications use common languages and standards-based MPI communications tools, so a wide range of science and engineering applications are straightforward to port, including those used by the computational science community for cutting-edge research

11

Scalasca | Argonne Leadership Computing Facility  

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Data Transfer Data Transfer Debugging & Profiling Performance Tools & APIs Tuning MPI on BG/Q Tuning and Analysis Utilities (TAU) HPCToolkit HPCTW mpiP gprof Profiling Tools Darshan PAPI BG/Q Performance Counters BGPM Openspeedshop Scalasca BG/Q DGEMM Performance Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Scalasca Introduction Scalasca is a software tool that supports the performance optimization of MPI and OpenMP parallel programs by measuring and analyzing their runtime behavior. The analysis identifies potential performance bottlenecks - in particular those concerning communication and synchronization - and

12

GROMACS | Argonne Leadership Computing Facility  

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Software & Libraries Software & Libraries Boost CPMD Code_Saturne GAMESS GPAW GROMACS LAMMPS MADNESS QBox IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] GROMACS Building and Running GROMACS on Vesta/Mira The Gromacs Molecular Dynamics package has a large number of executables. Some of them, such as luck, are just utilities that do not need to be built for the back end. Begin by building the serial version of Gromacs (i.e., the version that can run within one processor, with or without more than one thread) for the front end and then build the parallel version (i.e., with MPI) for the back end. This way, a full set of executables is available for the front end and

13

Data Policy | Argonne Leadership Computing Facility  

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Intrepid/Challenger/Surveyor Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Pullback Policy ALCF Acknowledgment Policy Account Sponsorship & Retention Policy Accounts Policy Data Policy INCITE Quarterly Report Policy Job Scheduling Policy on BG/P Job Scheduling Policy on BG/Q Refund Policy Software Policy User Authentication Policy Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Data Policy Contents ALCF Data Confidentiality ALCF Staff with Root Privileges Use of Proprietary/Licensed Software Prohibited Data Export Control Data Storage Systems Home File System Space Data/Parallel File System Space Capacity and Retention Policies Back to top ALCF Data Confidentiality The Argonne Leadership Computing Facility (ALCF) network is an

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Resources & Expertise | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

is dedicated to large-scale computation and builds on Argonne's strengths in high-performance computing software, advanced hardware architectures and applications expertise. It...

15

Scott Parker | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

at the National Center for Supercomputing Applications, where he focused on high-performance computing and scientific applications. At Argonne since 2008, he works on performance...

16

Michael Papka | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Both his laboratory leadership roles and his research interests relate to high-performance computing in support of scientific discovery. Dr. Papka holds a Senior Fellow...

17

Richard Coffey | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

a supercomputer for those groups, and participated in campus-wide IT and high-performance computing leadership efforts. Before that, he worked for ten years at the University...

18

David Martin | Argonne Leadership Computing Facility  

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David Martin Industrial Outreach Lead David Martin Argonne National Laboratory 9700 South Cass Avenue Building 240 - Rm. 3126 Argonne, IL 60439 630-252-0929 dem...

19

Douglas Waldron | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Douglas Waldron Senior Data Architect Douglas Waldron Argonne National Laboratory 9700 South Cass Avenue Building 240 - Rm. 3122 Argonne, IL 60439 630-252-2884 dwaldron...

20

User Authentication Policy | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Eureka / Gadzooks Eureka / Gadzooks Policies Pullback Policy ALCF Acknowledgment Policy Account Sponsorship & Retention Policy Accounts Policy Data Policy INCITE Quarterly Report Policy Job Scheduling Policy on BG/P Job Scheduling Policy on BG/Q Refund Policy Software Policy User Authentication Policy Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] User Authentication Policy Users of the Argonne production systems are required to use a CRYPTOCard one time password, multifactor authentication system. This document explains the policies users must follow regarding CRYPTOCard tokens for accessing the Argonne resources. MultiFactor Authentication "Authentication systems are frequently described by the authentication

Note: This page contains sample records for the topic "argonne leadership computing" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


21

Training & Outreach | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

User Services User Support Machine Status Presentations Training & Outreach Getting Started Videoconference Data Management Webinar Argonne Training Program on Extreme-Scale...

22

Visiting Us | Argonne Leadership Computing Facility  

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Visitor Registration Form Visitor Registration Form As a national laboratory, formal registration is REQUIRED for all visitors coming to Argonne National Laboratory. Visitors must...

23

ALCC Program | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Getting Started How to Get an Allocation New User Guide Intrepid to Mira: Key Changes INCITE Program ALCC Program Director's Discretionary Program ALCC Program ASCR Leadership...

24

User Services | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Services Services User Support Machine Status Presentations Training & Outreach User Survey User Services The ALCF User Assistance Center provides support for ALCF resources. The center's normal support hours are 9 a.m. until 5 p.m. (Central time) Monday through Friday, exclusive of holidays. Contact Us Email: support@alcf.anl.gov Telephone: 630-252-3111 866-508-9181 Service Desk: Building 240, 2-D-15/16 Argonne National Laboratory 9700 South Cass Avenue Argonne, IL 60439 Trouble Ticket System You can check the status of your existing tickets as well as send new support tickets. To do this, log in with your ALCF username and ALCF web accounts system password. (This is the password you chose when you requested your account, or which was assigned to you and sent with your new

25

Maricris Lodriguito Mayes | Argonne Leadership Computing Facility  

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Ab Initio Molecular Dynamics, Computational Material ScienceNanoscience, High Performance Computing, Reaction Mechanism and Dynamics, Theoretical and Computational Chemistry...

26

Yuri Alexeev | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

for using and enabling computational methods in chemistry and biology for high-performance computing on next-generation high-performance computers. Yuri is particularly...

27

Argonne Leadership Computing Facility (ALCF) | U.S. DOE Office of Science  

Office of Science (SC) Website

Argonne Argonne Leadership Computing Facility (ALCF) Advanced Scientific Computing Research (ASCR) ASCR Home About Research Facilities Accessing ASCR Supercomputers Oak Ridge Leadership Computing Facility (OLCF) Argonne Leadership Computing Facility (ALCF) National Energy Research Scientific Computing Center (NERSC) Energy Sciences Network (ESnet) Research & Evaluation Prototypes (REP) Innovative & Novel Computational Impact on Theory and Experiment (INCITE) ASCR Leadership Computing Challenge (ALCC) Science Highlights Benefits of ASCR Funding Opportunities Advanced Scientific Computing Advisory Committee (ASCAC) News & Resources Contact Information Advanced Scientific Computing Research U.S. Department of Energy SC-21/Germantown Building 1000 Independence Ave., SW Washington, DC 20585 P: (301) 903-7486 F: (301)

28

INCITE Program | Argonne Leadership Computing Facility  

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5 Checks & 5 Tips for INCITE Mira Computational Readiness Assessment ALCC Program Director's Discretionary Program INCITE Program Innovative and Novel Computational Impact on...

29

Nichols Romero | Argonne Leadership Computing Facility  

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Laboratory (2005-2007) and later worked as a Computational Scientist in the High-Performance Computing Modernization Program (2007-2008) for the Department of Defense. Romero was...

30

Powering Research | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

and disk storage capacity. As we move towards the next major challenge in high-performance computing-exascale levels of computation-no doubt the benefits of partnering will grow...

31

New User Guide | Argonne Leadership Computing Facility  

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Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. Feedback Form New User Guide Step 1. Request...

32

Director's Discretionary (DD) Program | Argonne Leadership Computing...  

NLE Websites -- All DOE Office Websites (Extended Search)

is not required. Review Process: Projects must demonstrate a need for high-performance computing resources. Reviewed by ALCF. Application Period: ongoing (available year...

33

Accerelate Your Vision | Argonne Leadership Computing Facility  

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world's most capable resources available to researchers. The ALCF has the high performance computing resources and expertise to enable major research breakthroughs leading to...

34

About ALCF | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

and the largest-scale systems. Accelerating Transitional Discovery High-performance computing is becoming increasingly important as more scientists and engineers use...

35

Software and Libraries | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Allinea DDT +ddt L Multithreaded, multiprocess source code debugger for high performance computing. bgqstack @default I A tool to debug and provide postmortem analysis of...

36

Pullback Policy | Argonne Leadership Computing Facility  

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Eureka / Gadzooks Eureka / Gadzooks Policies Pullback Policy ALCF Acknowledgment Policy Account Sponsorship & Retention Policy Accounts Policy Data Policy INCITE Quarterly Report Policy Job Scheduling Policy on BG/P Job Scheduling Policy on BG/Q Refund Policy Software Policy User Authentication Policy Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Pullback Policy In an effort to ensure that valuable ALCF computing resources are used judiciously, a pullback policy has been instituted. Projects granted allocations under the INCITE and ALCC programs that have not used a significant amount of their allocation will be evaluated and adjusted during the year following the policies outlined on this page.

37

Machine Overview | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

BG/Q Drivers Status Machine Overview Machine Partitions Torus Network Data Storage & File Systems Compiling & Linking Queueing & Running Jobs Data Transfer Debugging & Profiling Performance Tools & APIs Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Machine Overview Blue Gene /Q systems are composed of login nodes, I/O nodes, and compute nodes. Login Nodes Login and compile nodes are IBM Power 7-based systems running Red Hat Linux and are the user's interface to a Blue Gene/Q system. This is where users login, edit files, compile, and submit jobs. These are shared resources

38

Petascale Adaptive Computational Fluid Dynamics | Argonne Leadership  

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Petascale Adaptive Computational Fluid Dynamics Petascale Adaptive Computational Fluid Dynamics PI Name: Kenneth Jansen PI Email: jansen@rpi.edu Institution: Rensselaer Polytechnic Institute The specific aim of this request for resources is to examine scalability and robustness of our code on BG/P. We have confirmed that, during the flow solve phase, our CFD flow solver does exhibit perfect strong scaling to the full 32k cores on our local machine (CCNI-BG/L at RPI) but this will be our first access to BG/P. We are also eager to study the performance of the adaptive phase of our code. Some aspects have scaled well on BG/L (e.g., refinement has produced adaptive meshes that take a 17 million element mesh and perform local adaptivity on 16k cores to match a requested size field to produce a mesh exceeding 1 billion elements) but other aspects (e.g.,

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BGP: Eureka / Gadzooks | Argonne Leadership Computing Facility  

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File Systems Compiling and Linking Scheduling Software and Libraries Using Data Analytics & Visualization Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] BGP: Eureka / Gadzooks Researchers often analyze the huge data sets generated on Intrepid by converting it into visual representations on ALCF's Eureka, a system featuring a large installation of NVIDIA Quadro Plex S4 external graphics processing unit (GPUs). The ALCF also operates Gadzooks, a visualization test and deployment system. Eureka 100 compute nodes: each with (2) 2.0 GHz quad-core Xeon servers with 32 GB RAM 200 NVIDIA Quadro FX5600 GPUs in 50 S4s Memory: More than 3.2 terabytes of RAM

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Software Policy | Argonne Leadership Computing Facility  

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Intrepid/Challenger/Surveyor Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Pullback Policy ALCF Acknowledgment Policy Account Sponsorship & Retention Policy Accounts Policy Data Policy INCITE Quarterly Report Policy Job Scheduling Policy on BG/P Job Scheduling Policy on BG/Q Refund Policy Software Policy User Authentication Policy Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Software Policy ALCF Resource Software Use All software used on ALCF computers must be appropriately acquired and used according to the appropriate licensing. Possession or use of illegally copied software is prohibited. Likewise, users shall not copy copyrighted software, except as permitted by the owner of the copyright. Currently,

Note: This page contains sample records for the topic "argonne leadership computing" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


41

BGP: Code Saturne | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Documentation Feedback Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] BGP: Code Saturne What is Code_Saturne? Code Saturne is the EDF's general purpose Computational Fluid Dynamics (CFD) software. EDF stands for Électricité de France, one of the world's largest producers of electricity. Obtaining Code_Saturne Code_Saturne is an open source code, freely available for the CFD practitioners and other scientists too. You can download the latest version from the Code_Saturne Official Forum Web Page and you can also follow the Forum with interesting questions about installation problems, general usage, examples, etc. Building Code_Saturne for Blue Gene/P The version currently available on Intrepid is the last official stable

42

Accounts & Access | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Account Information Accounts and Access FAQ Connect & Log In Using CRYPTOCards SSH Keys on Surveyor Disk Space Quota Management Allocations Decommissioning of BG/P Systems and Resources Blue Gene/Q Versus Blue Gene/P Mira/Cetus/Vesta Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Accounts & Access Account Information Account Information: All computing carried out on the ALCF systems is associated with a user "account." This account is used to log onto the login servers and run jobs on the resources. Using CRYPTOcards Using CRYPTOCards: Useful information to guide you in using and troubleshooting your CRYPTOcard.

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System Overview | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

System Overview BG/Q Drivers Status Machine Overview Machine Partitions Torus Network Data Storage & File Systems Compiling & Linking Queueing & Running Jobs Data Transfer Debugging & Profiling Performance Tools & APIs Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] System Overview Machine Overview Machine Overview is a reference for the login and compile nodes, I/O nodes, and compute nodes of the BG/Q system. Machine Partitions Machine Partitions is a reference for the way that Mira, Vesta and Cetus are partitioned and discusses the network topology of the partitions.

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Visualization Clusters | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Eureka Eureka Analytics and Visualization Visualization Clusters Tukey Tukey is the ALCF's newest analysis and visualization cluster. Equipped with state-of-the-art graphics processing units (GPUs), Tukey converts computational data from Mira into high-resolution visual representations. The resulting images, videos, and animations help users to better analyze and understand the data generated by Mira. Tukey can also be used for statistical analysis, helping to pinpoint trends in the simulation data. Additionally, the system is capable of preprocessing efforts, such as meshing, to assist users preparing for Mira simulations. Tukey shares the Mira network and parallel file system, enabling direct access to Mira-generated results. Configuration Two 2 GHz 8-core AMD Opteron CPUs per node

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Running Jobs | Argonne Leadership Computing Facility  

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Reservations Cobalt Job Control How to Queue a Job Running Jobs FAQs Queuing and Running on BG/Q Systems Data Transfer Debugging & Profiling Performance Tools & APIs Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Running Jobs Contents Job Submission Submitting a Script Job Sub-block Script Jobs Multiple Consecutive Runs within a Script Job Settings Environment Variables Script Environment Program and Argument Length Limit Job Dependencies Thread Stack Size Verbose Setting for Runjob How do I get each line of the output labeled with the MPI rank that it came from? Mapping of MPI Tasks to Cores

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BGP: GPAW | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Documentation Feedback Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] BGP: GPAW What is GPAW? GPAW is a density-functional theory (DFT) Python code based on the projector-augmented wave (PAW) method. It uses real-space uniform grids and multi-grid methods or atom-centered basis-functions. Obtaining GPAW GPAW is an open-source code which can be download at https://wiki.fysik.dtu.dk/gpaw/ It relies on the following Python libraries: Atomic Simulation Environment (ASE) - https://wiki.fysik.dtu.dk/ase/ NumPy - http://numpy.scipy.org/ Plus the standard math libraries: BLAS LAPACK ScaLAPACK Building GPAW for Blue Gene/P Build instructions for GPAW can be found here: https://wiki.fysik.dtu.dk/gpaw/install/BGP/surveyor.html

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BGP: MADNESS | Argonne Leadership Computing Facility  

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IBM References IBM References Software and Libraries BGP: GROMACS BGP: MADNESS Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] BGP: MADNESS Overview MADNESS Project on Google Code MADNESS Project at ORNL Downloading MADNESS MADNESS is available under the GNU General Public License v2. You can download the source from Google Code like this: svn checkout http://m-a-d-n-e-s-s.googlecode.com/svn/local/trunk m-a-d-n-e-s-s-read-only MADNESS on BlueGene/P MADNESS currently provokes many shortcomings in the IBM XL C++ compiler and thus can only be compiled with the GNU C++ compiler. Please see below for the XL C++ compiler error for current and past problems.

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Machine Partitions | Argonne Leadership Computing Facility  

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BG/Q Drivers Status Machine Overview Machine Partitions Torus Network Data Storage & File Systems Compiling & Linking Queueing & Running Jobs Data Transfer Debugging & Profiling Performance Tools & APIs Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Machine Partitions Mira As our production machine, the queues on Mira are very similar to those on our BG/P system Intrepid. In the prod-capability queue, partition sizes of 8192, 12288, 16384, 32768, and 49152 nodes are available. All partitions have a full torus network. The max runtime of jobs submitted to the

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gprof Profiling Tools | Argonne Leadership Computing Facility  

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Tuning MPI on BG/Q Tuning and Analysis Utilities (TAU) HPCToolkit HPCTW mpiP gprof Profiling Tools Darshan PAPI BG/Q Performance Counters BGPM Openspeedshop Scalasca BG/Q DGEMM Performance Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] gprof Profiling Tools Contents Introduction Profiling on the Blue Gene Enabling Profiling Collecting Profile Information Profiling Threaded Applications Using gprof Routine Level Flat Profile Line Level Flat Profile Call Graph Analysis Routine Execution Count List Annotated Source Listing Issues in Interpreting Profile Data Profiling Concepts Programs in Memory

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Debugging & Profiling | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Debugging & Profiling Debugging & Profiling Allinea DDT Core File Settings Determining Memory Use Using VNC with a Debugger bgq_stack gdb Coreprocessor TotalView on BG/Q Systems Performance Tools & APIs Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Debugging & Profiling Initial setups Core file settings - this page contains some environment variables that allow you to control code file creation and contents. Using VNC with a Debugger - when displaying an X11 client (e.g. Totalview) remotely over the network, interactive response is typically slow. Using the VNC server can often help you improve the situation.

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IBM References | Argonne Leadership Computing Facility  

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Data Transfer Data Transfer Debugging & Profiling Performance Tools & APIs Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] IBM References Contents IBM Redbooks A2 Processor Manual QPX Vector Instruction Set Architecture XL Compiler Documentation MASS Documentation Back to top IBM Redbooks IBM System Blue Gene Solution: Blue Gene/Q Application Development Manual - Application and library developers wants this one. This documents options for MPI, OpenMP, and other features of interest to most users. IBM System Blue Gene Solution: Blue Gene/Q Code Development and Tools Interface - Low-level tools; developers may find this useful.

52

Data Transfer | Argonne Leadership Computing Facility  

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Using Globus Online Using GridFTP Debugging & Profiling Performance Tools & APIs Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Data Transfer The Blue Gene/Q will connect to other research institutions using a total of 100 Gbit/s of public network connectivity (10 Gbit/s during early access). This allows scientists to transfer datasets to and from other institutions over fast research networks such as the Energy Science Network (ESNet) and the Metropolitan Research and Education Network (MREN). Data Transfer Node Overview A total of 12 data transfer nodes (DTNs) will be available to all Mira

53

Introducing Challenger | Argonne Leadership Computing Facility  

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Introducing Challenger Quick Reference Guide System Overview Data Transfer Data Storage & File Systems Compiling and Linking Queueing and Running Jobs Debugging and Profiling Performance Tools and APIs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Introducing Challenger The Blue Gene/P resource, Challenger, is the new home for the prod-devel job submission queue. Moving the prod-devel queue to Challenger clears the way for more capability jobs on Intrepid. Challenger shares the same environment as Intrepid and is intended for small, short, interactive debugging and test runs. Production jobs are not

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ALCF Acknowledgment Policy | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

User Guides User Guides How to Get an Allocation New User Guide Accounts & Access Allocations Decommissioning of BG/P Systems and Resources Blue Gene/Q Versus Blue Gene/P Mira/Cetus/Vesta Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Pullback Policy ALCF Acknowledgment Policy Account Sponsorship & Retention Policy Accounts Policy Data Policy INCITE Quarterly Report Policy Job Scheduling Policy on BG/P Job Scheduling Policy on BG/Q Refund Policy Software Policy User Authentication Policy Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] ALCF Acknowledgment Policy By applying for ALCF resources you agree to acknowledge ALCF in all publications based on work done with those resources. Following is a sample

55

The Argonne Leadership Computing Facility 2010 annual report.  

SciTech Connect

Researchers found more ways than ever to conduct transformative science at the Argonne Leadership Computing Facility (ALCF) in 2010. Both familiar initiatives and innovative new programs at the ALCF are now serving a growing, global user community with a wide range of computing needs. The Department of Energy's (DOE) INCITE Program remained vital in providing scientists with major allocations of leadership-class computing resources at the ALCF. For calendar year 2011, 35 projects were awarded 732 million supercomputer processor-hours for computationally intensive, large-scale research projects with the potential to significantly advance key areas in science and engineering. Argonne also continued to provide Director's Discretionary allocations - 'start up' awards - for potential future INCITE projects. And DOE's new ASCR Leadership Computing (ALCC) Program allocated resources to 10 ALCF projects, with an emphasis on high-risk, high-payoff simulations directly related to the Department's energy mission, national emergencies, or for broadening the research community capable of using leadership computing resources. While delivering more science today, we've also been laying a solid foundation for high performance computing in the future. After a successful DOE Lehman review, a contract was signed to deliver Mira, the next-generation Blue Gene/Q system, to the ALCF in 2012. The ALCF is working with the 16 projects that were selected for the Early Science Program (ESP) to enable them to be productive as soon as Mira is operational. Preproduction access to Mira will enable ESP projects to adapt their codes to its architecture and collaborate with ALCF staff in shaking down the new system. We expect the 10-petaflops system to stoke economic growth and improve U.S. competitiveness in key areas such as advancing clean energy and addressing global climate change. Ultimately, we envision Mira as a stepping-stone to exascale-class computers that will be faster than petascale-class computers by a factor of a thousand. Pete Beckman, who served as the ALCF's Director for the past few years, has been named director of the newly created Exascale Technology and Computing Institute (ETCi). The institute will focus on developing exascale computing to extend scientific discovery and solve critical science and engineering problems. Just as Pete's leadership propelled the ALCF to great success, we know that that ETCi will benefit immensely from his expertise and experience. Without question, the future of supercomputing is certainly in good hands. I would like to thank Pete for all his effort over the past two years, during which he oversaw the establishing of ALCF2, the deployment of the Magellan project, increases in utilization, availability, and number of projects using ALCF1. He managed the rapid growth of ALCF staff and made the facility what it is today. All the staff and users are better for Pete's efforts.

Drugan, C. (LCF)

2011-05-09T23:59:59.000Z

56

Argonne Leadership Computing Facility 2011 annual report : Shaping future supercomputing.  

Science Conference Proceedings (OSTI)

The ALCF's Early Science Program aims to prepare key applications for the architecture and scale of Mira and to solidify libraries and infrastructure that will pave the way for other future production applications. Two billion core-hours have been allocated to 16 Early Science projects on Mira. The projects, in addition to promising delivery of exciting new science, are all based on state-of-the-art, petascale, parallel applications. The project teams, in collaboration with ALCF staff and IBM, have undertaken intensive efforts to adapt their software to take advantage of Mira's Blue Gene/Q architecture, which, in a number of ways, is a precursor to future high-performance-computing architecture. The Argonne Leadership Computing Facility (ALCF) enables transformative science that solves some of the most difficult challenges in biology, chemistry, energy, climate, materials, physics, and other scientific realms. Users partnering with ALCF staff have reached research milestones previously unattainable, due to the ALCF's world-class supercomputing resources and expertise in computation science. In 2011, the ALCF's commitment to providing outstanding science and leadership-class resources was honored with several prestigious awards. Research on multiscale brain blood flow simulations was named a Gordon Bell Prize finalist. Intrepid, the ALCF's BG/P system, ranked No. 1 on the Graph 500 list for the second consecutive year. The next-generation BG/Q prototype again topped the Green500 list. Skilled experts at the ALCF enable researchers to conduct breakthrough science on the Blue Gene system in key ways. The Catalyst Team matches project PIs with experienced computational scientists to maximize and accelerate research in their specific scientific domains. The Performance Engineering Team facilitates the effective use of applications on the Blue Gene system by assessing and improving the algorithms used by applications and the techniques used to implement those algorithms. The Data Analytics and Visualization Team lends expertise in tools and methods for high-performance, post-processing of large datasets, interactive data exploration, batch visualization, and production visualization. The Operations Team ensures that system hardware and software work reliably and optimally; system tools are matched to the unique system architectures and scale of ALCF resources; the entire system software stack works smoothly together; and I/O performance issues, bug fixes, and requests for system software are addressed. The User Services and Outreach Team offers frontline services and support to existing and potential ALCF users. The team also provides marketing and outreach to users, DOE, and the broader community.

Papka, M.; Messina, P.; Coffey, R.; Drugan, C. (LCF)

2012-08-16T23:59:59.000Z

57

Argonne Leadership Computing Facility | www.alcf.anl.gov | info@alcf.anl.gov | (877) 737-8615 Materials Science  

E-Print Network (OSTI)

CONTACT Argonne Leadership Computing Facility | www.alcf.anl.gov | info@alcf.anl.gov | (877) 737 and computational readiness. For more information about ALCC and other programs at the ALCF, visit: http://www.alcf 2012 alcf-alcc_list-0212 ALCC ASCR Leadership Computing Challenge ENERGY U.S. DEPARTMENT OF Argonne

Kemner, Ken

58

Leadership | Argonne National Laboratory  

NLE Websites -- All DOE Office Websites (Extended Search)

Message from the Director Board of Governors Organization Chart Argonne Distinguished Fellows Emeritus Scientists & Engineers History Discoveries Prime Contract Contact Us Leadership Argonne integrates world-class science, engineering, and user facilities to deliver innovative research and technologies. We create new knowledge that addresses the scientific and societal needs of our nation. Eric D. Isaacs Eric D. Isaacs, Director, Argonne National Laboratory Director, Argonne National Laboratory Argonne National Laboratory Eric D. Isaacs, a prominent University of Chicago physicist, is President of UChicago Argonne, LLC, and Director of Argonne National Laboratory. Mark Peters Mark Peters, Deputy Lab Director for Programs Deputy Laboratory Director for Programs

59

Computing the Dark Universe | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

capability for critical cosmological probes by exploiting next-generation high performance computing architectures. The simulations will study the clustering of matter in the...

60

CONTACT Argonne Leadership Computing Facility | www.alcf.anl.gov | info@alcf.anl.gov | (877) 737-8615 LEADERSHIP-CLASS COMPUTING  

E-Print Network (OSTI)

Leadership Computing Facility (ALCF) was created and exists today as a preeminent global resource t y #12;Argonne Leadership Computing Facility ALCF Continues a Tradition of Computing Innovation--a tradition that continues today at the ALCF. The seedbed for such groundbreaking software as MPI, PETSc, PVFS

Kemner, Ken

Note: This page contains sample records for the topic "argonne leadership computing" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


61

How to Queue a Job | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Reservations Queueing Running Jobs HTC Mode MPMD and MPIEXEC FAQs Queueing and Running Debugging and Profiling Performance Tools and APIs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] How to Queue a Job Using the Job Resource Manager on BG/P: Commands, Options and Examples This document provides examples of how to submit jobs on the Argonne BG/P system. It also provides examples of commands that can be used to query the status of jobs, what partitions are available, etc. For an introduction to using the job resource manager and running jobs on BG/P, see Running Jobs on the BG/P System. How To Examples and Results

62

Software and Libraries for BG/P | Argonne Leadership Computing...  

NLE Websites -- All DOE Office Websites (Extended Search)

Allinea DDT +ddt L Multithreaded, multiprocess source code debugger for high performance computing. TotalView +totalview L Multithreaded, multiprocess source code debugger for...

63

HPCT Xprofiler on BG/P Systems | Argonne Leadership Computing...  

NLE Websites -- All DOE Office Websites (Extended Search)

HPCT Xprofiler on BGP Systems References IBM System Blue Gene Solution: High Performance Computing Toolkit for Blue GeneP - IBM Redbook describing HPCT and other performance...

64

How to Get an Allocation | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

in the nation and provides leading scientists with next-generation, high-performance computing resources for breakthrough research to address global challenges. The ALCF...

65

Blue Gene/Q: Sequoia and Mira | Argonne Leadership Computing...  

NLE Websites -- All DOE Office Websites (Extended Search)

Publication Date: April, 2013 Name of Publication Source: Contemporary High Performance Computing From Petascale toward Exascale Type of Publication: book chapter URL of the...

66

IBM References for BG/P | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Blue GeneP System Administration, SG24-7417 IBM System Blue Gene Solution: High Performance Computing Toolkit for Blue GeneP Universal Performance Counters Unit User Manual V3.0...

67

Intrepid/Challenger/Surveyor | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Introducing Challenger Quick Reference Guide System Overview Data Transfer Data Storage & File Systems Compiling and Linking Queueing and Running Jobs Debugging and Profiling Performance Tools and APIs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Intrepid/Challenger/Surveyor The ALCF houses several several IBM Blue Gene/P supercomputers, one of the world's fastest computing platforms. Intrepid Intrepid has a highly scalable torus network, as well as a high-performance collective network that minimizes the bottlenecks common in simulations on large, parallel computers. Intrepid uses less power per teraflop than

68

Tuning MPI on BG/Q | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Debugging & Profiling Debugging & Profiling Performance Tools & APIs Tuning MPI on BG/Q Tuning and Analysis Utilities (TAU) HPCToolkit HPCTW mpiP gprof Profiling Tools Darshan PAPI BG/Q Performance Counters BGPM Openspeedshop Scalasca BG/Q DGEMM Performance Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Tuning MPI on BG/Q MPI Standard The MPI standard is a formal specification document that is backed by the MPI Forum, but no official standardization body (e.g. ISO or ANSI). Fortunately, it has wide vendor support in HPC and is available on all common platforms. Please see this page for all of the MPI standardization documents,

69

Connect & Log In | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Account Information Accounts and Access FAQ Connect & Log In Using CRYPTOCards SSH Keys on Surveyor Disk Space Quota Management Allocations Decommissioning of BG/P Systems and Resources Blue Gene/Q Versus Blue Gene/P Mira/Cetus/Vesta Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Connect & Log In Users log into ALCF resources via ssh. ssh mira.alcf.anl.gov -l Resources that are accessible via ssh are vesta.alcf.anl.gov, mira.alcf.anl.gov, surveyor.alcf.anl.gov, intrepid.alcf.anl.gov, cetus.alcf.anl.gov, challenger.alcf.anl.gov, tukey.alcf.anl.gov, eureka.alcf.anl.gov, and gadzooks.alcf.anl.gov.

70

How to Queue a Job | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Reservations Cobalt Job Control How to Queue a Job Running Jobs FAQs Queuing and Running on BG/Q Systems Data Transfer Debugging & Profiling Performance Tools & APIs Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] How to Queue a Job Using the Job Resource Manager on BG/Q: Commands, Options and Examples This document provides examples of how to submit jobs on our BG/Q system. It also provides examples of commands that can be used to query the status of jobs, what partitions are available, etc. For an introduction to using the job resource manager and running jobs on BG/Q, see Running Jobs on the

71

Tuning and Analysis Utilities (TAU) | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Data Storage & File Systems Data Storage & File Systems Compiling & Linking Queueing & Running Jobs Data Transfer Debugging & Profiling Performance Tools & APIs Tuning MPI on BG/Q Tuning and Analysis Utilities (TAU) HPCToolkit HPCTW mpiP gprof Profiling Tools Darshan PAPI BG/Q Performance Counters BGPM Openspeedshop Scalasca BG/Q DGEMM Performance Software & Libraries IBM References Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Tuning and Analysis Utilities (TAU) References TAU Project Site TAU Instrumentation Methods TAU Compilation Options TAU Fortran Instrumentation FAQ TAU Leap to Petascale 2009 Presentation

72

Prior BG/P Driver Information | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Intrepid/Challenger/Surveyor Intrepid/Challenger/Surveyor Introducing Challenger Quick Reference Guide System Overview BG/P Driver Information Prior BG/P Driver Information Internal Networks Machine Environment FAQs Block and Job State Documentation Machine Partitions Data Transfer Data Storage & File Systems Compiling and Linking Queueing and Running Jobs Debugging and Profiling Performance Tools and APIs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Prior BG/P Driver Information Prior BGP Driver Information This page contains information about the drivers and efixes currently installed on the ALCF resources Intrepid and Surveyor, as well as

73

Disk Space Quota Management | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Account Information Accounts and Access FAQ Connect & Log In Using CRYPTOCards SSH Keys on Surveyor Disk Space Quota Management Allocations Decommissioning of BG/P Systems and Resources Blue Gene/Q Versus Blue Gene/P Mira/Cetus/Vesta Intrepid/Challenger/Surveyor Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Disk Space Quota Management As you manage your project's disk space quota, it's important to remember that users you approve as to be added as project members are also added to the project's Unix Group. Unix Group members have the ability to write to the project directory and to access project data. You can manually add or remove Unix

74

Porting Charm++/NAMD to IBM Blue Gene/Q Wei Jiang Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Porting Charm++/NAMD to IBM Blue Gene/Q Porting Charm++/NAMD to IBM Blue Gene/Q Wei Jiang Argonne Leadership Computing Facility 7 th , March NAMD_esp NAMD - Parallel molecular dynamics code designed for high-performance simulation of large biomolecular systems Portable to all popular supercomputing platforms Great scalability based on Charm++ parallel objects Scientific aims on Blue Gene/Q Ensemble run that launches large number of replicas concurrently - mainly for energetic simulation High throughput simulation for large scale systems ~100M atoms Requirements for charm++ New communication layer that supports parallel/parallel runs Enable charm++ programming paradigm on Parallel Active Messaging Interface (PAMI) Parallel Structure of NAMD Hybrid force/spatial decomposition Adaptive Overlap of Communication and Computation

75

Strategic Laboratory Leadership Program | Argonne National Laboratory  

NLE Websites -- All DOE Office Websites (Extended Search)

Erik Gottschalk (F); Devin Hodge (A); Jeff Chamberlain (A); Brad Ullrick (A); Bill Rainey (J). Image courtesy of Argonne National Laboratory. Strategic Laboratory Leadership...

76

A SLPEC/EQP Method for MPECs | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

A SLPEC/EQP Method for MPECs A SLPEC/EQP Method for MPECs Event Sponsor: Mathematics and Computing Science - LANS Seminar Start Date: Dec 4 2013 - 3:00pm Building/Room: Building 240/Room 4301 Location: Argonne National Laboratory Speaker(s): Todd Munson Sven Leyffer Speaker(s) Title: Argonne National Laboratory, MCS Host: Stefan Wild Event Website: http://www.mcs.anl.gov/research/LANS/events/listn/detail.php?id=2249 We discuss a new method for mathematical programs with complementarity constraints that is globally convergent to B-stationary points. The method solves a linear program with complementarity constraints to obtain an estimate of the active set. It then fixes the activities and solves an equality-constrained quadratic program to obtain fast convergence. The method uses a filter to promote global convergence. We establish

77

NERSC 2011: High Performance Computing Facility Operational Assessment for the National Energy Research Scientific Computing Center  

E-Print Network (OSTI)

the Argonne and Oak Ridge Leadership Computing Facilitieslike Leadership Computing Facilities at Argonne and Oak

Antypas, Katie

2013-01-01T23:59:59.000Z

78

Large Scale Computing and Storage Requirements for High Energy Physics  

E-Print Network (OSTI)

Acronyms Argonne Leadership Computing Facility adaptivethe Leadership Computing Facilities at Oak Ridge and Argonne

Gerber, Richard A.

2011-01-01T23:59:59.000Z

79

Argonne's computing Zen | Argonne National Laboratory  

NLE Websites -- All DOE Office Websites (Extended Search)

is dedicated to large-scale computation and builds on Argonne's strengths in high-performance computing software, advanced hardware architectures and applications expertise....

80

HTC Mode on BG/P Systems | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

P compute nodes normally run parallel programs in a mode referred to as High Performance Computing (HPC) Mode. In HPC mode, a physical partition may run only one (1) parallel...

Note: This page contains sample records for the topic "argonne leadership computing" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


81

HPCT HPM on BG/P Systems | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

HPM on BGP Systems References IBM System Blue Gene Solution: High Performance Computing Toolkit for Blue GeneP - IBM Redbook describing HPCT and other performance tools High...

82

IBM HPCT on BG/P Systems | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

IBM HPCT on BGP Systems References IBM System Blue Gene Solution: High Performance Computing Toolkit for Blue GeneP - IBM Redbook describing HPCT and other performance tools...

83

Argonne Lea Computing F A  

NLE Websites -- All DOE Office Websites (Extended Search)

Lea Lea Computing F A r g o n n e L e a d e r s h i p C o m p u t i n g FA c i l i t y 2 0 1 3 S c i e n c e H i g H l i g H t S Argonne leadership computing Facility C O N T E N T S About ALCF ...............................................................................................................................2 MirA...............................................................................................................................................3 SCienCe DireCtor'S MeSSAge ..........................................................................................4 ALLoCAtion ProgrAMS .......................................................................................................5 eArLy SCienCe ProgrAM ....................................................................................................

84

Leadership Development | Argonne National Laboratory  

NLE Websites -- All DOE Office Websites (Extended Search)

include work-life balance, stress management and innovative solutions to career and gender issues. Photo Gallery: Strategic Laboratory Leadership Program Strategic Laboratory...

85

Quick Reference Guide for BG/P Systems | Argonne Leadership Computing  

NLE Websites -- All DOE Office Websites (Extended Search)

Introducing Challenger Quick Reference Guide System Overview Data Transfer Data Storage & File Systems Compiling and Linking Queueing and Running Jobs Debugging and Profiling Performance Tools and APIs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Quick Reference Guide for BG/P Systems Contents Hardware Description Compiling/Linking Running/Queuing Libraries/Applications Performance Tools Debugging Back to top Hardware Description Surveyor - 13.6 TF/s 1 rack BG/P (1024 compute nodes/4096 CPUs) Intrepid - 557.1 TF/s 40 rack BG/P (40960 compute nodes/163840 CPUs) Front-end nodes (FENs), or login nodes - Regular Linux-based computers for

86

UPC Hardware on BG/P Systems | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

V3.0 Overview of the IBM Blue GeneP project IBM System Blue Gene Solution: High Performance Computing Toolkit for Blue GeneP Introduction This section gives a low level...

87

Machine Environment FAQs on BG/P Systems | Argonne Leadership Computing  

NLE Websites -- All DOE Office Websites (Extended Search)

BG/P Driver Information Prior BG/P Driver Information Internal Networks Machine Environment FAQs Block and Job State Documentation Machine Partitions Data Transfer Data Storage & File Systems Compiling and Linking Queueing and Running Jobs Debugging and Profiling Performance Tools and APIs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Machine Environment FAQs on BG/P Systems What is the /proc filesystem? The CNK OS on the compute nodes does not provide a standard /proc file system with information about the processes running on the compute node. A /jobs directory does however exist which provides limited information about

88

The Magellan Final Report on Cloud Computing  

E-Print Network (OSTI)

at the Argonne Leadership Computing Facility (ALCF) and theat the Argonne Leadership Computing Facility (ALCF) and theat the Argonne Leadership Computing Facility (ALCF) and the

Coghlan, Susan

2013-01-01T23:59:59.000Z

89

The Magellan Final Report on Cloud Computing  

E-Print Network (OSTI)

of the Argonne Leadership Computing Facility at Argonneof the Argonne Leadership Computing Facility at Argonneat the Argonne Leadership Computing Facility (ALCF) and the

Coghlan, Susan

2013-01-01T23:59:59.000Z

90

Debugging & Profiling on BG/P Systems | Argonne Leadership Computing  

NLE Websites -- All DOE Office Websites (Extended Search)

Core File Settings Using VNC with a Debugger Allinea DDT bgp_stack Coreprocessor gdb TotalView Determining Memory Use Common Debugging Issues FAQs Debugging Performance Tools and APIs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Debugging & Profiling on BG/P Systems This information is for Intrepid and Challenger. Initial setups Core File Settings - this page contains some environment variables that allow you to control code file creation and contents. Using VNC with a Debugger - when displaying an X11 client (e.g. Totalview) remotely over the network, interactive response is typically slow. Using the VNC server can often help you improve the situation.

91

Performance Tools and APIs on BG/P Systems | Argonne Leadership Computing  

NLE Websites -- All DOE Office Websites (Extended Search)

Performance Tools and APIs Performance Tools and APIs Tuning and Analysis Utilities (TAU) Rice HPC Toolkit IBM HPCT Mpip gprof Profiling Tools Darshan PAPI High Level UPC API Low Level UPC API UPC Hardware BG/P dgemm Performance Tuning MPI on BGP Performance FAQs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Performance Tools and APIs on BG/P Systems MPI and OpenMP Options Tuning MPI on BGP Performance Tools Tuning and Analysis Utilities (TAU) - Instruments applications and gathers information on timings, MPI activity, and hardware performance counter events Rice HPCToolkit- Performs sample based profiling of applications and

92

Common Debugging Issues on BG/P Systems | Argonne Leadership Computing  

NLE Websites -- All DOE Office Websites (Extended Search)

Common Debugging Issues on BG/P Systems Common Debugging Issues on BG/P Systems What does "Cannot allocate memory" error mean when starting up a debug job? {0}.0: ciod: Error forking external debugger process: Cannot allocate memory The IO node is what loads the executable on the compute nodes, but it is running out of memory during job startup. An alternate IO node kernel profile may solve the problem. This is set by running a cobalt job with --kernel . Please contact support@alcf.anl.gov for assistance. Signals If your stderr file indicates your run terminated due to a signal, the signal names and numbers are listed in the manpage for signal. On the login node, type "man 7 signal" to see this information. ‹ Allinea DDT on BG/P Systems up Core File Settings on BG

93

Example Program and Makefile for BG/P | Argonne Leadership Computing  

NLE Websites -- All DOE Office Websites (Extended Search)

Intrepid/Challenger/Surveyor Intrepid/Challenger/Surveyor Introducing Challenger Quick Reference Guide System Overview Data Transfer Data Storage & File Systems Compiling and Linking Example Program and Makefile for BG/P FAQs Compiling and Linking Queueing and Running Jobs Debugging and Profiling Performance Tools and APIs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Example Program and Makefile for BG/P Program Example Here's an example of compiling a simple MPI program on ALCF Blue Gene/P systems: > cat pi.c #include "mpi.h" #include #include int main(int argc, char** argv)

94

Measuring Flops on BG/P Systems | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Tuning and Analysis Utilities (TAU) Rice HPC Toolkit IBM HPCT Mpip gprof Profiling Tools Darshan PAPI High Level UPC API Low Level UPC API UPC Hardware BG/P dgemm Performance Tuning MPI on BGP Performance FAQs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] Measuring Flops on BG/P Systems Generally speaking, BlueGene/P does not have a single command to return the job's number of floating point operations per second (Flops). The problem can partly be solved by using high-level hardware counter interface library, located in /soft/apps/UPC. An example program measures performance of a simple Y(N) = Y(N) + a * X(N)

95

FAQs Queueing and Running on BG/P Systems | Argonne Leadership Computing  

NLE Websites -- All DOE Office Websites (Extended Search)

Reservations Queueing Running Jobs HTC Mode MPMD and MPIEXEC FAQs Queueing and Running Debugging and Profiling Performance Tools and APIs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] FAQs Queueing and Running on BG/P Systems Contents Is there a limit on stack size? What are typical boot times for a job My job had empty stdout, and the stderr looks like it died immediately after it started. What happened? Where can I find the details of a job submission? Back to top Is there a limit on stack size? There is no strict limit on the stack size. The stack and heap grow towards each other until a collision occurs. If your job terminates with an error

96

FAQs Data Management on BG/P Systems | Argonne Leadership Computing  

NLE Websites -- All DOE Office Websites (Extended Search)

BG/P File Systems FAQs Data Management on BG/P Systems I O Tuning Using HPSS Compiling and Linking Queueing and Running Jobs Debugging and Profiling Performance Tools and APIs IBM References Software and Libraries Tukey Eureka / Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we continue to build documentation for our new computing resource. [Feedback Form] FAQs Data Management on BG/P Systems Contents Why is the ALCF implementing /home quotas on Intrepid? When will the quotas take effect? What is the quota amount? How can I find out how much data I have? Where/how can I find out how much data my project members each have? What will happen when I reach the quota limit? How will I know I've hit it? Will ALCF implement quotas on /intrepid-fs0?

97

Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

publishing. nazarewicz, W., Schunck, n., Wild, S.,* "Quality Input for Microscopic Fission Theory," Stockpile Stewardship Quarterly, May 2012, vol. 2, no. 1, pp. 6-7. ALCF | 2012...

98

Exascale for Energy: The Role of Exascale Computing in Energy Security  

E-Print Network (OSTI)

on the Argonne Leadership Computing Facilitys IBM Blueof the Argonne Leadership Computing Facility's BG/P using

Authors, Various

2010-01-01T23:59:59.000Z

99

The Magellan Final Report on Cloud Computing  

E-Print Network (OSTI)

research used resources of the Argonne Leadership ComputingFacility at Argonne National Laboratory, which is supportedused resources of the Argonne Leadership Computing Facility

Coghlan, Susan

2013-01-01T23:59:59.000Z

100

Frederico Fiuza receives 2013 ASCR Leadership Computing Challenge...  

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Ignition of Fusion Targets." The award will provide 19.5 million CPU hours at the Argonne Leadership Computing Facility using the IBM Blue GeneQ computer "Mira." Mira has 786,432...

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101

User Facilities | Argonne National Laboratory  

NLE Websites -- All DOE Office Websites (Extended Search)

User Facilities Advanced Photon Source Argonne Leadership Computing Facility Argonne Tandem Linear Accelerator System Center for Nanoscale Materials Electron Microscopy Center...

102

Argonne Leadership Computing Facility Argonne National Laboratory  

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million hours to use Large Eddy Simulation (LES) as an acoustic diagnostic and design tool to spur innovation in next-generation quieter aircraft engines and wind turbines,...

103

Argonne Leadership Computing Facility Argonne National Laboratory  

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Katherine Riley .... 7 Researchers Get Time on Mira Test and Development Prototypes at ESP Workshop ... 8 Call for Proposals for Mira Access...

104

Argonne Leadership Computing Facility - Fact Sheet | Argonne...  

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science - science that will change our world through major advances in biology, chemistry, energy, engineering, climate studies, astrophysics and more. ALCFFact SheetSept....

105

Argonne Leadership Computing Facility Argonne National Laboratory  

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... 2 Rapid Procedure Unites Quantum Chemistry with Artificial Intelligence ... 4 Lithium-Air: The "Mount Everest" of Batteries for Electric Vehicles...

106

Argonne materials scientist Vilas Pol (former postdoc) was recently featured on the PBS NOVA series "Making Stuff: Cleaner," where  

E-Print Network (OSTI)

) Argonne Leadership Computing Facility (ALCF) Transportation Research and Analysis Computing Center (TRACC

Kemner, Ken

107

Coreprocessor | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Coreprocessor Coreprocessor Coreprocessor is a basic parallel debugging tool that can be used to debug problems at all levels (hardware, kernel, and application). It is particularly useful when working with a large set of core files since it reveals where processors aborted, grouping them together automatically (for example, 9 died here, 500 were here, etc.). See the instructions below for using the Coreprocessor tool. References The Coreprocessor tool (IBM System Blue Gene Solution: Blue Gene/Q System Administration, Chapter 22) Location The coreprocessor.pl script is located at: /bgsys/drivers/ppcfloor/coreprocessor/bin/coreprocessor.pl or for user convenience, the SoftEnv key +utility_paths (that you get in your default environment by putting @default in your ~/.soft file) allows

108

Openspeedshop | Argonne Leadership Computing Facility  

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Openspeedshop Openspeedshop Introduction OpenSpeedshop is an open-source performance tool for the analysis of applications using: Sampling Experiments Support for Callstack Analysis Hardware Performance Counters MPI Profiling and Tracing I/O Profiling and Tracing Floating Point Exception Analysis A more detailed list of the individual experiment names and functionality definition follows: pcsamp Periodic sampling the program counters gives a low-overhead view of where the time is being spent in the user application. usertime Periodic sampling the call path allows the user to view inclusive and exclusive time spent in application routines. It also allows the user to see which routines called which routines. Several views are available, including the "hot" path.

109

Publications | Argonne Leadership Computing Facility  

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production processes," Acta Phys. Polon Supp., October 2013, vol. 6, Cracow, Poland, INSPIRE, 2013 , pp. 257-262. 10.5506APhysPolBSupp.6.257 S. Bogner, A. Bulgac, J....

110

Presentations | Argonne Leadership Computing Facility  

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Desc Apply Presented at: Data Management: Tools and Best Practices for Intrepid's Decommissioning and Beyond Managing Data at ALCF November 2013 Data Management: Tools and Best...

111

Tukey | Argonne Leadership Computing Facility  

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Compiling and Linking ParaView on Tukey Using Cobalt on Tukey VisIt on Tukey Eureka Gadzooks Policies Documentation Feedback Please provide feedback to help guide us as we...

112

MADNESS | Argonne Leadership Computing Facility  

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Data Storage & File Systems Compiling & Linking Queueing & Running Jobs Data Transfer Debugging & Profiling Performance Tools & APIs Software & Libraries Boost CPMD CodeSaturne...

113

Cetus | Argonne Leadership Computing Facility  

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Cetus Cetus and Vesta Cetus shares the same software environment and file systems as Mira. The primary role of Cetus is to run small jobs in order to debug problems that occurred...

114

BGPM | Argonne Leadership Computing Facility  

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BGPM Introduction bgpm is the system level API for accessing the hardware performance counters on the BGQ nodes. Location bgpm is a standard part of the BGQ software and is...

115

Surveyor | Argonne Leadership Computing Facility  

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Surveyor Surveyor Data and Networking Surveyor is used for tool and application porting, software testing and optimization, and systems software development. It is an IBM Blue...

116

Mira | Argonne Leadership Computing Facility  

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Resources & Expertise Mira Vesta Intrepid Challenger Surveyor Visualization Clusters Data & Networking Our Teams User Advisory Council Mira Submitted by Anonymous on November 27,...

117

GAMESS | Argonne Leadership Computing Facility  

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Performance Tools & APIs Software & Libraries Boost CPMD CodeSaturne GAMESS GPAW GROMACS LAMMPS MADNESS QBox IBM References IntrepidChallengerSurveyor Tukey Eureka Gadzooks...

118

gdb | Argonne Leadership Computing Facility  

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Allinea DDT Core File Settings Determining Memory Use Using VNC with a Debugger bgqstack gdb Coreprocessor TotalView on BGQ Systems Performance Tools & APIs Software & Libraries...

119

PAPI | Argonne Leadership Computing Facility  

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Queueing & Running Jobs Data Transfer Debugging & Profiling Performance Tools & APIs Tuning MPI on BGQ Tuning and Analysis Utilities (TAU) HPCToolkit HPCTW mpiP gprof Profiling...

120

Allocations | Argonne Leadership Computing Facility  

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Allocation Management Determining Allocation Requirements Querying Allocations Using cbank Decommissioning of BGP Systems and Resources Blue GeneQ Versus Blue GeneP MiraCetus...

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121

Darshan | Argonne Leadership Computing Facility  

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Performance Tools & APIs Tuning MPI on BGQ Tuning and Analysis Utilities (TAU) HPCToolkit HPCTW mpiP gprof Profiling Tools Darshan PAPI BGQ Performance Counters BGPM...

122

GPAW | Argonne Leadership Computing Facility  

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Software & Libraries Boost CPMD CodeSaturne GAMESS GPAW GROMACS LAMMPS MADNESS QBox IBM References IntrepidChallengerSurveyor Tukey Eureka Gadzooks Policies Documentation...

123

Programs | Argonne Leadership Computing Facility  

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Featured Science Slice of the translationally-invariant proton hexadecapole density of the ground state of 8Li, Nuclear Structure and Nuclear Reactions James Vary Allocation...

124

Boost | Argonne Leadership Computing Facility  

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Boost Overview Boost, a collection of modern, peer-reviewed C++ libraries, is installed in: softlibrariesboostcurrentcnk-gcccurrent -- for use with GCC C++ compilers:...

125

HPCToolkit | Argonne Leadership Computing Facility  

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HPCToolkit References HPCToolkit Website HPCViewer Download Site HPCT Documentation Page Introduction HPCToolkit is an open-source suite of tools for profile-based performance...

126

HPCTW | Argonne Leadership Computing Facility  

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HPCTW Introduction HPCTW is a set of libraries that may be linked to in order to gather MPI usage and hardware performance counter information. Location HPCTW is installed in:...

127

Challenger | Argonne Leadership Computing Facility  

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Challenger Challenger Data and Networking Challenger is the home for the prod-devel job submission queue. Moving the prod-devel queue to Challenger clears the way for capability...

128

LAMMPS | Argonne Leadership Computing Facility  

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System Overview Data Storage & File Systems Compiling & Linking Queueing & Running Jobs Data Transfer Debugging & Profiling Performance Tools & APIs Software & Libraries Boost...

129

Vesta | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Resources & Expertise Mira Cetus Vesta Intrepid Challenger Surveyor Visualization Clusters Data and Networking Our Teams User Advisory Council Vesta Apply for time on Vesta Vesta...

130

Policies | Argonne Leadership Computing Facility  

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Eureka Gadzooks Policies Pullback Policy ALCF Acknowledgment Policy Account Sponsorship & Retention Policy Accounts Policy Data Policy INCITE Quarterly Report Policy ALCC...

131

Reservations | Argonne Leadership Computing Facility  

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System Overview Data Storage & File Systems Compiling & Linking Queueing & Running Jobs Reservations Cobalt Job Control How to Queue a Job Running Jobs FAQs Queuing and Running on...

132

QBox | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Data Transfer Debugging & Profiling Performance Tools & APIs Software & Libraries Boost CPMD CodeSaturne GAMESS GPAW GROMACS LAMMPS MADNESS QBox IBM References Intrepid...

133

W.J. Cody Associates | Argonne National Laboratory  

NLE Websites -- All DOE Office Websites (Extended Search)

computing systems. You will work in a research environment that includes the Argonne Leadership Computing Facility, with access to one of DOE's leadership-class computers. W....

134

GLEANing Scientific Insights More Quickly | Argonne Leadership...  

NLE Websites -- All DOE Office Websites (Extended Search)

data movement between the compute, analysis, and storage resources of high-performance computing systems. This speeds the computer's ability to read and write data, also...

135

Early Science Program Investigators Meeting | Argonne Leadership...  

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through ambitious scientific computations enabled by the ALCF's Early Science Program (ESP). Investigators from each of the 16 ESP projects will overview their simulation...

136

Announcing the Argonne Training Program on Extreme-Scale Computing...  

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Announcing the Argonne Training Program on Extreme-Scale Computing Argonne Training Program on Extreme-Scale Computing Providing Extreme-Scale Supercomputing Training for...

137

Blood vessel simulation probes secrets of brain | Argonne National...  

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can be treated. Argonne's Blue GeneP supercomputer, housed at the Argonne Leadership Computing Facility (ALCF), allows scientists to tackle these immense problems with the power...

138

Petascale Simulations of Turbulent Nuclear Combustion | Argonne Leadership  

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Flame Bubble in an Open Computational Domain for Constant Flame Speed, Gravitational Acceleration, and Changing Density Flame Bubble in an Open Computational Domain for Constant Flame Speed, Gravitational Acceleration, and Changing Density This image is from the simulation "Flame Bubble in an Open Computational Domain for Constant Flame Speed, Gravitational Acceleration, and Changing Density." Science: Ray Bair, Katherine Riley, Argonne National Laboratory; Anshu Dubey, Don Lamb, Dongwook Lee, University of Chicago; Robert Fisher, University of Massachusetts at Dartmouth and Dean Townsley, University of Alabama; Visualization: Jonathan Gallagher, University of Chicago; Randy Hudson, John Norris, and Michael E. Papka, Argonne National Laboratory/University of Chicago Petascale Simulations of Turbulent Nuclear Combustion PI Name: Don Lamb PI Email: lamb@oddjob.uchicago.edu

139

ASCR Leadership Computing Challenge (ALCC) | U.S. DOE Office of Science  

Office of Science (SC) Website

ASCR ASCR Leadership Computing Challenge (ALCC) Advanced Scientific Computing Research (ASCR) ASCR Home About Research Facilities Accessing ASCR Supercomputers Oak Ridge Leadership Computing Facility (OLCF) Argonne Leadership Computing Facility (ALCF) National Energy Research Scientific Computing Center (NERSC) Energy Sciences Network (ESnet) Research & Evaluation Prototypes (REP) Innovative & Novel Computational Impact on Theory and Experiment (INCITE) ASCR Leadership Computing Challenge (ALCC) ALCC Application Details ALCC Past Awards Frequently Asked Questions Science Highlights Benefits of ASCR Funding Opportunities Advanced Scientific Computing Advisory Committee (ASCAC) News & Resources Contact Information Advanced Scientific Computing Research U.S. Department of Energy

140

Oak Ridge Leadership Computing Facility  

NLE Websites -- All DOE Office Websites

Oak Ridge Leadership Computing Facility Oak Ridge Leadership Computing Facility The OLCF was established at Oak Ridge National Laboratory in 2004 with the mission of standing up a supercomputer 100 times more powerful than the leading systems of the day. Connect with OLCF Facebook Twitter YouTube Vimeo Search OLCF.ORNL.GOV Home About OLCF Overview Leadership Team Groups Org Chart User Council Careers Visitor Information & Tours Contact Us Leadership Science Biological Sciences Chemistry Computer Science Earth Science Engineering Materials Science Physics 2013 INCITE Projects 2013 ALCC Projects Computing Resources Titan Cray XK7 Eos Lens EVEREST Rhea Sith Smoky Data Management Data Analysis Center Projects Adios CCI eSiMon File System Projects IOTA OpenSFS SWTools XGAR User Support Getting Started System User Guides KnowledgeBase

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141

Characterizing I/O performance on leadership-class systems |...  

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HPC production applications. Initially run at the IBM Blue Gene systems at the Argonne Leadership Computing Facility, Darshan recently was adapted by Argonne researchers,...

142

Extreme Computing | Argonne National Laboratory  

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Extreme Computing Extreme Computing Petascale computing and the emerging era of exascale computing pose numerous challenges, both from the underlying hardware architectures and the...

143

High-Order Surface Reconstruction and its Applications | Argonne Leadership  

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High-Order Surface Reconstruction and its Applications High-Order Surface Reconstruction and its Applications Event Sponsor: Mathematics and Computing Science Seminar Start Date: Dec 12 2013 - 10:30am Building/Room: Building 240/Room 4301 Location: Argonne National Laboratory Speaker(s): Navamita Ray Speaker(s) Title: Postdoc Interviewee - MCS Host: Tim Tautges Surface meshes are widely used by many numerical methods for solving partial differential equations. They not only represent computational grids for various discretization methods, but also are numerical objects in themselves. The accuracy of numerical methods, especially high-order methods, are highly dependent on the geometrical accuracy of the mesh as well as on that of differential or integral quantities defined over them. The situation is further complicated if the surface mesh does not have an

144

Oak Ridge Leadership Computing Facility (OLCF) | U.S. DOE Office of Science  

Office of Science (SC) Website

Advanced Scientific Computing Research (ASCR) ASCR Home About Research Facilities Accessing ASCR Supercomputers Oak Ridge Leadership Computing Facility (OLCF) Argonne Leadership Computing Facility (ALCF) National Energy Research Scientific Computing Center (NERSC) Energy Sciences Network (ESnet) Research & Evaluation Prototypes (REP) Innovative & Novel Computational Impact on Theory and Experiment (INCITE) ASCR Leadership Computing Challenge (ALCC) Science Highlights Benefits of ASCR Funding Opportunities Advanced Scientific Computing Advisory Committee (ASCAC) News & Resources Contact Information Advanced Scientific Computing Research U.S. Department of Energy SC-21/Germantown Building 1000 Independence Ave., SW Washington, DC 20585 P: (301) 903-7486 F: (301)

145

Mathematics and Computer Science | Argonne National Laboratory  

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New international partnership to prepare for emerging simulation platforms New international partnership to prepare for emerging simulation platforms More New technique enables event tracing on extreme-scale systems More MCS and ALCF establish joint lab for evaluating computing platforms More New initiative on runtime compatibility for MPI implementations More Hybrid approach for better failure prediction on advanced computing systems More Vishwanath describes new tool for optimizing data movement on HPC systems More Argonne researcher and his colleagues receive best paper prize More A leader in the computing sciences, the MCS Division provides the numerical tools and technology for solving some of our nation's most critical scientific problems. Video Highlight "Ask Argonne" - Robert Jacob, Climate Scientist, Part 1 A leader in the computing sciences, the MCS Division provides the numerical

146

Argonne's Laboratory computing center - 2007 annual report.  

Science Conference Proceedings (OSTI)

Argonne National Laboratory founded the Laboratory Computing Resource Center (LCRC) in the spring of 2002 to help meet pressing program needs for computational modeling, simulation, and analysis. The guiding mission is to provide critical computing resources that accelerate the development of high-performance computing expertise, applications, and computations to meet the Laboratory's challenging science and engineering missions. In September 2002 the LCRC deployed a 350-node computing cluster from Linux NetworX to address Laboratory needs for mid-range supercomputing. This cluster, named 'Jazz', achieved over a teraflop of computing power (1012 floating-point calculations per second) on standard tests, making it the Laboratory's first terascale computing system and one of the 50 fastest computers in the world at the time. Jazz was made available to early users in November 2002 while the system was undergoing development and configuration. In April 2003, Jazz was officially made available for production operation. Since then, the Jazz user community has grown steadily. By the end of fiscal year 2007, there were over 60 active projects representing a wide cross-section of Laboratory expertise, including work in biosciences, chemistry, climate, computer science, engineering applications, environmental science, geoscience, information science, materials science, mathematics, nanoscience, nuclear engineering, and physics. Most important, many projects have achieved results that would have been unobtainable without such a computing resource. The LCRC continues to foster growth in the computational science and engineering capability and quality at the Laboratory. Specific goals include expansion of the use of Jazz to new disciplines and Laboratory initiatives, teaming with Laboratory infrastructure providers to offer more scientific data management capabilities, expanding Argonne staff use of national computing facilities, and improving the scientific reach and performance of Argonne's computational applications. Furthermore, recognizing that Jazz is fully subscribed, with considerable unmet demand, the LCRC has framed a 'path forward' for additional computing resources.

Bair, R.; Pieper, G. W.

2008-05-28T23:59:59.000Z

147

bgp_stack | Argonne Leadership Computing Facility  

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bgp_stack bgp_stack Decoding Core Files The core files on the Blue Gene/P system are text files and may be read using the 'more' command. Most of the detailed information provided in the core file is not of immediate use for determining why a program failed. But the core file does contain a function call stack record that can help you identify what line of what routine was executing when the error occurred. In the core file the call stack record is at the end of the file bracketed by +++STACK and ---STACK. The call stack contains a list of instruction addresses, for these to be useful the addresses need to be translated back to a source file and line. This may be done with the bgp_stack utility: bgp_stack [executable] [corefile] The lightweight core files produced by the runtime system do not contain

148

Petascale, Adaptive CFD | Argonne Leadership Computing Facility  

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Petascale, Adaptive CFD Petascale, Adaptive CFD Petascale, Adaptive CFD PI Name: Kenneth Jansen PI Email: jansenke@colorado.edu Institution: U. Colorado-Boulder Allocation Program: ESP Allocation Hours at ALCF: 150 Million Year: 2010 to 2013 Research Domain: Engineering The aerodynamic simulations proposed will involve modeling of active flow control based on synthetic jet actuation that has been shown experimentally to produce large-scale flow changes (e.g., re-attachment of separated flow or virtual aerodynamic shaping of lifting surfaces) from micro-scale input (e.g., a 0.1 W piezoelectric disk resonating in a cavity alternately pushes/pulls out/in the fluid through a small slit to create small-scale vortical structures that interact with, and thereby dramatically alter, the cross flow). This is a process that has yet to be understood fundamentally.

149

Public Informational Materials | Argonne Leadership Computing Facility  

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News & Events News & Events Web Articles In the News Upcoming Events Past Events Informational Materials Photo Galleries Public Informational Materials Annual Reports ALCF 2010 Annual Report ALCF 2010 Annual Report May 2011 ALCF 2010 Annual Report 2011 annual report ALCF 2011 Annual Report May 2012 2011 ALCF Annual Report 2012 ALCF Annual Report ALCF 2012 Annual Report July 2013 2012 ALCF Annual Report Fact Sheets ALCF Fact Sheet ALCF Fact Sheet September 2013 ALCF Fact Sheet Blue Gene/Q Systems and Supporting Resources Blue Gene/Q Systems and Supporting Resources June 2013 Blue Gene/Q Systems and Supporting Resources Early Science Program Projects Early Science Program Projects July 2011 Early Science Program Projects Promotional Brochures INCITE in Review INCITE in Review March 2012 INCITE in Review

150

bgq_stack | Argonne Leadership Computing Facility  

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bgq_stack bgq_stack Location The bgq_stack script is located at: /soft/debuggers/scripts/bin/bgq_stack or for user convenience, the SoftEnv key +utility_paths (that you get in your default environment by putting @default in your ~/.soft file) allows you to use directly: bgq_stack List the possible options using -h: > bgq_stack -h Using bgq_stack on BG/Q to decode core files When a Blue Gene/Q program terminates abnormally, the system generates multiple core files, plain text files that can be viewed with the vi editor. Most of the detailed information provided in the core file is not of immediate use for determining why a program failed. But the core file does contain a function call stack record that can help identify what line of what routine was executing when the error occurred. The call stack

151

Core File Settings | Argonne Leadership Computing Facility  

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Core File Settings Core File Settings The following environment variables control core file creation and contents. Specify regular (non-script) jobs using the qsub argument --env (Note: two dashes). Specify script jobs (--mode script) using the --envs (Note: two dashes) or --exp_env (Note: two dashes) options of runjob. For additional information about setting environment variables in your job, visit http://www.alcf.anl.gov/user-guides/running-jobs#environment-variables. Generation The following environment variables control conditions of core file generation and naming: BG_COREDUMPONEXIT=1 Creates a core file when the application exits. This is useful when the application performed an exit() operation and the cause and location of the exit() is not known. BG_COREDUMPONERROR=1

152

BGP: GAMESS | Argonne Leadership Computing Facility  

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GAMESS GAMESS What is GAMESS? The General Atomic and Molecular Electronic Structure System (GAMESS) is a general ab initio quantum chemistry package. Obtaining GAMESS Follow the instructions at the Gordon research group website: http://www.msg.chem.iastate.edu/gamess/ Building GAMESS for Blue Gene /P A number of modifications were necessary: comp.actvte - Builds the actvte.x binary; mostly for convenience compall.bgp, comp.bgp, ddi/compddi.bgp - Replacement comp scripts lked.bgp - Replacement lked script source/zunix.c - Minor modification to #include directives ddi/src/ddi_bgp.c - Completely new file gms.bgp.py - Python script for running GAMESS You will need to modify the $GMSPATH environment variable in those scripts. These modifications are available here Media:Gamess.bgp.tar.

153

Data Transfer | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Data Transfer Data Transfer The Blue Gene/P connects to other research institutions using a total of 20 GBs of public network connectivity. This allows scientists to transfer datasets to and from other institutions over fast research networks such as the Energy Science Network (ESNet) and the Metropolitan Research and Education Network (MREN). Data Transfer Node Overview Two data transfer nodes are available to all Intrepid users, that provide the ability to perform wide and local area data transfers. dtn01.intrepid.alcf.anl.gov (alias for gs1.intrepid.alcf.anl.gov) dtn02.intrepid.alcf.anl.gov (alias for gs2.intrepid.alcf.anl.gov) Data Transfer Utilities HSI/HTAR HSI and HTAR allow users to transfer data to and from HPSS Using HPSS on Intrepid GridFTP GridFTP provides the ability to transfer data between trusted sites such

154

Using CRYPTOCards | Argonne Leadership Computing Facility  

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Token Enabling Your CRYPTOCard Token Logging in with Your CRYPTOCard Token Troubleshooting Your CRYPTOCard Resetting CRYPTOCard PIN CRYPTOCard Return Back to top CRYPTOCard...

155

INCITE Quarterly Report Policy | Argonne Leadership Computing...  

NLE Websites -- All DOE Office Websites (Extended Search)

late: The ability to submit jobs for the PI and users of the late project will be disabled. If a report is more than 90 days late: The PI and users of the late project will...

156

Account Information | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

to interact with the ALCF Login Servers. This is the normal state for all accounts. Disabled: An account that still exists on the system (that is, the account continues to be...

157

Shaping Future Supercomputing Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

A second mesh independency validation was performed, but this time it used a simpler, two-phase-flow single burner with three levels of refinement (4-, 8-, and 16-million...

158

Mark Hereld | Argonne Leadership Computing Facility  

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programming models and application performance analysis. Hereld is a principal architect of distributed analysis environments that support collaborative creation of...

159

User Guides | Argonne Leadership Computing Facility  

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Allocations Decommissioning of BGP Systems and Resources Blue GeneQ Versus Blue GeneP MiraCetusVesta IntrepidChallengerSurveyor Tukey Eureka Gadzooks Policies...

160

CONTACT ? Argonne Leadership Computing Facility | industry...  

NLE Websites -- All DOE Office Websites (Extended Search)

will enable: Unprecedented reductions in emissions and noise in aircraft engines and wind turbines, Improved consumer products through a better understanding of how suds...

Note: This page contains sample records for the topic "argonne leadership computing" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


161

Allinea DDT | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

under Queue Submission Parameters. DDT Run DDT Queue Submission Parameters The Change... button allows users to modify some information set by default on System Settings and Job...

162

Staff Directory | Argonne Leadership Computing Facility  

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Administration 630-252-0212 jstover@alcf.anl.gov Tony Tolbert Consultant - Business Intelligence AIG 630-252-6027 wtolbert@alcf.anl.gov Brian Toonen ConsultantSoftware...

163

Discretionary Allocation Request | Argonne Leadership Computing...  

NLE Websites -- All DOE Office Websites (Extended Search)

Physics Physics, Condensed Matter Physics Physics, High Energy Physics Physics, Nuclear Physics Physics, Space Physics Physics, Particle Physics Physics, Plasma Physics...

164

Science at ALCF | Argonne Leadership Computing Facility  

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Hours: 40 Million more science Science at ALCF Allocation Program - Any - INCITE ALCC ESP Director's Discretionary Year -Year 2008 2009 2010 2011 2012 2013 Research Domain - Any...

165

Cobalt Job Control | Argonne Leadership Computing Facility  

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& File Systems Compiling & Linking Queueing & Running Jobs Reservations Cobalt Job Control How to Queue a Job Running Jobs FAQs Queuing and Running on BGQ Systems Data...

166

Surveyor / Gadzooks File Systems | Argonne Leadership Computing...  

NLE Websites -- All DOE Office Websites (Extended Search)

IntrepidChallengerSurveyor Decommissioning of BGP Systems and Resources Introducing Challenger Quick Reference Guide System Overview Data Transfer Data Storage & File Systems...

167

Determining Memory Use | Argonne Leadership Computing Facility  

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Allinea DDT Core File Settings Determining Memory Use Using VNC with a Debugger bgqstack gdb Coreprocessor TotalView on BGQ Systems Performance Tools & APIs Software & Libraries...

168

mpiP | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

mpiP Introduction mpiP is an easy to use library that when linked with an application reports information on MPI usage and performance. Information reported includes the MPI...

169

Bash Shell | Argonne Leadership Computing Facility  

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Bash Shell A popular shell provided with the operating system, bash is available as a login shell. To change your login shell use your ALCF personal account page. Version(s):...

170

Machine Status | Argonne Leadership Computing Facility  

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Machine Status Science on Mira Cores Core Hours Atomistic Simulations of Nanoscale Oxides and Oxide Interfaces 65536 1297201.9256901 Lattice QCD 16384 28881.396622179 MockBOSS :...

171

Contact Us | Argonne Leadership Computing Facility  

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Contact Us Michael Papka Division Director (630) 252-1556 Susan Coghlan Deputy Division Director (630) 252-1637 Richard Coffey Strategic Advisor to the Director (630) 252-2725...

172

Getting Started Videoconferences | Argonne Leadership Computing...  

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Getting Started Videoconferences Start Date: Jan 23 2014 - 3:16pm Event Website: http:www.alcf.anl.govworkshopsgetting-started-videoconference-2014 Register for one of eight...

173

Early Science Program | Argonne Leadership Computing Facility  

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Early Science Program The goals of the Early Science Program (ESP) were to prepare key applications for the architecture and scale of Mira, and to solidify libraries and...

174

Our Teams | Argonne Leadership Computing Facility  

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Need Help? support@alcf.anl.gov 630-252-3111 866-508-9181 Expert Teams World-Class Expertise and Project Lifecycle Assistance To maximize your research, the ALCF has assembled a...

175

User Advisory Council | Argonne Leadership Computing Facility  

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Resources & Expertise Mira Cetus Vesta Intrepid Challenger Surveyor Visualization Clusters Data and Networking Our Teams User Advisory Council User Advisory Council The User...

176

Data and Networking | Argonne Leadership Computing Facility  

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Networking Data and Networking Data Storage The ALCF's data storage system is used to retain the data generated by simulations and visualizations. Disk storage provides...

177

Querying Allocations Using cbank | Argonne Leadership Computing...  

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apply to the resource (machine) to which a user is currently logged in. For example, a query on Surveyor about PROJECTNAME will return information about the Surveyor allocation...

178

Allocation Management | Argonne Leadership Computing Facility  

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if there is an active allocation, check Running Jobs. For information to run the query or email support, check alcf.anl.gov and ask for all active allocations. Determining...

179

BGP: Repast HPC | Argonne Leadership Computing Facility  

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(TIME) -n (NUMBEROFPROCESSES) zombiexl.exe .config.props .model.props Modifying the Model An important aspect of the Agent-Based Modeling paradigm is the flexibility with...

180

Computational Studies of Nucleosome Stability | Argonne Leadership...  

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structure studies of the nucleosomes, which are complexes of DNA and proteins in chromatin and account for 75-90% of the packaging of the genomic DNA in mammalian cells....

Note: This page contains sample records for the topic "argonne leadership computing" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


181

Extreme Computing Software | Argonne National Laboratory  

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Extreme Computing Software Extreme Computing Software Argonne's Mathematics and Computer Science Division is exploring new approaches to systems software, fault tolerance, and innovative programming models for next-generation computers. Software for extreme computing includes: ADLB (Asynchronous Dynamic Load Balancing) is an MPI-based software library designed to help rapidly build scalable parallel programs. It provides a master/worker system with a put/get API for task descriptions, thus allowing workers to add work dynamically to the system. The library has been used as an execution engine for complicated applications such as Green's function Monte Carlo and higher level "many-task" programming models. Aesop is a high-productivity programming language designed for highly concurent services.

182

Argonne Leadership Compu2ng Facility www.alcf.anl.gov Katherine Riley  

E-Print Network (OSTI)

Argonne Leadership Compu2ng Facility ­ www.alcf.anl.gov Katherine Riley Manager and feasibility Managed By INCITE management commi^ee (ALCF & OLCF) DOE Office. Communica2on with ALCF is extremely helpful. You can request 2me on Mira

Kemner, Ken

183

Argonne's Marc Snir receives 2013 IEEE Computer Society Seymour...  

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Award. Snir is Director of the Mathematics and Computer Science division at Argonne National Laboratory and the Michael Faiman and Saburo Muroga Professor in the...

184

Performance of the Community Earth System Model | Argonne Leadership...  

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2011 Name of Publication Source: (SC), 2011 International Conference - High Performance Computing, Networking, Storage and Analysis Type of Publication: conference paper...

185

Decommissioning of BG/P Systems and Resources | Argonne Leadership...  

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we continue to build documentation for our new computing resource. Feedback Form Decommissioning of BGP Systems and Resources On December 31 at 23:59:59 GMT (6PM Central),...

186

Ab-initio Reaction Calculations for Carbon-12 | Argonne Leadership  

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Ab-initio Reaction Calculations for Carbon-12 Ab-initio Reaction Calculations for Carbon-12 The calculated density (red dots) is in excellent agreement with experimental data (solid curve). Steven Pieper Ab-initio Reaction Calculations for Carbon-12 PI Name: Steven C Pieper PI Email: spieper@anl.gov Institution: ANL Allocation Program: ESP Allocation Hours at ALCF: 110 Million Year: 2010 to 2013 Research Domain: Physics Researchers will calculate several fundamental properties of the 12C nucleus: the imaginary-time response, the one-body density matrix, and transition matrix elements between isospin- 0 and -1 states. These are needed to be able to reliably compute neutrino-12C scattering, which is needed for neutrino detector calibrations; quasi-elastic electron scattering, which is currently being measured at Jefferson Lab (JLab); and

187

Large Scale Computing and Storage Requirements for Fusion Energy Sciences Research  

E-Print Network (OSTI)

ALCF ALE AMR API ARRA ASCR CGP CICART Alfvn Eigenmode / Energetic Particle Mode Argonne Leadership Computing Facility

Gerber, Richard

2012-01-01T23:59:59.000Z

188

Margaret Butler Fellowship in Computational Science | Argonne...  

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offers computational scientists an opportunity to work at the forefront of high-performance computing. A pioneering researcher in both computer science and nuclear energy, Butler...

189

Snir gives keynote address at distributed computing conference | Argonne  

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Snir gives keynote address at distributed computing conference Snir gives keynote address at distributed computing conference August 14, 2013 Tweet EmailPrint Marc Snir, director of Argonne's Mathematics and Computer Science Division and Argonne Distinguished Fellow, delivered a keynote address at the joint PODC/SPAA symposium held in Montreal, Canada, July 22-24, 2013. The PODC (Principles of Distributed Computing) symposium was collocated this year with SPAA (Symposium on Parallelism in Algorithms and Architectures). Both annual conferences are sponsored by the Association for Computer Machinery. Snir's presentation, titled "Supercomputing: Technical Evolution and Programming Models," began with a description of punctuated equilibrium and three technological (r)evolutionary developments in high-performance

190

Programming for Exascale Computers | Argonne National Laboratory  

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Programming for Exascale Computers Title Programming for Exascale Computers Publication Type Journal Year of Publication 2013 Authors Gropp, WD, Snir, M Other Numbers ANL...

191

Photo of the Week: Living Large -- Argonne's First Computer | Department of  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Living Large -- Argonne's First Computer Living Large -- Argonne's First Computer Photo of the Week: Living Large -- Argonne's First Computer August 31, 2012 - 9:58am Addthis Before there was Google, or even the Internet, there was the computer -- and the earliest computers were so large that just one could occupy an entire room. AVIDAC was the first digital computer at Argonne National Laboratory, and began operating in 1953. It was built by the Physics Division for $250,000. Pictured here, with AVIDAC, is pioneer Argonne computer scientist Jean F. Hall. AVIDAC stands for "Argonne Version of the Institute's Digital Automatic Computer" and was based on architecture developed by mathematician John von Neumann. | Photo courtesy of Argonne National Laboratory. Before there was Google, or even the Internet, there was the computer --

192

Argonne's Laboratory computing resource center : 2006 annual report.  

SciTech Connect

Argonne National Laboratory founded the Laboratory Computing Resource Center (LCRC) in the spring of 2002 to help meet pressing program needs for computational modeling, simulation, and analysis. The guiding mission is to provide critical computing resources that accelerate the development of high-performance computing expertise, applications, and computations to meet the Laboratory's challenging science and engineering missions. In September 2002 the LCRC deployed a 350-node computing cluster from Linux NetworX to address Laboratory needs for mid-range supercomputing. This cluster, named 'Jazz', achieved over a teraflop of computing power (10{sup 12} floating-point calculations per second) on standard tests, making it the Laboratory's first terascale computing system and one of the 50 fastest computers in the world at the time. Jazz was made available to early users in November 2002 while the system was undergoing development and configuration. In April 2003, Jazz was officially made available for production operation. Since then, the Jazz user community has grown steadily. By the end of fiscal year 2006, there were 76 active projects on Jazz involving over 380 scientists and engineers. These projects represent a wide cross-section of Laboratory expertise, including work in biosciences, chemistry, climate, computer science, engineering applications, environmental science, geoscience, information science, materials science, mathematics, nanoscience, nuclear engineering, and physics. Most important, many projects have achieved results that would have been unobtainable without such a computing resource. The LCRC continues to foster growth in the computational science and engineering capability and quality at the Laboratory. Specific goals include expansion of the use of Jazz to new disciplines and Laboratory initiatives, teaming with Laboratory infrastructure providers to offer more scientific data management capabilities, expanding Argonne staff use of national computing facilities, and improving the scientific reach and performance of Argonne's computational applications. Furthermore, recognizing that Jazz is fully subscribed, with considerable unmet demand, the LCRC has framed a 'path forward' for additional computing resources.

Bair, R. B.; Kaushik, D. K.; Riley, K. R.; Valdes, J. V.; Drugan, C. D.; Pieper, G. P.

2007-05-31T23:59:59.000Z

193

Argonne's Laboratory Computing Resource Center 2009 annual report.  

Science Conference Proceedings (OSTI)

Now in its seventh year of operation, the Laboratory Computing Resource Center (LCRC) continues to be an integral component of science and engineering research at Argonne, supporting a diverse portfolio of projects for the U.S. Department of Energy and other sponsors. The LCRC's ongoing mission is to enable and promote computational science and engineering across the Laboratory, primarily by operating computing facilities and supporting high-performance computing application use and development. This report describes scientific activities carried out with LCRC resources in 2009 and the broad impact on programs across the Laboratory. The LCRC computing facility, Jazz, is available to the entire Laboratory community. In addition, the LCRC staff provides training in high-performance computing and guidance on application usage, code porting, and algorithm development. All Argonne personnel and collaborators are encouraged to take advantage of this computing resource and to provide input into the vision and plans for computing and computational analysis at Argonne. The LCRC Allocations Committee makes decisions on individual project allocations for Jazz. Committee members are appointed by the Associate Laboratory Directors and span a range of computational disciplines. The 350-node LCRC cluster, Jazz, began production service in April 2003 and has been a research work horse ever since. Hosting a wealth of software tools and applications and achieving high availability year after year, researchers can count on Jazz to achieve project milestones and enable breakthroughs. Over the years, many projects have achieved results that would have been unobtainable without such a computing resource. In fiscal year 2009, there were 49 active projects representing a wide cross-section of Laboratory research and almost all research divisions.

Bair, R. B. (CLS-CI)

2011-05-13T23:59:59.000Z

194

Argonne Transportation Research and Analysis Computing Center...  

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of State list of "State Sponsors of Terrorism." T-4 countries currently are Cuba, Iran, North Korea, Sudan, and Syria. A request for TRACC computer access by a T-4 country...

195

Argonne's Laboratory Computing Resource Center : 2005 annual report.  

Science Conference Proceedings (OSTI)

Argonne National Laboratory founded the Laboratory Computing Resource Center in the spring of 2002 to help meet pressing program needs for computational modeling, simulation, and analysis. The guiding mission is to provide critical computing resources that accelerate the development of high-performance computing expertise, applications, and computations to meet the Laboratory's challenging science and engineering missions. The first goal of the LCRC was to deploy a mid-range supercomputing facility to support the unmet computational needs of the Laboratory. To this end, in September 2002, the Laboratory purchased a 350-node computing cluster from Linux NetworX. This cluster, named 'Jazz', achieved over a teraflop of computing power (10{sup 12} floating-point calculations per second) on standard tests, making it the Laboratory's first terascale computing system and one of the fifty fastest computers in the world at the time. Jazz was made available to early users in November 2002 while the system was undergoing development and configuration. In April 2003, Jazz was officially made available for production operation. Since then, the Jazz user community has grown steadily. By the end of fiscal year 2005, there were 62 active projects on Jazz involving over 320 scientists and engineers. These projects represent a wide cross-section of Laboratory expertise, including work in biosciences, chemistry, climate, computer science, engineering applications, environmental science, geoscience, information science, materials science, mathematics, nanoscience, nuclear engineering, and physics. Most important, many projects have achieved results that would have been unobtainable without such a computing resource. The LCRC continues to improve the computational science and engineering capability and quality at the Laboratory. Specific goals include expansion of the use of Jazz to new disciplines and Laboratory initiatives, teaming with Laboratory infrastructure providers to develop comprehensive scientific data management capabilities, expanding Argonne staff use of national computing facilities, and improving the scientific reach and performance of Argonne's computational applications. Furthermore, recognizing that Jazz is fully subscribed, with considerable unmet demand, the LCRC has begun developing a 'path forward' plan for additional computing resources.

Bair, R. B.; Coghlan, S. C; Kaushik, D. K.; Riley, K. R.; Valdes, J. V.; Pieper, G. P.

2007-06-30T23:59:59.000Z

196

Oak Ridge Leadership Computing Facility User Update: SmartTruck...  

NLE Websites -- All DOE Office Websites (Extended Search)

Leadership Computing Facility User Update: SmartTruck Systems Startup zooms to success improving fuel efficiency of long-haul trucks by more than 10 percent Supercomputing...

197

Oak Ridge Leadership Computing Facility Position Paper  

Science Conference Proceedings (OSTI)

This paper discusses the business, administration, reliability, and usability aspects of storage systems at the Oak Ridge Leadership Computing Facility (OLCF). The OLCF has developed key competencies in architecting and administration of large-scale Lustre deployments as well as HPSS archival systems. Additionally as these systems are architected, deployed, and expanded over time reliability and availability factors are a primary driver. This paper focuses on the implementation of the Spider parallel Lustre file system as well as the implementation of the HPSS archive at the OLCF.

Oral, H Sarp [ORNL; Hill, Jason J [ORNL; Thach, Kevin G [ORNL; Podhorszki, Norbert [ORNL; Klasky, Scott A [ORNL; Rogers, James H [ORNL; Shipman, Galen M [ORNL

2011-01-01T23:59:59.000Z

198

INCITE grants awarded to 59 computational research projects | Argonne  

NLE Websites -- All DOE Office Websites (Extended Search)

INCITE grants awarded to 59 computational research projects INCITE grants awarded to 59 computational research projects November 16, 2013 Printer-friendly version ARGONNE, IL., November 18, 2013-The U.S. Department of Energy's Office of Science announced 59 projects, promising to accelerate scientific discovery and innovation, that will share nearly 6 billion core hours on two of America's fastest supercomputers dedicated to open science. Their work will advance knowledge in critical areas from sustainable energy technologies to the environmental consequences of energy use. The allocations come from the Innovative and Novel Computational Impact on Theory and Experiment, or INCITE, program. Through it, the world's most advanced computational research projects from academia, government, and industry are given access to the Department of Energy's (DOE's)

199

Argonne TTRDC - Feature - High-Performance Computing Enables Huge Leap  

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High-Performance Computing Enables Huge Leap Forward in Engine Development High-Performance Computing Enables Huge Leap Forward in Engine Development Engine Modeling and Simulation Team From left, Argonne researchers Raymond Bair, Doug Longman, Qingluan Xue, Marta Garcia, Shashi Aithal (seated) and Sibendu Som are part of a multidisciplinary team working to advance diesel and spark engine modeling and simulation tools into the high-performance computing realm. When we turn the key in our car's ignition, we usually don't think about the combustion process that takes place inside the engine that enables the car to go. We just know that it works. But, what actually takes place inside the engine? How do fuel injectors, turbulent mixing and combustion chemistry impact the fuel efficiency of a vehicle? And how do engine manufacturers improve these hidden-from-view

200

High Performance Computing at the Oak Ridge Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

High Performance Computing at High Performance Computing at the Oak Ridge Leadership Computing Facility Go to Menu Page 2 Outline * Our Mission * Computer Systems: Present, Past, Future * Challenges Along the Way * Resources for Users Go to Menu Page 3 Our Mission Go to Menu Page 4 * World's most powerful computing facility * Nation's largest concentration of open source materials research * $1.3B budget * 4,250 employees * 3,900 research guests annually * $350 million invested in modernization * Nation's most diverse energy portfolio * The $1.4B Spallation Neutron Source in operation * Managing the billion-dollar U.S. ITER project ORNL is the U.S. Department of Energy's largest science and energy laboratory Go to Menu Page 5 Computing Complex @ ORNL World's most powerful computer for open science

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While these samples are representative of the content of NLEBeta,
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We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


201

Software and Libraries on Eureka/Gadzooks | Argonne Leadership Computing  

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Software and Libraries on Eureka/Gadzooks Software and Libraries on Eureka/Gadzooks Software and softenv Many packages are installed in /soft/apps. If a binary you're looking for isn't already in your PATH, check /soft/apps. Let us know if you find any software packages that you need that are not currently installed. softenv is installed. We are using a newer version that uses ~/.softenvrc instead of ~/.soft. Keep in mind that softenv is sensitive to the order of items in your .softenvrc file. If you add items but get unexpected results, try changing the order; in particular, you may want "@default" to be the last item in .softenvrc. The command "softenv" will output a list of keys available on the system you're logged in to. To see all available keys in the softenv database, use

202

Overview of How to Compile and Link | Argonne Leadership Computing...  

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This version has the fine-grained MPICH locking. Error checking and assertions are disabled. This setting can provide a substantial performance improvement when an application...

203

Darshan on BG/P Systems | Argonne Leadership Computing Facility  

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on the Guide to darshan-parser output page. Disabling Darshan Darshan can be disabled entirely by adding +mpiwrappers to your .softenvrc file before the @default....

204

Mira/Cetus/Vesta | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

bandwidth. Users will also have access to the HPSS data archive and Tukey, the new analysis and visualization cluster. All of these resources are available through high...

205

BG/P Driver Information | Argonne Leadership Computing Facility  

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to automatically recover from this condition but deadlock could occur. Try enlarging your remote get fifos." serviceaction"(NoService)" > Fixes for the GNU toolchain and Python...

206

Block and Job State Documentation | Argonne Leadership Computing...  

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IntrepidChallengerSurveyor Decommissioning of BGP Systems and Resources Introducing Challenger Quick Reference Guide System Overview BGP Driver Information Prior BGP Driver...

207

Performance FAQs on BG/Q Systems | Argonne Leadership Computing...  

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Blue GeneQ Versus Blue GeneP MiraCetusVesta IntrepidChallengerSurveyor Decommissioning of BGP Systems and Resources Introducing Challenger Quick Reference Guide System...

208

BG/P File Systems | Argonne Leadership Computing Facility  

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Blue GeneQ Versus Blue GeneP MiraCetusVesta IntrepidChallengerSurveyor Decommissioning of BGP Systems and Resources Introducing Challenger Quick Reference Guide System...

209

Mira: An Engine for Discovery | Argonne Leadership Computing...  

NLE Websites -- All DOE Office Websites (Extended Search)

Mira: An Engine for Discovery September 27, 2013 Printer-friendly version Every day, researchers around the country are working to understand mysterious phenomena, from the origins...

210

Data Storage & File Systems | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Systems: An overview of the BGQ file systems available at ALCF. Disk Quota Disk Quota: Information on disk quotas for Mira and Vesta. Using HPSS Using HPSS: HPSS is a data...

211

LatticeQCD - Early Science | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

summary of Lattice QCD averages The current summary of Lattice QCD averages. Laiho, Lunghi, & Van de Water, Phys.Rev.D81:034503,2010. LatticeQCD - Early Science PI Name: Paul...

212

Geoffrey P. Ely Leadership Computing Facility Argonne National...  

NLE Websites -- All DOE Office Websites (Extended Search)

Decomposition 0 4 8 12 16 1 4 16 64 256 1024 4096 16384 65536 Runtimestep (s) Cores Weak Scaling Benchmark TACC Ranger (8M elements per core) ALCF Intrepid (1M elements per...

213

Getting Started at ALCF | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

ALCC Program Director's Discretionary Program Need Help? support@alcf.anl.gov 630-252-3111 866-508-9181 Getting Started at ALCF If you are interested in using ALCF resources,...

214

System Overview for BG/P Systems | Argonne Leadership Computing...  

NLE Websites -- All DOE Office Websites (Extended Search)

Project Allocations, Balance, and Job Charges Use the cbank command to query allocations. Please refer to this page: Query Allocations with cbank Large File...

215

gdb on BG/P Systems | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

After booting & initial startup you will get a prompt from the gdb server. You need to query it for the IP and port numbers that correspond to each rank you want to attach the...

216

INCITE grants awarded to 59 computational research projects | Argonne  

NLE Websites -- All DOE Office Websites (Extended Search)

Synergia simulation of a bunched beam including particles (green) and self-fields (purple). Click to enlarge. Credit: James Amundson, Fermilab Synergia simulation of a bunched beam including particles (green) and self-fields (purple). Click to enlarge. Credit: James Amundson, Fermilab Synergia simulation of a bunched beam including particles (green) and self-fields (purple). Click to enlarge. Credit: James Amundson, Fermilab INCITE grants awarded to 59 computational research projects November 18, 2013 Tweet EmailPrint ARGONNE, Ill. - The U.S. Department of Energy's Office of Science announced 59 projects, promising to accelerate scientific discovery and innovation, that will share nearly 6 billion core hours on two of America's fastest supercomputers dedicated to open science. Their work will advance knowledge in critical areas, from sustainable energy technologies to the environmental consequences of energy use.

217

Ian T. Foster | Argonne National Laboratory  

NLE Websites -- All DOE Office Websites (Extended Search)

Ian T. Foster Ian T. Foster Director of the Computation Institute & Argonne Distinguished Fellow Ian Foster is Director of the Computation Institute, a joint institute of the University of Chicago and Argonne National Laboratory. He is also an Argonne Senior Scientist and Distinguished Fellow and the Arthur Holly Compton Distinguished Service Professor of Computer Science. Methods and software developed under his leadership underpin many large national and international cyberinfrastructures. Foster's awards include the Global Information Infrastructure (GII) Next Generation award, the British Computer Society's Lovelace Medal, R&D Magazine's Innovator of the Year, and an honorary doctorate from the University of Canterbury, New Zealand. He is a Fellow of the American

218

Opening Remarks from the Joint Genome Institute and Argonne Lab High Performance Computing Workshop (2010 JGI/ANL HPC Workshop)  

SciTech Connect

DOE JGI Director Eddy Rubin gives opening remarks at the JGI/Argonne High Performance Computing (HPC) Workshop on January 25, 2010.

Rubin, Eddy

2010-01-25T23:59:59.000Z

219

Argonne User Facility Agreements | Advanced Photon Source  

NLE Websites -- All DOE Office Websites (Extended Search)

Master proprietary agreement sample (pdf) Master proprietary agreement sample (pdf) Master non-proprietary agreement sample (pdf) Differences between non-proprietary and proprietary Opens in a new window Argonne's National User Facilities Advanced Leadership Computing Facility (ALCF) Advanced Photon Source (APS) Argonne Tandem Linear Accelerator System (ATLAS) Center for Nanoscale Materials (CNM) Electron Microscopy Center (EMC) Argonne User Facility Agreements About User Agreements If you are not an Argonne National Laboratory employee, a user agreement signed by your home institution is a prerequisite for experimental work at any of Argonne's user facilities. The Department of Energy recently formulated master agreements that cover liability, intellectual property, and financial issues (access templates from the links in the left

220

Computation of Two-Body Matrix Elements From the Argonne $v_{18}$ Potential  

E-Print Network (OSTI)

We discuss the computation of two-body matrix elements from the Argonne $v_{18}$ interaction. The matrix elements calculation is presented both in particle-particle and in particle-hole angular momentum coupling. The procedures developed here can be applied to the case of other NN potentials, provided that they have a similar operator format.

Bogdan Mihaila; Jochen H. Heisenberg

1998-02-03T23:59:59.000Z

Note: This page contains sample records for the topic "argonne leadership computing" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
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We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


221

Modeling Resource-Coupled Computations Mark Hereld,* Joseph Insley, Eric Olson,* Michael E. Papka,*  

E-Print Network (OSTI)

CONTACT Argonne Leadership Computing Facility | www.alcf.anl.gov | info@alcf.anl.gov | (877) 737 The Argonne Leadership Computing Facility (ALCF) enables breakthrough science--science that will change our and more. Operated for the U.S. Department of Energy's (DOE) Office of Science, the ALCF gives scientists

222

NUCLEI: Nuclear Computational Low-Energy Initiative | Argonne...  

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NUCLEI: Nuclear Computational Low-Energy Initiative NUCLEI: Nuclear Computational Low-Energy Initiative This project seeks to advance large-scale nuclear physics compoutations in...

223

Photo of the Week: Living Large -- Argonne's First Computer ...  

NLE Websites -- All DOE Office Websites (Extended Search)

there was Google, or even the Internet, there was the computer -- and the earliest computers were so large that just one could occupy an entire room. AVIDAC was the first...

224

Argonne and RIKEN Sign MOU in Support of Petascale Computing...  

NLE Websites -- All DOE Office Websites (Extended Search)

floating point operations per second. "As we move forward with our high performance computing initiatives, it is critical that we collaborate globally with organizations...

225

SPRUCE: Special PRiority and Urgent Computing Environment | Argonne...  

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resources to become available. Neither can the community keep multimillion-dollar infrastructures idle until required by urgent computation.A specialized infrastructure...

226

HPCT MPI Profiling and Tracing Library on BG/P Systems | Argonne Leadership  

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MPI Profiling and Tracing Library on BG/P Systems MPI Profiling and Tracing Library on BG/P Systems References IBM System Blue Gene Solution: High Performance Computing Toolkit for Blue Gene/P - IBM Redbook describing HPCT and other performance tools Introduction The HPC Toolkit provides a mechanism for obtain information about the use of MPI routines during a programs execution. This is done through the use of a library which intercepts calls to MPI routines, records information about the call, and then continues with the MPI call. When the program terminates use of MPI by calling MPI_Finalize the data gathered by the library is written to one or more files in the program execution directory. The the primary types of information that are gathered and writen by the library are: MPI Profile Data- A summary of MPI usage information typically

227

Computing Parton Physics on a Lattice | Argonne National Laboratory  

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Computing Parton Physics on a Lattice October 30, 2013 3:30PM to 4:30PM Presenter Xiangdong Ji, Shanghai Jiao Tong University, China Location Building 203, Room R150 Type Seminar...

228

Andrew Siegel | Argonne National Laboratory  

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Siegel Siegel Computational Scientist & Project Lead - Nuclear Simulation Andrew Siegel has led several major projects in the past decade. For example, he was lead software architect with the FLASH project at the University of Chiciago; he built the applications team for the Blue Gene Consortium; he spearheaded the establishiment of a nuclear engineering simulation program at Argonne; and he was director of SHARP (Simulation for High Accuracy Reactor Program) at Argonne. Siegel received his B.A. in philosophy at the University of Chicago and his Ph.D. in the Department of Astrophysical, Palnetary, and Atmospheric Sciences at the University of Colorado. Research Interests Large-scale computational science simulations Parallel code for leadership-class computers

229

Argonne to Advise Battery Alliance  

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and Analysis Computing Center Working With Argonne Contact TTRDC Argonne to advise battery alliance Lithium ion batteries are anticipated to replace gasoline as a major source...

230

Nek5000: Computational Fluid Dynamics Code | Argonne National Laboratory  

NLE Websites -- All DOE Office Websites (Extended Search)

Nek5000: Computational Fluid Dynamics Code Nek5000: Computational Fluid Dynamics Code Nuclear reactor simulation: An elevation plot of the highest energy neutron flux distributions from an axial slice of a nuclear reactor core is shown superimposed over the same slice of the underlying geometry. This figure shows the rapid spatial variation in the high energy neutron distribution between within each plate along with the more slowly varying, global distribution. The figure is significant since UNIC allows researchers to capture both of these effects simultaneously. Nuclear reactor simulation: An elevation plot of the highest energy neutron flux distributions from an axial slice of a nuclear reactor core is shown superimposed over the same slice of the underlying geometry. This figure shows the rapid spatial variation in the high energy neutron distribution

231

Computational Design of Novel Multiscale Concrete Rheometers | Argonne  

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Suspended particles in a rheometer Suspended particles in a rheometer This simulation image shows suspended particles in a rheometer for NIST's proposed mortar SRM. The spheres, which are color coded by their starting location in the rheometer, are suspended in a cement paste with properties derived from NIST's cement paste SRM. Nicos Martys and Steven G. Satterfield, National Institute of Standards and Technology Computational Design of Novel Multiscale Concrete Rheometers PI Name: William George PI Email: wgeorge@nist.gov Institution: National Institute of Standards and Technology (NIST) Allocation Program: INCITE Allocation Hours at ALCF: 40 Million Year: 2014 Research Domain: Materials Science Understanding the mechanisms of dispersion or agglomeration of particulate matter in complex fluids, such as suspensions, is of technological

232

Scientific Application Requirements for Leadership Computing at the Exascale  

Science Conference Proceedings (OSTI)

The Department of Energy s Leadership Computing Facility, located at Oak Ridge National Laboratory s National Center for Computational Sciences, recently polled scientific teams that had large allocations at the center in 2007, asking them to identify computational science requirements for future exascale systems (capable of an exaflop, or 1018 floating point operations per second). These requirements are necessarily speculative, since an exascale system will not be realized until the 2015 2020 timeframe, and are expressed where possible relative to a recent petascale requirements analysis of similar science applications [1]. Our initial findings, which beg further data collection, validation, and analysis, did in fact align with many of our expectations and existing petascale requirements, yet they also contained some surprises, complete with new challenges and opportunities. First and foremost, the breadth and depth of science prospects and benefits on an exascale computing system are striking. Without a doubt, they justify a large investment, even with its inherent risks. The possibilities for return on investment (by any measure) are too large to let us ignore this opportunity. The software opportunities and challenges are enormous. In fact, as one notable computational scientist put it, the scale of questions being asked at the exascale is tremendous and the hardware has gotten way ahead of the software. We are in grave danger of failing because of a software crisis unless concerted investments and coordinating activities are undertaken to reduce and close this hardwaresoftware gap over the next decade. Key to success will be a rigorous requirement for natural mapping of algorithms to hardware in a way that complements (rather than competes with) compilers and runtime systems. The level of abstraction must be raised, and more attention must be paid to functionalities and capabilities that incorporate intent into data structures, are aware of memory hierarchy, possess fault tolerance, exploit asynchronism, and are power-consumption aware. On the other hand, we must also provide application scientists with the ability to develop software without having to become experts in the computer science components. Numerical algorithms are scattered broadly across science domains, with no one particular algorithm being ubiquitous and no one algorithm going unused. Structured grids and dense linear algebra continue to dominate, but other algorithm categories will become more common. A significant increase is projected for Monte Carlo algorithms, unstructured grids, sparse linear algebra, and particle methods, and a relative decrease foreseen in fast Fourier transforms. These projections reflect the expectation of much higher architecture concurrency and the resulting need for very high scalability. The new algorithm categories that application scientists expect to be increasingly important in the next decade include adaptive mesh refinement, implicit nonlinear systems, data assimilation, agent-based methods, parameter continuation, and optimization. The attributes of leadership computing systems expected to increase most in priority over the next decade are (in order of importance) interconnect bandwidth, memory bandwidth, mean time to interrupt, memory latency, and interconnect latency. The attributes expected to decrease most in relative priority are disk latency, archival storage capacity, disk bandwidth, wide area network bandwidth, and local storage capacity. These choices by application developers reflect the expected needs of applications or the expected reality of available hardware. One interpretation is that the increasing priorities reflect the desire to increase computational efficiency to take advantage of increasing peak flops [floating point operations per second], while the decreasing priorities reflect the expectation that computational efficiency will not increase. Per-core requirements appear to be relatively static, while aggregate requirements will grow with the system. This projection is consistent with a r

Ahern, Sean [ORNL; Alam, Sadaf R [ORNL; Fahey, Mark R [ORNL; Hartman-Baker, Rebecca J [ORNL; Barrett, Richard F [ORNL; Kendall, Ricky A [ORNL; Kothe, Douglas B [ORNL; Mills, Richard T [ORNL; Sankaran, Ramanan [ORNL; Tharrington, Arnold N [ORNL; White III, James B [ORNL

2007-12-01T23:59:59.000Z

233

Modeling a Leadership-scale Storage System , Christopher Carothers1  

E-Print Network (OSTI)

an end-to-end storage system model of the Argonne Leadership Computing Facility's (ALCF) comput- ing collected from the ALCF's storage system for a variety of synthetic I/O workloads and scales. we present in the ALCF. As an early study of the CODES project, our simulators can quickly and accurately simulate

234

PREPARING FOR EXASCALE: ORNL Leadership Computing Application Requirements and Strategy  

SciTech Connect

In 2009 the Oak Ridge Leadership Computing Facility (OLCF), a U.S. Department of Energy (DOE) facility at the Oak Ridge National Laboratory (ORNL) National Center for Computational Sciences (NCCS), elicited petascale computational science requirements from leading computational scientists in the international science community. This effort targeted science teams whose projects received large computer allocation awards on OLCF systems. A clear finding of this process was that in order to reach their science goals over the next several years, multiple projects will require computational resources in excess of an order of magnitude more powerful than those currently available. Additionally, for the longer term, next-generation science will require computing platforms of exascale capability in order to reach DOE science objectives over the next decade. It is generally recognized that achieving exascale in the proposed time frame will require disruptive changes in computer hardware and software. Processor hardware will become necessarily heterogeneous and will include accelerator technologies. Software must undergo the concomitant changes needed to extract the available performance from this heterogeneous hardware. This disruption portends to be substantial, not unlike the change to the message passing paradigm in the computational science community over 20 years ago. Since technological disruptions take time to assimilate, we must aggressively embark on this course of change now, to insure that science applications and their underlying programming models are mature and ready when exascale computing arrives. This includes initiation of application readiness efforts to adapt existing codes to heterogeneous architectures, support of relevant software tools, and procurement of next-generation hardware testbeds for porting and testing codes. The 2009 OLCF requirements process identified numerous actions necessary to meet this challenge: (1) Hardware capabilities must be advanced on multiple fronts, including peak flops, node memory capacity, interconnect latency, interconnect bandwidth, and memory bandwidth. (2) Effective parallel programming interfaces must be developed to exploit the power of emerging hardware. (3) Science application teams must now begin to adapt and reformulate application codes to the new hardware and software, typified by hierarchical and disparate layers of compute, memory and concurrency. (4) Algorithm research must be realigned to exploit this hierarchy. (5) When possible, mathematical libraries must be used to encapsulate the required operations in an efficient and useful way. (6) Software tools must be developed to make the new hardware more usable. (7) Science application software must be improved to cope with the increasing complexity of computing systems. (8) Data management efforts must be readied for the larger quantities of data generated by larger, more accurate science models. Requirements elicitation, analysis, validation, and management comprise a difficult and inexact process, particularly in periods of technological change. Nonetheless, the OLCF requirements modeling process is becoming increasingly quantitative and actionable, as the process becomes more developed and mature, and the process this year has identified clear and concrete steps to be taken. This report discloses (1) the fundamental science case driving the need for the next generation of computer hardware, (2) application usage trends that illustrate the science need, (3) application performance characteristics that drive the need for increased hardware capabilities, (4) resource and process requirements that make the development and deployment of science applications on next-generation hardware successful, and (5) summary recommendations for the required next steps within the computer and computational science communities.

Joubert, Wayne [ORNL; Kothe, Douglas B [ORNL; Nam, Hai Ah [ORNL

2009-12-01T23:59:59.000Z

235

Argonne Transportation Technology R&D Center - Battery Test Facility...  

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Research and Analysis Computing Center Working With Argonne Contact TTRDC Battery Test Facility Argonne researcher Lee Walker Argonne researcher Lee Walker examines a...

236

Software | Argonne National Laboratory  

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Software robust, reliable software - the backbone of scientific research Argonne's Mathematics and Computer Science Division (MCS) has been a world leader in the development of...

237

Argonne National Laboratory study of the transfer of federal computational technology to manufacturing industry in the State of Michigan  

SciTech Connect

This report describes a pilot study to develop, initiate the implementation, and document a process to identify computational technology capabilities resident within Argonne National Laboratory to small and medium-sized businesses in the State of Michigan. It is a derivative of a program entitled ``Technology Applications Development Process for the State of Michigan`` undertaken by the Industrial Technology Institute and MERRA under funding from the National Institute of Standards and Technology. The overall objective of the latter program is to develop procedures which can facilitate the discovery and commercialization of new technologies for the benefit of small and medium-size manufacturing firms. Federal laboratories such as Argonne, along with universities, have been identified by the Industrial Technology Institute as key sources of technology which can be profitably commercialized by the target firms. The scope of this study limited the investigation of technology areas for technology transfer to that of computational science and engineering featuring high performance computing. This area was chosen as the broad technological capability within Argonne to investigate for technology transfer to Michigan firms for several reasons. First, and most importantly, as a multidisciplinary laboratory, Argonne has the full range of scientific and engineering skills needed to utilize leading-edge computing capabilities in many areas of manufacturing.

Mueller, C.J.

1991-11-01T23:59:59.000Z

238

Argonne National Laboratory study of the transfer of federal computational technology to manufacturing industry in the State of Michigan  

SciTech Connect

This report describes a pilot study to develop, initiate the implementation, and document a process to identify computational technology capabilities resident within Argonne National Laboratory to small and medium-sized businesses in the State of Michigan. It is a derivative of a program entitled Technology Applications Development Process for the State of Michigan'' undertaken by the Industrial Technology Institute and MERRA under funding from the National Institute of Standards and Technology. The overall objective of the latter program is to develop procedures which can facilitate the discovery and commercialization of new technologies for the benefit of small and medium-size manufacturing firms. Federal laboratories such as Argonne, along with universities, have been identified by the Industrial Technology Institute as key sources of technology which can be profitably commercialized by the target firms. The scope of this study limited the investigation of technology areas for technology transfer to that of computational science and engineering featuring high performance computing. This area was chosen as the broad technological capability within Argonne to investigate for technology transfer to Michigan firms for several reasons. First, and most importantly, as a multidisciplinary laboratory, Argonne has the full range of scientific and engineering skills needed to utilize leading-edge computing capabilities in many areas of manufacturing.

Mueller, C.J.

1991-11-01T23:59:59.000Z

239

Organization Chart | Argonne National Laboratory  

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Download Organization Charts Argonne National Laboratory Computing, Environment, and Life Sciences Energy Engineering and Systems Analysis Physical Science and Engineering...

240

Sven Leyffer | Argonne National Laboratory  

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Sven Leyffer Senior Computational Mathematician Sven Leyffer joined the Mathematics and Computer Science Division at Argonne in 2002, where he is now a computational mathematician....

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While these samples are representative of the content of NLEBeta,
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We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


241

High Performance Computing Facility Operational Assessment, FY 2010 Oak Ridge Leadership Computing Facility  

SciTech Connect

Oak Ridge National Laboratory's (ORNL's) Cray XT5 supercomputer, Jaguar, kicked off the era of petascale scientific computing in 2008 with applications that sustained more than a thousand trillion floating point calculations per second - or 1 petaflop. Jaguar continues to grow even more powerful as it helps researchers broaden the boundaries of knowledge in virtually every domain of computational science, including weather and climate, nuclear energy, geosciences, combustion, bioenergy, fusion, and materials science. Their insights promise to broaden our knowledge in areas that are vitally important to the Department of Energy (DOE) and the nation as a whole, particularly energy assurance and climate change. The science of the 21st century, however, will demand further revolutions in computing, supercomputers capable of a million trillion calculations a second - 1 exaflop - and beyond. These systems will allow investigators to continue attacking global challenges through modeling and simulation and to unravel longstanding scientific questions. Creating such systems will also require new approaches to daunting challenges. High-performance systems of the future will need to be codesigned for scientific and engineering applications with best-in-class communications networks and data-management infrastructures and teams of skilled researchers able to take full advantage of these new resources. The Oak Ridge Leadership Computing Facility (OLCF) provides the nation's most powerful open resource for capability computing, with a sustainable path that will maintain and extend national leadership for DOE's Office of Science (SC). The OLCF has engaged a world-class team to support petascale science and to take a dramatic step forward, fielding new capabilities for high-end science. This report highlights the successful delivery and operation of a petascale system and shows how the OLCF fosters application development teams, developing cutting-edge tools and resources for next-generation systems.

Bland, Arthur S Buddy [ORNL; Hack, James J [ORNL; Baker, Ann E [ORNL; Barker, Ashley D [ORNL; Boudwin, Kathlyn J. [ORNL; Kendall, Ricky A [ORNL; Messer, Bronson [ORNL; Rogers, James H [ORNL; Shipman, Galen M [ORNL; White, Julia C [ORNL

2010-08-01T23:59:59.000Z

242

High Performance Computing Facility Operational Assessment, FY 2010 Oak Ridge Leadership Computing Facility  

SciTech Connect

Oak Ridge National Laboratory's (ORNL's) Cray XT5 supercomputer, Jaguar, kicked off the era of petascale scientific computing in 2008 with applications that sustained more than a thousand trillion floating point calculations per second - or 1 petaflop. Jaguar continues to grow even more powerful as it helps researchers broaden the boundaries of knowledge in virtually every domain of computational science, including weather and climate, nuclear energy, geosciences, combustion, bioenergy, fusion, and materials science. Their insights promise to broaden our knowledge in areas that are vitally important to the Department of Energy (DOE) and the nation as a whole, particularly energy assurance and climate change. The science of the 21st century, however, will demand further revolutions in computing, supercomputers capable of a million trillion calculations a second - 1 exaflop - and beyond. These systems will allow investigators to continue attacking global challenges through modeling and simulation and to unravel longstanding scientific questions. Creating such systems will also require new approaches to daunting challenges. High-performance systems of the future will need to be codesigned for scientific and engineering applications with best-in-class communications networks and data-management infrastructures and teams of skilled researchers able to take full advantage of these new resources. The Oak Ridge Leadership Computing Facility (OLCF) provides the nation's most powerful open resource for capability computing, with a sustainable path that will maintain and extend national leadership for DOE's Office of Science (SC). The OLCF has engaged a world-class team to support petascale science and to take a dramatic step forward, fielding new capabilities for high-end science. This report highlights the successful delivery and operation of a petascale system and shows how the OLCF fosters application development teams, developing cutting-edge tools and resources for next-generation systems.

Bland, Arthur S Buddy [ORNL; Hack, James J [ORNL; Baker, Ann E [ORNL; Barker, Ashley D [ORNL; Boudwin, Kathlyn J. [ORNL; Kendall, Ricky A [ORNL; Messer, Bronson [ORNL; Rogers, James H [ORNL; Shipman, Galen M [ORNL; White, Julia C [ORNL

2010-08-01T23:59:59.000Z

243

0a77ceec.signing_policy | Argonne Leadership Computing Facility  

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0a77ceec.signing_policy 0a77ceec.signing_policy # ca-signing-policy.conf, see ca-signing-policy.doc for more information # # This is the configuration file describing the policy for what CAs are # allowed to sign whoses certificates. # # This file is parsed from start to finish with a given CA and subject # name. # subject names may include the following wildcard characters: # * Matches any number of characters. # ? Matches any single character. # # CA names must be specified (no wildcards). Names containing whitespaces # must be included in single quotes, e.g. 'Certification Authority'. # Names must not contain new line symbols. # The value of condition attribute is represented as a set of regular # expressions. Each regular expression must be included in double quotes.

244

Job Scheduling Policy on BG/P Systems | Argonne Leadership Computing  

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on BG/P Systems on BG/P Systems Contents Intrepid Job Scheduling Intrepid Queue User interface Backfill queue Big Run Monday Challenger Scheduling Policy Surveyor Job Scheduling General Scheduling Guidelines System Maintenance Day Reservations Back to top Intrepid Job Scheduling Back to top Intrepid Queue User Queue Queue Nodes Wall-clock Time (hours) Maximum Jobs Per User Maximum Jobs Per Project prod prod-short 512 - 4096 0 - ≤6 5 20 prod-long 512 - 4096 >6 - 12 5 20 prod-capability 4097 - 32768 0 - 24 2 2 prod-bigrun 32769 - 40960 0 - 24 1 1 backfill (‡) 512 - 8192 0 - 6 5 10 (per user) ‡: Depending on the type of project (INCITE, ALCC, Director's Discretionary), this queue may be automatically selected if a project's allocation is negative. Back to top

245

UPC Events All on BG/P Systems | Argonne Leadership Computing Facility  

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Events All on BG/P Systems Events All on BG/P Systems BG/P Hardware Events - Complete List Event Number Mode Counter Number Name Hardware Unit Description 0 0 0 BGP_PU0_JPIPE_INSTRUCTIONS P0 CPU J-pipe instructions 1 0 1 BGP_PU0_JPIPE_ADD_SUB P0 CPU Add/Sub in J-pipe 2 0 2 BGP_PU0_JPIPE_LOGICAL_OPS P0 CPU Logical operations in J-pipe 3 0 3 BGP_PU0_JPIPE_SHROTMK P0 CPU J-pipe shift/rotate/mask instructions 4 0 4 BGP_PU0_IPIPE_INSTRUCTIONS P0 CPU I-pipe instructions 5 0 5 BGP_PU0_IPIPE_MULT_DIV P0 CPU Mult/Div in I-pipe 6 0 6 BGP_PU0_IPIPE_ADD_SUB P0 CPU Add/Sub in I-pipe 7 0 7 BGP_PU0_IPIPE_LOGICAL_OPS P0 CPU Logical operations in I-pipe 8 0 8 BGP_PU0_IPIPE_SHROTMK P0 CPU I-pipe shift/rotate/mask instructions 9 0 9 BGP_PU0_IPIPE_BRANCHES P0 CPU Branches

246

Machine Partitions on BG/P Systems | Argonne Leadership Computing Facility  

NLE Websites -- All DOE Office Websites (Extended Search)

Machine Partitions on BG/P Systems Machine Partitions on BG/P Systems Partitions of the machine In the prod-devel queue (on Challenger), partition sizes of 16, 32, 64, 128, 256, and 512 nodes are available. Of these, only the 512 node partition has a torus network; the others have mesh networks. In the prod queue (on Intrepid), partitions of 512, 1K, 2K, 4K, 8K, 16K, 24K, 32K, and 40K are available. You can see the partitions in the output of partlist, along with whether they are free, busy, or blocked by other partitions: intrepid$ partlist Name Queue State Backfill ============================================================================= ANL-R00-R47-40960 off blocked (ANL-R00-R17-16384) - ANL-R00-R37-32768 prod blocked (ANL-R00-R17-16384) -

247

Mira: Installation of our Blue Gene/Q | Argonne Leadership Computing...  

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delivery of two single-rack systems. By early March, all of the Early Science Program (ESP) project application teams got their codes built and running on these racks. When...

248

Compiling and Linking on BG/P Systems | Argonne Leadership Computing...  

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Blue GeneQ Versus Blue GeneP MiraCetusVesta IntrepidChallengerSurveyor Decommissioning of BGP Systems and Resources Introducing Challenger Quick Reference Guide System...

249

Allinea DDT on BG/P Systems | Argonne Leadership Computing Facility  

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IntrepidChallengerSurveyor Decommissioning of BGP Systems and Resources Introducing Challenger Quick Reference Guide System Overview Data Transfer Data Storage & File Systems...

250

Low Level UPC API on BG/P Systems | Argonne Leadership Computing...  

NLE Websites -- All DOE Office Websites (Extended Search)

Blue GeneQ Versus Blue GeneP MiraCetusVesta IntrepidChallengerSurveyor Decommissioning of BGP Systems and Resources Introducing Challenger Quick Reference Guide System...

251

Running Jobs on BG/P Systems | Argonne Leadership Computing Facility  

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by the OS, in which case the program continues to execute, but likely with a large performance penalty, or it may be left unhandled, in which case execution of the program is...

252

Argonne Transportation Current News  

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Current News November 21, 2013 -- Pixelligent Technologies Working with Argonne to Develop Nanoadditives under DOE SBIR Grant November 4, 2013 -- New GREET Model Released October 25, 2013 -- Argonne Creates IdleBox Toolkit for DOE's Clean Cities Initiative to Help Reduce Vehicle Idling September 23, 2013 -- New VISION Model Released for Estimating Potential Energy Use, Oil Use and Carbon Emission Impacts September 17, 2013 -- Water Assessment for Transportation Energy Resources (WATER) Tool Released September 9, 2013 -- Dileep Singh to Receive Prestigious Lee Hsun Award July 17, 2013 -- Summer 2013 TransForum now available July 10, 2013 -- Argonne Wins Four R&D 100 Awards March 23, 2013 -- White House Women's Leadership Summit on Climate and Energy recognizes Argonne scientists

253

High Performance Computing Facility Operational Assessment, FY 2011 Oak Ridge Leadership Computing Facility  

SciTech Connect

Oak Ridge National Laboratory's Leadership Computing Facility (OLCF) continues to deliver the most powerful resources in the U.S. for open science. At 2.33 petaflops peak performance, the Cray XT Jaguar delivered more than 1.5 billion core hours in calendar year (CY) 2010 to researchers around the world for computational simulations relevant to national and energy security; advancing the frontiers of knowledge in physical sciences and areas of biological, medical, environmental, and computer sciences; and providing world-class research facilities for the nation's science enterprise. Scientific achievements by OLCF users range from collaboration with university experimentalists to produce a working supercapacitor that uses atom-thick sheets of carbon materials to finely determining the resolution requirements for simulations of coal gasifiers and their components, thus laying the foundation for development of commercial-scale gasifiers. OLCF users are pushing the boundaries with software applications sustaining more than one petaflop of performance in the quest to illuminate the fundamental nature of electronic devices. Other teams of researchers are working to resolve predictive capabilities of climate models, to refine and validate genome sequencing, and to explore the most fundamental materials in nature - quarks and gluons - and their unique properties. Details of these scientific endeavors - not possible without access to leadership-class computing resources - are detailed in Section 4 of this report and in the INCITE in Review. Effective operations of the OLCF play a key role in the scientific missions and accomplishments of its users. This Operational Assessment Report (OAR) will delineate the policies, procedures, and innovations implemented by the OLCF to continue delivering a petaflop-scale resource for cutting-edge research. The 2010 operational assessment of the OLCF yielded recommendations that have been addressed (Reference Section 1) and where appropriate, changes in Center metrics were introduced. This report covers CY 2010 and CY 2011 Year to Date (YTD) that unless otherwise specified, denotes January 1, 2011 through June 30, 2011. User Support remains an important element of the OLCF operations, with the philosophy 'whatever it takes' to enable successful research. Impact of this center-wide activity is reflected by the user survey results that show users are 'very satisfied.' The OLCF continues to aggressively pursue outreach and training activities to promote awareness - and effective use - of U.S. leadership-class resources (Reference Section 2). The OLCF continues to meet and in many cases exceed DOE metrics for capability usage (35% target in CY 2010, delivered 39%; 40% target in CY 2011, 54% January 1, 2011 through June 30, 2011). The Schedule Availability (SA) and Overall Availability (OA) for Jaguar were exceeded in CY2010. Given the solution to the VRM problem the SA and OA for Jaguar in CY 2011 are expected to exceed the target metrics of 95% and 90%, respectively (Reference Section 3). Numerous and wide-ranging research accomplishments, scientific support, and technological innovations are more fully described in Sections 4 and 6 and reflect OLCF leadership in enabling high-impact science solutions and vision in creating an exascale-ready center. Financial Management (Section 5) and Risk Management (Section 7) are carried out using best practices approved of by DOE. The OLCF has a valid cyber security plan and Authority to Operate (Section 8). The proposed metrics for 2012 are reflected in Section 9.

Baker, Ann E [ORNL; Bland, Arthur S Buddy [ORNL; Hack, James J [ORNL; Barker, Ashley D [ORNL; Boudwin, Kathlyn J. [ORNL; Kendall, Ricky A [ORNL; Messer, Bronson [ORNL; Rogers, James H [ORNL; Shipman, Galen M [ORNL; Wells, Jack C [ORNL; White, Julia C [ORNL

2011-08-01T23:59:59.000Z

254

Cosmin Petra | Argonne National Laboratory  

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Cosmin Petra Assistant Computational Mathematician Cosmin Petra joined the Argonne's Mathematics and Computer Science Division in 2009 as a postdoctoral researcher. He obtained a...

255

Mihai Anitescu | Argonne National Laboratory  

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Mathematician Mihai Anitescu has been a computational mathematician in the Mathematics and Computer Science Division at Argonne National Laboratory since 2002 and a...

256

Salman Habib | Argonne National Laboratory  

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& Computational Scientist Salman Habib is a member of the High Energy Physics and Mathematics and Computer Science Divisions at Argonne National Laboratory, a Senior Member of...

257

Susan Coghlan | Argonne National Laboratory  

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has been a leader in parallel computing for more than 30 years. Today, high-performance computing has become essential to virtually all science and engineering, and Argonne...

258

Magellan: experiences from a Science Cloud  

E-Print Network (OSTI)

at the Argonne Leadership Computing Facility (ALCF) and thescience at the Argonne Leadership Computing Facility and theof the Argonne Leadership Computing Facility at Argonne

Ramakrishnan, Lavanya

2013-01-01T23:59:59.000Z

259

MCS Division researchers awarded INCITE supercomputing time | Argonne  

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awarded INCITE supercomputing time awarded INCITE supercomputing time November 21, 2013 Tweet EmailPrint Three researchers in the Mathematics and Computer Science Division at Argonne lead projects that have been awarded a total of 285 million hours of computing time on the U.S. Department of Energy (DOE) leadership-class computing facilities. Using the computer allotments, the researchers will conduct advanced simulation and analysis and will develop scalable system software needed to fully utilize the power of leadership-class computing facilities. The projects, selected competitively based on their potential to advance scientific discovery, were awarded the supercomputer time through the DOE Innovative and Novel Computational Impact on Theory and Experiment (INCITE) program. Salman Habib, a senior physicist and computational scientist and member of

260

Oak Ridge Leadership Computing Facility How the Jaguar supercomputer helps assure America's energy security  

E-Print Network (OSTI)

on Theory and Experiment (INCITE) program, jointly managed by Leadership Computing Facilities at Oak Ridge works best before they build. Reduce nuclear waste. One way to reduce nuclear waste is to fuel a fast reactor with it. But the enormous expense of experiments has slowed development of a commercially viable

Note: This page contains sample records for the topic "argonne leadership computing" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
We encourage you to perform a real-time search of NLEBeta
to obtain the most current and comprehensive results.


261

Innovative & Novel Computational Impact on Theory & Experiement (INCITE) |  

Office of Science (SC) Website

Innovative Innovative & Novel Computational Impact on Theory and Experiment (INCITE) Advanced Scientific Computing Research (ASCR) ASCR Home About Research Facilities Accessing ASCR Supercomputers Oak Ridge Leadership Computing Facility (OLCF) Argonne Leadership Computing Facility (ALCF) National Energy Research Scientific Computing Center (NERSC) Energy Sciences Network (ESnet) Research & Evaluation Prototypes (REP) Innovative & Novel Computational Impact on Theory and Experiment (INCITE) ASCR Leadership Computing Challenge (ALCC) Science Highlights Benefits of ASCR Funding Opportunities Advanced Scientific Computing Advisory Committee (ASCAC) News & Resources Contact Information Advanced Scientific Computing Research U.S. Department of Energy SC-21/Germantown Building

262

History | Argonne National Laboratory  

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Argonne's Nobelists Argonne's Nobelists Three Argonne physicists have been honored with Nobel Prizes: Enrico Fermi, Argonne's founding director, won the 1938 Nobel Prize in physics for his demonstrations of the existence of new radioactive elements produced by neutron irradiation and for his related discovery of nuclear reactions brought about by slow neutrons. Maria Goeppert Mayer shared the 1963 Nobel Prize in physics. While working at Argonne in 1948, she developed the "nuclear shell model" to explain how neutrons and protons within atomic nuclei are structured. Alexei A. Abrikosov shared the 2003 Nobel Prize in physics for research on condensed-matter physics and superconductivity. Our history sparked the nation's future AVIDAC, Argonne's first digital computer, began operation in January 1953.

263

Argonne TDC: Licensing Intellectual Property from Argonne ...  

Licensing Intellectual Property from Argonne National Laboratory. Argonne's licensing program provides companies with opportunities to acquire rights in Argonne ...

264

Visual Analysis of I/O System Behavior for HighEnd Computing  

E-Print Network (OSTI)

Inglett, and Robert Wisniewski for their advice on the Blue Gene hardware. We thank Argonne ALCF's William, and Timothy Williams, for their advice on the ALCF early-access Blue Gene/Q machine. This work was supported] Argonne Leadership Computing Facility: The ANL Intrepid Blue Gene System. http://www.alcf

265

Argonne Physics Division - ATLAS  

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Materials), the Electron Microscopy Center for Materials Research, and the Advanced Leadership Computing Facility. The Department of Energy has mandated we implement a new...

266

Argonne Physics Division - Theory Group  

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Special Day & Time: Special Day & Time: 10:30am Tues. 19 March 2013 Alessandro Lovato Argonne Leadership Computing Facility and Physics Division lovato@anl.gov Weak Response of Cold Symmetric Nuclear Matter at Three-Body Cluster Level 24 January 2013 Elmar Biernat Universidade Técnica de Lisboa, Portugal elmar.biernat@ist.utl.pt Meson properties from two different covariant approaches Special Day: Tues. 22 January 2013 Guillaume Hupin Lawrence Livermore National Lab hupin1@llnl.gov Continuum effects in nuclear structure and reactions Special Day & Time: 10:30am, Tues. 15 January 2013 Kyle Wendt Ohio State University wendt.31@osu.edu Non-Locality in the Similarity Renormalization Group Special Time: 10:30am 10 January 2013 Vojtech Krejcirik University of Maryland vkrejcir@umd.edu

267

High Performance Computing Facility Operational Assessment, CY 2011 Oak Ridge Leadership Computing Facility  

Science Conference Proceedings (OSTI)

Oak Ridge National Laboratory's Leadership Computing Facility (OLCF) continues to deliver the most powerful resources in the U.S. for open science. At 2.33 petaflops peak performance, the Cray XT Jaguar delivered more than 1.4 billion core hours in calendar year (CY) 2011 to researchers around the world for computational simulations relevant to national and energy security; advancing the frontiers of knowledge in physical sciences and areas of biological, medical, environmental, and computer sciences; and providing world-class research facilities for the nation's science enterprise. Users reported more than 670 publications this year arising from their use of OLCF resources. Of these we report the 300 in this review that are consistent with guidance provided. Scientific achievements by OLCF users cut across all range scales from atomic to molecular to large-scale structures. At the atomic scale, researchers discovered that the anomalously long half-life of Carbon-14 can be explained by calculating, for the first time, the very complex three-body interactions between all the neutrons and protons in the nucleus. At the molecular scale, researchers combined experimental results from LBL's light source and simulations on Jaguar to discover how DNA replication continues past a damaged site so a mutation can be repaired later. Other researchers combined experimental results from ORNL's Spallation Neutron Source and simulations on Jaguar to reveal the molecular structure of ligno-cellulosic material used in bioethanol production. This year, Jaguar has been used to do billion-cell CFD calculations to develop shock wave compression turbo machinery as a means to meet DOE goals for reducing carbon sequestration costs. General Electric used Jaguar to calculate the unsteady flow through turbo machinery to learn what efficiencies the traditional steady flow assumption is hiding from designers. Even a 1% improvement in turbine design can save the nation billions of gallons of fuel.

Baker, Ann E [ORNL; Barker, Ashley D [ORNL; Bland, Arthur S Buddy [ORNL; Boudwin, Kathlyn J. [ORNL; Hack, James J [ORNL; Kendall, Ricky A [ORNL; Messer, Bronson [ORNL; Rogers, James H [ORNL; Shipman, Galen M [ORNL; Wells, Jack C [ORNL; White, Julia C [ORNL; Hudson, Douglas L [ORNL

2012-02-01T23:59:59.000Z

268

About Us | Argonne National Laboratory  

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leadership in the computing sciences - applied mathematics, computer science, and computational science. To this end, we tackle the most important scientific problems of our...

269

Two Argonne scientists named 2012 AAAS fellows | Argonne National...  

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fluid dynamics and fluid flow simulations on extreme-scale computers. Two Argonne scientists named 2012 AAAS fellows By Jared Sagoff * December 5, 2012 Tweet...

270

Machine-learning algorithm aims to accelerate materials discovery | Argonne  

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Science Science Computing, Environment & Life Sciences Energy Engineering & Systems Analysis Photon Sciences Physical Sciences & Engineering Energy Frontier Research Centers Science Highlights Postdoctoral Researchers Machine-learning algorithm aims to accelerate materials discovery July 16, 2013 Tweet EmailPrint A research team led by Argonne Leadership Computing Facility computational chemist Anatole von Lilienfeld is developing an algorithm that combines quantum chemistry with machine learning (artificial intelligence) to enable atomistic simulations that predict the properties of new materials with unprecedented speed. From innovations in medicine to novel materials for next-generation batteries, this approach could greatly accelerate the pace of materials discovery, with high-performance

271

ARGONNE NATIONAL LABORATORY  

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Empirical Empirical performance modeling of GPU kernels using active learning 1 Prasanna Balaprakash 2 , Karl Rupp 2 , Azamat Mametjanov 2 , Robert B. Gramacy 3 , Paul D. Hovland 2 , Stefan M. Wild 2 Mathematics and Computer Science Division Preprint ANL/MCS-P4097-0713 July 2013 1 Support for this work was provided through the SciDAC program funded by U.S. Department of Energy, Office of Science, Advanced Scientific Computing Research, under Contract No. DE-AC02-06CH11357. 2 Mathematics and Computer Science Division, Argonne National Laboratory, Argonne, IL 60439, USA 3 Booth School of Business, University of Chicago Empirical performance modeling of GPU kernels using active learning Prasanna Balaprakash 1 , Karl Rupp 1 , Azamat Mametjanov 1 Robert B. Gramacy 2 , Paul D. Hovland 1 , Stefan M. Wild 1 Mathematics and Computer Science Division, Argonne National Laboratory, Argonne, IL 60439

272

Oak Ridge Leadership Computing Facility User Update: SmartTruck Systems |  

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Leadership Computing Facility User Update: SmartTruck Systems Leadership Computing Facility User Update: SmartTruck Systems Startup zooms to success improving fuel efficiency of long-haul trucks by more than 10 percent Supercomputing simulations at Oak Ridge National Laboratory enabled SmartTruck Systems engineers to develop the UnderTray System, some components of which are shown here. The system dramatically reduces drag-and increases fuel mileage-in long-haul trucks. Image: Michael Matheson, Oak Ridge National Laboratory Supercomputing simulations at Oak Ridge National Laboratory enabled SmartTruck Systems engineers to develop the UnderTray System, some components of which are shown here. The system dramatically reduces drag-and increases fuel mileage-in long-haul trucks. Image: Michael Matheson, Oak Ridge National Laboratory (hi-res image)

273

Rajeev Thakur | Argonne National Laboratory  

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Thakur Deputy Division Director Rajeev Thakur is the Deputy Director of the Mathematics and Computer Science Division at Argonne National Laboratory, where he is also a Senior...

274

Lawrence Wos | Argonne National Laboratory  

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Emeritus Lawrence Wos Larry Wos is an emeritus scientist in the Mathematics and Computer Science Division at Argonne National Laboratory; he joined the laboratory in February 1957....

275

Emil Constantinescu | Argonne National Laboratory  

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Emil Constantinescu is an assistant computational mathematician in the Laboratory for Advanced Numerical Simulations (LANS) at Argonne. He obtained his Ph.D. from Virginia Tech and...

276

Argonne TTRDC - Experts - Battery Technologies  

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Research and Analysis Computing Center Working With Argonne Contact TTRDC Battery Technologies Experts Click on a highlighted name to see a full rsum. Jeff...

277

Toward simulation-time data analysis and I/O acceleration on leadership-class systems  

E-Print Network (OSTI)

infrastructure on the systems at the Argonne Leadership Computing Facility (ALCF). We use the 40-rack Intrepid applications in the ALCF environment, we set up a temporary PVFS2 storage cluster on Eureka and mounted by a U.S. Department of Energy INCITE award and an ALCF Director's Discretionary Allocation. #12

278

National Energy Research Scientific Computing Center (NERSC) | U.S. DOE  

Office of Science (SC) Website

National National Energy Research Scientific Computing Center (NERSC) Advanced Scientific Computing Research (ASCR) ASCR Home About Research Facilities Accessing ASCR Supercomputers Oak Ridge Leadership Computing Facility (OLCF) Argonne Leadership Computing Facility (ALCF) National Energy Research Scientific Computing Center (NERSC) Energy Sciences Network (ESnet) Research & Evaluation Prototypes (REP) Innovative & Novel Computational Impact on Theory and Experiment (INCITE) ASCR Leadership Computing Challenge (ALCC) Science Highlights Benefits of ASCR Funding Opportunities Advanced Scientific Computing Advisory Committee (ASCAC) News & Resources Contact Information Advanced Scientific Computing Research U.S. Department of Energy SC-21/Germantown Building 1000 Independence Ave., SW Washington, DC 20585 P: (301) 903-7486 F: (301)

279

MCS Division Organization Chart | Argonne National Laboratory  

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Publications Documents MCS Division Organization Chart The Mathematics and Computer Science Division at Argonne National Laboratory mcsorgchart.pdf...

280

ALCF Researchers to Showcase Early Mira Results at SC13 | Argonne  

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Researchers to Showcase Early Mira Results at SC13 Researchers to Showcase Early Mira Results at SC13 November 6, 2013 Printer-friendly version Argonne researchers are developing the tools and technologies to advance extreme-scale computing in the coming decade. Some of the earliest and groundbreaking research results achieved on Argonne's new Mira supercomputer will be presented at SC13 this November in Denver, CO. A cadre of Argonne Leadership Computing Facility (ALCF) authors, speakers, and panelists will participate in the high-performance computing community's premier annual event. Their work in several key areas will be presented in the conference technical program and also in the exhibition as part of the Department of Energy National Laboratories booth. This year, 15 national labs will be sharing a booth under the theme of "DOE: HPC for a

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281

Why Argonne | Argonne National Laboratory  

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Science Work-Life Balance Diversity and Inclusion Sustainability Your Career Life at Argonne Benefits Apply for a Job Connect with Argonne LinkedIn Facebook Twitter YouTube...

282

Argonne Alumni | Argonne National Laboratory  

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For Employees Inside Argonne (Intranet) Emergency Information Westgate Alternate Routes Reporting IllegalUnethical Activity Working Remotely Extracurricular Activities Library...

283

Aleksandr Obabko | Argonne National Laboratory  

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Computational Scientist Aleks Obabko is actively working on advanced reactor thermal-hydraulic modeling. He currently is head of an ALCC (ASCR Leadership Computing Challenge)...

284

David Salbego | Argonne National Laboratory  

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science mission. However, the Advanced Photon Source, Mathematics and Computer Science, Leadership Computing Facility and Decision and Information Sciences - just to name a few -...

285

Argonne Accelerator Institute  

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Alexander Argonne National Laboratory Decker, Glenn Argonne National Laboratory Dejus, Roger Argonne National Laboratory Deriy, Boris N. Argonne National Laboratory Donley,...

286

Nuclear Systems Analysis Multimedia - Argonne National Laboratory  

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Duration: 00:01:12 Watch on YouTube Read related Argonne article on how a team of nuclear engineers and computer scientists at Argonne National Laboratory developed and...

287

ASCR Science Network Requirements  

E-Print Network (OSTI)

Argonne Leadership Computing Facility (ALCF) .the Argonne Leadership Computing Facility (ALCF), the OakThe Argonne Leadership Computing Facility (ALCF) provides

Dart, Eli

2010-01-01T23:59:59.000Z

288

ASCR Science Network Requirements  

E-Print Network (OSTI)

7 4 Argonne Leadership Computing Facility (include the Argonne Leadership Computing Facility (ALCF),The Argonne Leadership Computing Facility (ALCF) provides

Dart, Eli

2010-01-01T23:59:59.000Z

289

Justin M. Wozniak | Argonne National Laboratory  

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Justin M. Wozniak Assistant Computer Scientist Justin Wozniak joined the Mathematics and Computer Science Division at Argonne National Laboratory in spring 2008 and the staff of...

290

Science & Engineering Applications | Argonne National Laboratory  

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applications. Argonne's goal is to push the envelope in both computer science and computational science advances using emerging extreme-scale platforms. Group Lead Ray Bair...

291

Argonne TDC: Working with Argonne  

Some federal and state programs do, however, and companies may use such funding to do R&D with Argonne. Regional Economic Development - Local Links

292

Argonne TDC: Partnering with Argonne  

Both the partnering organization and Argonne contribute to the costs of the R&D and share the results. ... U.S. Department of Energy Office of Science ...

293

Business Diversity | Argonne National Laboratory  

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In the News In the News Argonne and Fermilab start a business fair WBEZ Chicago Argonne, Fermi host fair to engage small contractors Federal Computing Weekly Forget about the mythical lone inventor in the garage: Real innovations happen in big, well-funded labs Slate Business Diversity Argonne is committed to expanding opportunities with local and small businesses, including veteran-, female- and minority-owned businesses. Diversity is integrated into Argonne's business model, both in the way in which we procure goods and services, as well as whom we partner with on the commercialization of our technology. Argonne works with small businesses, including veteran, female- and minority-owned businesses. As a U.S. Department of Energy run facility, Argonne is a conscientious neighbor and supporter of the local economy.

294

Annual Planning Summaries: Argonne Site Office (Argonne) | Department...  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Argonne Site Office (Argonne) Annual Planning Summaries: Argonne Site Office (Argonne) Document(s) Available For Download January 9, 2012 2012 Annual Planning Summary for Argonne...

295

Argonne Today  

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Argonne logo Argonne logo Argonne Today Wednesday, June 6, 2007 Seminars Submit seminar listings to seminars@anl.gov. There are no seminars scheduled today. Thursday, June 7 High Energy Physics Division Astrophysics Luncheon: "VERITAS - History, Status and First Results" by Deirdre Horan (HEP). Noon, Building 213 Cafeteria Private Dining Room A. Science update Wakefield facility achieves acceleration milestone Scientists at the Argonne Wakefield Accelerator facility are developing advanced technologies relevant to future high-energy physics machines. Their main goal is to identify and develop acceleration methods that may lead to more efficient, compact, and inexpensive particle accelerators. The method being pursued by the Argonne group is electron beam-driven wakefield acceleration in dielectric loaded structures, where a high-charge electron beam excites a high acceleration gradient.

296

Mark Peters | Argonne National Laboratory  

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About About Core Capabilities Leadership Message from the Director Board of Governors Organization Chart Argonne Distinguished Fellows Emeritus Scientists & Engineers History Discoveries Prime Contract Contact Us Mark Peters, Deputy Lab Director for Programs Mark Peters Deputy Laboratory Director for Programs Dr. Mark Peters is the Deputy Laboratory Director for Programs at Argonne National Laboratory. He is responsible for the management and integration of the Laboratory's science and technology portfolio, strategic planning, Laboratory Directed Research and Development (LDRD) program and technology transfer. Dr. Peters also serves as a senior advisor to the Department of Energy on nuclear energy technologies and research and development programs, and nuclear waste policy.

297

Procurement | Argonne National Laboratory  

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Procurement "Doing business with Argonne and Fermi national labs" - Aug. 21, 2013 Read more about "Doing business with Argonne and Fermi national labs" - Aug. 21, 2013 Argonne and...

298

Argonne Accelerator Institute  

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FERMILAB Collaboration Webpage Argonne-Fermilab Collaboration Visitors to Argonne All Fermilab participants need an approved gate pass to access the Argonne Site. Please fill out...

299

Workforce Pipeline | Argonne National Laboratory  

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Diversity Diversity Message from the Lab Director Diversity & Inclusion Advisory Council Workforce Pipeline Mentoring Leadership Development Policies & Practices Business Diversity Outreach & Education In the News High school workshop invites girls to explore STEM possibilities Daily Herald EcoCAR 2 competition drives auto engineers to excel Yuma (Ariz.) Sun Mississippi universities collaborate with national labs Mississippi Public Radio Workforce Pipeline Argonne seeks to attract, hire and retain a diverse set of talent in order to meet the laboratory's mission of excellence in science, engineering and technology. In order for Argonne to continue to carry out world-class science, the lab needs to seek out the best talent. Today, that talent is increasingly diverse. Argonne fosters an environment that welcomes and values a diverse

300

Argonne Transportation Site Index  

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Student Competitions Technology Analysis Transportation Research and Analysis Computing Center Working With Argonne Contact TTRDC Site Index General Information About TTRDC Media Center Current News News Archive Photo Archive Transportation Links Awards Contact Us Interesting Links Working with Argonne Research Resources Experts Batteries Engines & Fuels Fuel Cells Management Materials Systems Assessment Technology Analysis Tribology Vehicle Recycling Vehicle Systems Facilities Advanced Powertrain Research Facility Powertrain Test Cell 4-Wheel Drive Chassis Dynamometer Battery Test Facility Engine Research Facility Fuel Cell Test Facility Tribology Laboratory Tribology Laboratory Photo Tour Vehicle Recycling Partnership Plant Publications Searchable Database: patents, technical papers, presentations

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301

Argonne TTRDC - Experts  

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Experts Experts Argonne's multidisciplinary approach to transportation research brings together scientists, engineers and researchers with diverse, but complementary, skills and experience. Researchers are experts in the fields of chemistry, physics, computing, engineering, economics and geography, environmental science, materials science, metallurgy and ceramics, as well as transportation planning. TTRDC Management Directors and managers APRF (Advanced Powertrain Research Facility) Researchers working with Argonne's integrated four-wheel drive chassis dynamometer Battery Technologies Researchers studying the energy storage needs of the light-duty vehicle market Engines & Fuels Researchers in combustion, ignition types, emissions, idling and much more Fuel Cell Technologies

302

Rick Stevens | Argonne National Laboratory  

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Rick Stevens, Associate Laboratory Director, Computing, Environment and Life Sciences Rick Stevens, Associate Laboratory Director, Computing, Environment and Life Sciences Rick Stevens Associate Laboratory Director - Computing, Environment and Life Sciences Rick Stevens is Argonne's Associate Laboratory Director for Computing, Environment and Life Sciences. Stevens has been at Argonne since 1982, and has served as director of the Mathematics and Computer Science Division and also as Acting Associate Laboratory Director for Physical, Biological and Computing Sciences. He is currently leader of Argonne's Petascale Computing Initiative, Professor of Computer Science and Senior Fellow of the Computation Institute at the University of Chicago, and Professor at the University's Physical Sciences Collegiate Division. From 2000-2004, Stevens served as Director of the

303

Diversity & Inclusion | Argonne National Laboratory  

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Diversity Diversity Message from the Lab Director Diversity & Inclusion Advisory Council Workforce Pipeline Mentoring Leadership Development Policies & Practices Business Diversity Outreach & Education The African American/Black Club promotes the richness and diversity of African American/Black cultures and provides professional networking opportunities for the African American/Black community and all Argonne employees. The Hispanic Latino Club promotes the richness and diversity of Hispanic/Latino cultures and provides professional networking opportunities that benefit the Hispanic/Latino community and all Argonne employees. Women in Science and Technology (WIST) aims to promote the success of women in scientific and technical positions at Argonne. Diversity & Inclusion

304

BES Science Network Requirements  

E-Print Network (OSTI)

at the Argonne Leadership Computing Facility (ALCF). 10.2at the Argonne Leadership Computing Facility (ALCF). Data

Dart, Eli

2011-01-01T23:59:59.000Z

305

Heinonen-041113 - Argonne National Laboratories, Materials Sicence...  

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of research at Argonne. Another is the development of new capabilities, such as exascale computers. Also, the outlook for the funding landscape is uncertain at best. This...

306

Argonne Software Licensing: Glass Furnace Model (GFM)  

The Glass Furnace Model (GFM) The Glass Furnace Model (GFM) Version 4.0, a computational fluid dynamic (CFD) glass furnace simulation code was developed at Argonne ...

307

CI Announces Globus Genomics | Argonne National Laboratory  

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CI Announces Globus Genomics April 9, 2013 Tweet EmailPrint The ArgonneUniversity of Chicago Computation Institute has announced a new sequencing analysis service called Globus...

308

Argonne Transportation - TransForum Intro  

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PSAT Smart Grid Student Competitions Technology Analysis Transportation Research and Analysis Computing Center Working With Argonne Contact TTRDC TransForum Banner TransForum is...

309

Life at Argonne | Argonne National Laboratory  

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Benefits Apply for a Job Connect with Argonne LinkedIn Facebook Twitter YouTube Google+ More Social Media Life at Argonne What's it like to work at Argonne? You've come...

310

Media Contacts | Argonne National Laboratory  

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Media Contacts Media Contacts Steve McGregor Argonne National Laboratory Stephen McGregor is manager of media relations for Argonne. Contact him at (630) 252-5580 or media@anl.gov. Joseph Bernstein Argonne National Laboratory Joseph Bernstein is the communications lead for Physical Sciences and Engineering. Contact him at (630) 252-7268 or media@anl.gov. Angela Hardin Argonne National Laboratory Angela Hardin is a media relations specialist who covers transportation, energy research and tech transfer at the lab. Contact her at (630) 252-5501 or media@anl.gov. Jared Sagoff Argonne National Laboratory Jared Sagoff is a media relations specialist who covers national security, environment and life sciences, computing and fundamental sciences research. Contact him at (630) 252-5549 or media@anl.gov.

311

Argonne TDC: Contact Us - Argonne National Laboratory  

How to Contact Us. For industrial inquiries such as information about working with Argonne, and the availability of Argonne technologies, please contact:

312

Argonne TDC: Caterpillar - Argonne National Laboratory  

A new facility at Argonne, ... Argonne has many types of contractual agreements to meet the needs and interests of industry, state and local governments, ...

313

Visual Analysis of I/O System Behavior for HighEnd Computing  

E-Print Network (OSTI)

at the Argonne Leadership Computing Facility (ALCF). On the ALCF systems, we use the 40-rack Intrepid Blue Gene network. When tracing applications in the ALCF environment, we set up a temporary PVFS2 storage cluster by the ALCF. The extra compute nodes we al- locate for the I/O software are accessible only by our application

Islam, M. Saif

314

Working Remotely | Argonne National Laboratory  

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Working Remotely Working Remotely Remote Access Use VPN to access Argonne resources Wake up your computer if power management policies have been applied Connect to your work computer by using Remote Desktop Communications Log into web-based e-mail Outlook Zimbra Send instant messages with Jabber Use Argonne's voice mail and teleconferencing services Use Adobe Connect for web conferencing E-Mail Client and Mobile Device Configuration Changes for Exchange 2010 Cyber Security Secure your home computers Passwords MyPassword Change your password Choosing a good password Other Tools Upload a file for retrieval by others (login required) Argonne SharePoint Server (login required) Inside Argonne (accessible onsite or through VPN) Focal Point Management Blog (accessible onsite or through VPN)

315

Superlative Supercomputers: Argonne's Mira to Accelerate Scientific  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Superlative Supercomputers: Argonne's Mira to Accelerate Superlative Supercomputers: Argonne's Mira to Accelerate Scientific Discoveries, Societal Benefits Superlative Supercomputers: Argonne's Mira to Accelerate Scientific Discoveries, Societal Benefits December 2, 2011 - 2:01pm Addthis This is a computer simulation of a Class 1a supernova. Argonne National Laboratory's Mira will have enough computing power to help researchers run simulations of exploding stars, specifically, of the turbulent nuclear combustion that sets off type 1a supernovae. | Photo courtesy of Argonne National Laboratory This is a computer simulation of a Class 1a supernova. Argonne National Laboratory's Mira will have enough computing power to help researchers run simulations of exploding stars, specifically, of the turbulent nuclear

316

Superlative Supercomputers: Argonne's Mira to Accelerate Scientific  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Superlative Supercomputers: Argonne's Mira to Accelerate Superlative Supercomputers: Argonne's Mira to Accelerate Scientific Discoveries, Societal Benefits Superlative Supercomputers: Argonne's Mira to Accelerate Scientific Discoveries, Societal Benefits December 2, 2011 - 2:01pm Addthis This is a computer simulation of a Class 1a supernova. Argonne National Laboratory's Mira will have enough computing power to help researchers run simulations of exploding stars, specifically, of the turbulent nuclear combustion that sets off type 1a supernovae. | Photo courtesy of Argonne National Laboratory This is a computer simulation of a Class 1a supernova. Argonne National Laboratory's Mira will have enough computing power to help researchers run simulations of exploding stars, specifically, of the turbulent nuclear

317

Postdoctoral Society of Argonne - Mission  

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Argonne National Laboratory Educational Programs Search Argonne ... Search Argonne Home > Educational Programs > Welcome Type of Appointments Postdoctoral Newsletters Postdoctoral...

318

Postdoctoral Society of Argonne - Meetings  

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Argonne National Laboratory Educational Programs Search Argonne ... Search Argonne Home > Educational Programs > Welcome Type of Appointments Postdoctoral Newsletters Postdoctoral...

319

ARGONNE NATIONAL LABORATORY  

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Performance Performance modeling for exascale autotuning: An integrated approach ∗ Prasanna Balaprakash, Stefan M. Wild, and Paul D. Hovland Mathematics and Computer Science Division Preprint ANL/MCS-P5000-0813 July 2013 ∗ Support for this work was provided through the SciDAC program funded by U.S. Department of Energy, Office of Science, Advanced Scientific Computing Research, under Contract No. DE-AC02-06CH11357. 1 Performance modeling for exascale autotuning: An integrated approach Prasanna Balaprakash ∗ , Stefan M. Wild, and Paul D. Hovland Mathematics and Computer Science Division, Argonne National Laboratory, Argonne, IL 60439 The usual suspects-shrinking integrated circuit feature sizes, heterogeneous nodes with many- core processors, deep memory hierarchies, an ever-present power wall, energy efficiency demands, and resiliency concerns-make exascale

320

Argonne TTRDC - Green Racing - Home  

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* Home * Home * Photo Gallery * Results and Recaps GREET Hybrid Electric Vehicles Hydrogen & Fuel Cells Materials Modeling, Simulation & Software Plug-In Hybrid Electric Vehicles PSAT Smart Grid Student Competitions Technology Analysis Transportation Research and Analysis Computing Center Working With Argonne Contact TTRDC Green Racing at Argonne green racing track What is Green Racing? green racing Left to right: chief crew mechanic Mark Jones, team owner Marty Zehr, driver Dalton Zehr, Circle Track magazine editor Robert Fisher, Argonne researcher Forrest Jehlik, electrical engineer Danny Bocci. green racing simulator Green Racing Simulator green racing sim trailer Green Racing Simulator Trailer Exhibit Green Racing uses motor sport competitions as a platform to help rapidly

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321

Argonne's Vulnerability  

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finding finding and fixing security flaws Argonne's Vulnerability assessment Team VAT researchers spend their workdays devising and demonstrating ways to defeat a wide variety of security devices, systems, and programs, ranging from electronic voting machines and global positioning systems (GPS) to nuclear safeguards programs and biometrics-based access control. This involves analyzing the security features, reverse-engineering the technology or

322

Chicago-area SIAM student chapters visit Argonne | Argonne National  

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Chicago-area SIAM student chapters visit Argonne Chicago-area SIAM student chapters visit Argonne May 10, 2013 Tweet EmailPrint Forty undergraduate students, graduate students, and postdocs from Chicago-area SIAM chapters visited Argonne's Mathematics and Computer Science (MCS) Division on April 12 for a look into some of the exciting applied mathematics research being performed at the laboratory. The morning included ten "research vignettes" presented by MCS staff. Scalable power grid dynamics simulation (Shrirang Abhyankar) Data science for scientific computing: Learning and intelligent optimization (Prasanna Balaprakash) Parallel multigrid solvers (Jed Brown) Large-scale Gaussian process calculation without matrix factorizations (Jie Chen) Scaling computational fluid dynamics beyond a million cores (Paul

323

Argonne researcher and his colleagues receive best paper prize | Argonne  

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Argonne researcher and his colleagues receive best paper prize Argonne researcher and his colleagues receive best paper prize November 21, 2013 Tweet EmailPrint Sven Leyffer, senior computational mathematician in Argonne National Laboratory's Mathematics and Computer Science Division, and his colleagues Chungen Shen of Shanghai Finance University and Roger Fletcher of the University of Dundee received the 2012 Best Paper Prize for their paper "A nonmonotone filter method for nonlinear optimization." The paper, which appeared in the international journal Computational Optimization and Applications, was chosen by the editorial board from more than 130 papers. An article about the award-winning paper is featured in the November 2013 issue of the journal. "Our aim was to develop a method that avoided the use of old filter

324

Mentoring | Argonne National Laboratory  

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and career development, to formal sponsorships. Resources are provided by Argonne's Gender Diversity Specialist and are shared via Argonne's Mentoring Blog. Excellence in...

325

Argonne Accelerator Institute  

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Accelerators at Argonne Argonne has a long and continuing history of participation in accelerator based, and user oriented facilities. The Zero-Gradient Synchrotron, which began...

326

Argonne Accelerator Institute  

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Welcome Accelerators at Argonne Mission Organization History Document Collection Conferences & Workshops Beams and Applications Seminar Argonne-Fermilab Collaboration Lee Teng...

327

Outreach | Argonne National Laboratory  

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labs Mississippi Public Radio Featured Multimedia Argonne OutLoud Public Lecture Series: Nuclear Energy Argonne OutLoud Public Lecture Series 3: Unraveling the Higgs Boson...

328

Argonne Accelerator Institute  

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Argonne Accelerator Institute: Mission The mission of the Argonne Accelerator Institute is centered upon the following related goals: Locate next generation accelerator facilities...

329

Procurement | Argonne National Laboratory  

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Video "Doing business with Argonne and Fermi national labs" - Aug. 21, 2013 Procurement Argonne spends approximately 300,000,000 annually through procurements to a diverse group...

330

Careers | Argonne National Laboratory  

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for a Job External Applicants Internal Applicants Postdoctoral Applicants Students Why Argonne Your Career Life at Argonne Benefits Apply for a Job FAQs Answers to frequently asked...

331

Argonne Accelerator Institute  

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Fermilab Collaboration Lee Teng Scholarship Program Useful Links Argonne Accelerator Institute: For Industrial Collaborators -- Working with Argonne This link is addressed to...

332

Argonne Accelerator Institute  

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HEARTHFIRE - Inertial Confinement Fusion (1974 - 1980 at Argonne) At Argonne, the concept of using intense pulsed proton or deuteron beams for inertial confinement fusion (ICF) of...

333

Argonne Software Shop  

Argonne Software Shop. Argonne's researchers have created a wealth of powerful software and models with broad-ranging applications. In addition to ...

334

Argonne Transportation Current News  

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Jeff Chamberlain Argonne's Jeff Chamberlain testifies before Congress on grid technology Power grid Argonne's George Crabtree co-chairs new APS study Integrating Renewable...

335

Charlie Catlett | Argonne National Laboratory  

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Charlie Catlett Charlie Catlett Senior Computer Scientist Charlie Catlett is a Senior Computer Scientist at Argonne National Laboratory, a U.S. Department of Energy scientific research laboratory. Catlett is also a Senior Fellow at the Computation Institute of the University of Chicago and Argonne National Laboratory, and a Visiting Artist at the School of the Art Institute of Chicago. He served as Argonne's Chief Information Officer from 2007-2011. From 2004 through 2007, he was director of the TeraGrid Initiative, a national-scale facility supported by the National Science Foundation. In 1999, Catlett co-founded the Global Grid Forum, (now Open Grid Forum), serving as its founding chair from October 1999 through September 2004. Concurrently, he directed the State of Illinois funded I-WIRE optical network project,

336

ASCR Science Network Requirements  

E-Print Network (OSTI)

7 4 Argonne Leadership Computing Facility (programs include the Argonne Leadership Computing Facility (the world. ASCR has LCFs at Argonne National Laboratory and

Dart, Eli

2010-01-01T23:59:59.000Z

337

Argonne's 2013 Summer Training Program a Success | Argonne Leadership...  

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will help us develop technologies that solve real problems faced by the HPC community." Jordan Musser Jordan works as research engineer in the DOE's National Energy Technology...

338

Argonne TDC: Ceramicrete - Argonne National Laboratory  

Ceramicrete: Chemically Bonded Ceramic. Argonne National Laboratory has developed a novel, versatile phosphate ceramic, called Ceramicrete, with many different ...

339

High-Speed Combustion and Detonation Project Scaling Up for Mira | Argonne  

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High-Speed Combustion and Detonation Project Scaling Up for Mira High-Speed Combustion and Detonation Project Scaling Up for Mira March 26, 2013 Printer-friendly version Researchers at the Argonne Leadership Computing Facility (ALCF) are simulating the high-speed combustion and detonation of hydrogen-oxygen mixtures to enable safer and more widespread use of hydrogen as an alternative fuel. This is one of 16 projects in the ALCF's Early Science Program (ESP), which is aimed at preparing key scientific applications for the architecture and scale of Mira, Argonne's new 10-petaflop IBM Blue Gene/Q supercomputer. Using pre-production time on Mira for real scientific problems, these projects vet the system and gather knowledge that will help future projects take full advantage of Mira's vastly increased power and capabilities when it goes into production later this year.

340

Development Testing of the Global Climate Model CESM/CAM | Argonne  

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Development Testing of the Global Climate Model CESM/CAM Development Testing of the Global Climate Model CESM/CAM Event Sponsor: Argonne Leadership Computing Facility Seminar Start Date: Dec 16 2013 - 10:30am Building/Room: Building 240/Room 4301 Location: Argonne National Laboratory Speaker(s): Chris A. Fischer Speaker(s) Title: National Center for Atmospheric Research The Community Earth System Model (CESM) and Community Atmosphere Model (CAM) are community models involving several different developers. With so many different developers it becomes imperative to carry out continuous testing during development. I'll provide a brief introduction to CESM and CAM then cover the testing that is being carried out on both. The Community Earth System Model (CESM) is a global climate model used to predict past, present and future climates. CESM is a fully couple model,

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341

Argonne TDC: Licensing Intellectual Property from Argonne National...  

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Property from Argonne National Laboratory Argonne's licensing program provides companies with opportunities to acquire rights in Argonne inventions and copyrights. Licenses...

342

Supporting Computational Data Model Representation with High-performance I/O in Parallel netCDF  

E-Print Network (OSTI)

staycompetitive Argonne Leadership Computing Facility industry@alcf.anl.gov #12;MIRA RANKS third on the TOP500, and create more accurate models for your business with Mira, the ALCF's new petascale IBM Blue Gene/Q system, ALCF Science Director CUTTING-EDGE SUPERCOMPUTING KEEPS YOU COMPETITIVE A key driver of our nation

Choudhary, Alok

343

Maricris Mayes, Graham D. Fletcher, Yuri Alexeev Argonne National Laboratory  

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and Benchmarking and Benchmarking GAMESS quantum chemistry code on Mira Maricris Mayes, Graham D. Fletcher, Yuri Alexeev Argonne National Laboratory Leadership Computing Facility Mark S. Gordon Iowa State University Outline § Introduction - Motivation - Overview of ab initio MD and quantum chemistry - GAMESS - Fragment Molecular Orbital § Performance on Mira § What is enabled by Mira over Intrepid? § Code Modifications, New Algorithm: RATTLE Towards High-Accurate Predictions of Bulk Properties of Water Motivation: Ø the current state of theory and modeling of water is insufficient Ø structure and dynamics of the H-bonding network in water has not been resolved Towards High-Accurate Predictions of Bulk Properties of Water Plan: Ø perform

344

Argonne GREET Model  

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Laboratory Transportation Technology R&D Center DOE Logo Laboratory Transportation Technology R&D Center DOE Logo About TTRDC Mission Experts Facilities Tools Publications Awards Media Center Site Index Search TTRDC ... Search Argonne Home > Transportation Technology R & D Center > Modeling_simulation > Alternative Fuels Autonomie Batteries Engines Green Racing ... ... GREET * Fuel-Cycle Model * Power Water Model * Copyright Statement * Mini-tool and Results * Vehicle-Cycle Model * Publications * AFLEET Tool * Fleet Footprint Calculator * Travel Carbon Calculator * Workshops * Contact ... ... Hybrid Electric Vehicles Hydrogen & Fuel Cells Materials Modeling, Simulation & Software Plug-In Hybrid Electric Vehicles PSAT Smart Grid Student Competitions Transportation Research and Analysis Computing Center

345

Nuclear Structure and Nuclear Reactions | Argonne Leadership...  

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value of 92.16 MeV and the point rms radius is 2.35 fm vs 2.33 from experiment. Nuclear Structure and Nuclear Reactions PI Name: James Vary PI Email: jvary@iastate.edu...

346

Nuclear Structure and Nuclear Reactions | Argonne Leadership...  

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the ab initio no-core full configuration approach," Phys. Rev. C 86, 034325 (2012) Nuclear Structure and Nuclear Reactions PI Name: James Vary PI Email: jvary@iastate.edu...

347

Intrepid / Challenger / Eureka File Systems | Argonne Leadership...  

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IntrepidChallengerSurveyor Decommissioning of BGP Systems and Resources Introducing Challenger Quick Reference Guide System Overview Data Transfer Data Storage & File Systems...

348

Argonne TDC: South Bay Technologies - Argonne National Laboratory  

... transmission, scanning ... "The bottom line is that the Argonne Technical Services Program made it possible for us to transfer Argonne ...

349

Argonne Transportation - 2008 Features Archive  

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8 Features Archive 8 Features Archive Battery Test Facility Since 1976, researchers have used Argonne's Electrochemical Analysis and Diagnostics Laboratory to study advanced battery systems for applications such as hybrid and plug-in hybrid electric vehicles and utility load-leveling during peak demand periods. The facility houses a computer-operated test laboratory, where individual cells and multicell modules of battery systems are subjected to performance and lifetime tests under simulated real-world conditions. (More...) EnerDel/Argonne Advanced High-Power Battery for Hybrid Electric Vehicles The EnerDel/Argonne lithium-ion battery is a highly reliable and extremely safe device that is lighter in weight, more compact, more powerful and longer-lasting than the nickel-metal hydride (Ni-MH) batteries in today's hybrid electric vehicles (HEVs). (More...)

350

Argonne Accelerator Institute  

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AAI Home AAI Home Welcome Accelerators at Argonne Mission Organization History Document Collection Conferences & Workshops Beams and Applications Seminar Argonne-Fermilab Collaboration Lee Teng Scholarship Program Useful Links Argonne Accelerator Institute In 2006, Argonne Laboratory Director Robert Rosner formed the AAI as a focal point for accelerator initiatives. The institute works to utilize Argonne's extensive accelerator resources, to enhance existing facilities, to determine the future of accelerator development and construction, and to oversee a dynamic and acclaimed accelerator physics portfolio. More Information for: Members * Students Industrial Collaborators - Working with Argonne Link to: Accelerators for America's Future Upcoming Events and News 4th International Particle Accelerator Conference (IPAC'13)

351

Argonne TDC: PCx Overview - Argonne National Laboratory  

More Information. More technical information. . . To license PCx from Argonne, print a copy of the agreement, arrange for signature by your organization, and send the ...

352

Argonne TDC: Packer Engineering - Argonne National Laboratory  

Simulation work with small business leads to 250 jobs in Illinois. Packer Engineering Naperville, IL. Packer Engineering worked with Argonne to share advanced ...

353

Argonne TDC: Phase Metrics - Argonne National Laboratory  

A magneto-optical imaging capability developed by Argonne, Phase Metrics, and the Institute of Solid State Physics (Moscow, Russia) could be the key to developing ...

354

Argonne TDC: Magneco Metrel - Argonne National Laboratory  

Castable ceramic allows small business to add jobs, increase sales. Magneco/Metrel Addison, IL. Magneco/Metrel, Inc., and Argonne have worked together to make better ...

355

Argonne TDC: Ombudsman - Argonne National Laboratory  

Ombudsman. The ombudsman assigned to Argonne National Laboratory will: Serve as a point of contact for the public as an independent and impartial person that can ...

356

Argonne TDC: Blake Industries - Argonne National Laboratory  

New configuration leads to popular new instrument. Blake Industries Scotch Plain, NJ. Argonne materials scientists needed a new type of two-circle diffractometer ...

357

Argonne TDC: Ionwerks Corporation - Argonne National Laboratory  

CRADA gives small business a new market. Ionwerks Corporation Houston, TX. Joint research by Ionwerks Corporation and Argonne has given this small business new market ...

358

Two ALCF Projects Win HPC Innovation Excellence Awards | Argonne...  

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conference. The awards recognize noteworthy achievements by users of high performance computing (HPC) technologies. Both institutions use HPC resources at Argonne...

359

Downloads - Nuclear Engineering Division (Argonne)  

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Assessment Team (VAT) Argonne's National Security Information Systems Argonne's Facility Decommissioning Training Course Reactor Safety Experimentation Nuclear Energy Advanced...

360

Robert Jacob | Argonne National Laboratory  

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Jacob Jacob Computational Climate Scientist Robert Jacob is a computational climate scientist in the Mathematics and Computer Science Division of Argonne National Laboratory and a Fellow in the University of Chicago/Argonne Computation Institute. Jacob is the co-developer of the Model Coupling Toolkit which is used as the foundation coupling technology in the Community Climate System Model. He is also the lead developer of the Fast Ocean Atmosphere Model, a climate model used extensively in studies of paleoclimate and decadal variability. Jacob received his Ph.D. from the University of Wisconsin-Madison in Atmospheric Science in 1997. From 1998 to 2000 he held postdoctoral positions at the University of Wisconsin and at the Department of the Geophysical Sciences at the University of Chicago. He is a member of the

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While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
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to obtain the most current and comprehensive results.


361

Argonne National Laboratory - Reports  

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Reports Reports Argonne National Laboratory Activity Reports 2012 Operational Awareness Oversight of the Argonne National Laboratory Alpha-Gamma Hot Cell Facility, July 2012 Review Reports 2011 Review of the Argonne National Laboratory Alpha-Gamma Hot Cell Facility Readiness Assessment (Implementation Verification Review Sections), November 2011 Nuclear Safety Enforcement Regulatory Assistance Review of UChicago Argonne, LLC at the Argonne National Laboratory, October 3, 2011 Activity Reports 2011 Orientation Visit to the Argonne National Laboratory, August 2011 Review Reports 2005 Independent Oversight Inspection of Environment, Safety and Health Programs at Argonne National Laboratory, Summary Report, Vol. 1, May, 2005 Independent Oversight Inspection of Environment, Safety, and Health Programs at the Argonne National Laboratory, Technical Appendices, Volume II, May 2005

362

Contract | Argonne National Laboratory  

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Argonne's Prime Contract is the contract between the U.S. Department of Argonne's Prime Contract is the contract between the U.S. Department of Energy and UChicago Argonne, LLC that sets out the terms and conditions for the operation of Argonne National Laboratory. Please direct general comments and questions about the Argonne Prime Contract to William Luck. Navigation Tips Listed below are tips on navigating through the Argonne Prime Contract. The navigation menu contains the currently available options. Select the main Argonne Prime Contract at any time to return to the main menu. When searching the text of the Argonne Prime Contract, the previous/next hit buttons will take you to the previous/next occurrence of your search term(s) in the current section. Search Table of Contents Advanced Search List of Modifications List of Appendices

363

Argonne Open House 2009  

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Argonne Open Argonne Open House 2009 Welcome Organization Visit Argonne Work with Argonne Contact us For Employees Site Map Help Join us on Facebook Follow us on Twitter NE on Flickr Celebrating the 70th Anniversary of Chicago Pile 1 (CP-1) Argonne OutLoud on Nuclear Energy Argonne Energy Showcase 2012 Argonne Open House 2009 Bookmark and Share THANK YOU! The Nuclear Engineering Division thanks all participants which contributed to make a success of the Open House event. Argonne opened its gates to the community on Saturday, August 29, from 9am to 4:30pm. NE actively participated in this event with activities inside and outside Building 208, the home of the Nuclear Engineering Division. Inside building 208 KEYWORDS: Nuclear Engineering; National Security; Environment, Safety and Health

364

ARGONNE NATIONAL LABORATORY is....  

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Scattering June 12-18, 2010 - Argonne National Laboratory June 19-26, 2010 - Oak Ridge National Laboratory Argonne National Laboratory is a U.S. Department of Energy laboratory...

365

Argonne National Laboratory Annual Report of Laboratory Directed Research and Development program activities FY 2010.  

DOE Green Energy (OSTI)

As a national laboratory Argonne concentrates on scientific and technological challenges that can only be addressed through a sustained, interdisciplinary focus at a national scale. Argonne's eight major initiatives, as enumerated in its strategic plan, are Hard X-ray Sciences, Leadership Computing, Materials and Molecular Design and Discovery, Energy Storage, Alternative Energy and Efficiency, Nuclear Energy, Biological and Environmental Systems, and National Security. The purposes of Argonne's Laboratory Directed Research and Development (LDRD) Program are to encourage the development of novel technical concepts, enhance the Laboratory's research and development (R and D) capabilities, and pursue its strategic goals. projects are selected from proposals for creative and innovative R and D studies that require advance exploration before they are considered to be sufficiently developed to obtain support through normal programmatic channels. Among the aims of the projects supported by the LDRD Program are the following: establishment of engineering proof of principle, assessment of design feasibility for prospective facilities, development of instrumentation or computational methods or systems, and discoveries in fundamental science and exploratory development.

(Office of The Director)

2012-04-25T23:59:59.000Z

366

Argonne National Laboratory Annual Report of Laboratory Directed Research and Development program activities FY 2011.  

DOE Green Energy (OSTI)

As a national laboratory Argonne concentrates on scientific and technological challenges that can only be addressed through a sustained, interdisciplinary focus at a national scale. Argonne's eight major initiatives, as enumerated in its strategic plan, are Hard X-ray Sciences, Leadership Computing, Materials and Molecular Design and Discovery, Energy Storage, Alternative Energy and Efficiency, Nuclear Energy, Biological and Environmental Systems, and National Security. The purposes of Argonne's Laboratory Directed Research and Development (LDRD) Program are to encourage the development of novel technical concepts, enhance the Laboratory's research and development (R and D) capabilities, and pursue its strategic goals. projects are selected from proposals for creative and innovative R and D studies that require advance exploration before they are considered to be sufficiently developed to obtain support through normal programmatic channels. Among the aims of the projects supported by the LDRD Program are the following: establishment of engineering proof of principle, assessment of design feasibility for prospective facilities, development of instrumentation or computational methods or systems, and discoveries in fundamental science and exploratory development.

(Office of The Director)

2012-04-25T23:59:59.000Z

367

Argonne National Laboratory Annual Report of Laboratory Directed Research and Development program activities FY 2010.  

SciTech Connect

As a national laboratory Argonne concentrates on scientific and technological challenges that can only be addressed through a sustained, interdisciplinary focus at a national scale. Argonne's eight major initiatives, as enumerated in its strategic plan, are Hard X-ray Sciences, Leadership Computing, Materials and Molecular Design and Discovery, Energy Storage, Alternative Energy and Efficiency, Nuclear Energy, Biological and Environmental Systems, and National Security. The purposes of Argonne's Laboratory Directed Research and Development (LDRD) Program are to encourage the development of novel technical concepts, enhance the Laboratory's research and development (R and D) capabilities, and pursue its strategic goals. projects are selected from proposals for creative and innovative R and D studies that require advance exploration before they are considered to be sufficiently developed to obtain support through normal programmatic channels. Among the aims of the projects supported by the LDRD Program are the following: establishment of engineering proof of principle, assessment of design feasibility for prospective facilities, development of instrumentation or computational methods or systems, and discoveries in fundamental science and exploratory development.

(Office of The Director)

2012-04-25T23:59:59.000Z

368

Argonne National Laboratory Annual Report of Laboratory Directed Research and Development program activities FY 2011.  

SciTech Connect

As a national laboratory Argonne concentrates on scientific and technological challenges that can only be addressed through a sustained, interdisciplinary focus at a national scale. Argonne's eight major initiatives, as enumerated in its strategic plan, are Hard X-ray Sciences, Leadership Computing, Materials and Molecular Design and Discovery, Energy Storage, Alternative Energy and Efficiency, Nuclear Energy, Biological and Environmental Systems, and National Security. The purposes of Argonne's Laboratory Directed Research and Development (LDRD) Program are to encourage the development of novel technical concepts, enhance the Laboratory's research and development (R and D) capabilities, and pursue its strategic goals. projects are selected from proposals for creative and innovative R and D studies that require advance exploration before they are considered to be sufficiently developed to obtain support through normal programmatic channels. Among the aims of the projects supported by the LDRD Program are the following: establishment of engineering proof of principle, assessment of design feasibility for prospective facilities, development of instrumentation or computational methods or systems, and discoveries in fundamental science and exploratory development.

(Office of The Director)

2012-04-25T23:59:59.000Z

369

Argonne Transportation Current News  

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materials (pdf) clean cities logo Clean Cities Transportation Workshop for Almaty, Kazakhstan Jeff Chamberlain Jeff Chamberlain discusses Argonne's breakthrough cathode...

370

Downloads | Argonne National Laboratory  

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Science Writing Internship Downloads Topic - Any - General Argonne Information Energy -Energy efficiency --Vehicles ---Alternative fuels ---Biofuels ---Diesel ---Fuel economy...

371

Postdoctoral Society of Argonne - Career Fair  

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Argonne National Laboratory Educational Programs Search Argonne ... Search Argonne Home > Educational Programs > Welcome Type of Appointments Postdoctoral Newsletters Postdoctoral...

372

Argonne Accelerator Institute  

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AAI Home AAI Home Welcome Accelerators at Argonne Mission Organization History Document Collection Conferences & Workshops Beams and Applications Seminar Argonne-Fermilab Collaboration Lee Teng Scholarship Program Useful Links Organization The Argonne Accelerator Institute is a matrixed organization. Its members and fellows reside in programmatic Argonne divisions. The Institute reports to the Associate Laboratory Director for Photon Science), and the administrative functions of the Institute are within the PSC directorate. Director: Rodney Gerig Associate Director: Hendrik Weerts ( Director of High Energy Physics Division) Associate Director: Sasha Zholents (Director of Accelerator Systems Division) Associate Director: Robert Janssens ( Director of Argonne Physics Division)

373

Congratulations for jobs well done! | Argonne National Laboratory  

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Award. Internationally renowned for her outstanding technical contributions and leadership in high-performance computing and computational science, Lois has played a key...

374

NANOCOMPOSITES AND ORGANOCLAYS - Argonne National Laboratory ...  

LINKS TO ONLINE INFORMATION: How to license Argonne technologies: http://www.anl.gov/ Working_with_Argonne/index.html Argonnes Chemical Engineering Division:

375

Paul Fischer | Argonne National Laboratory  

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Fischer Fischer Senior Computational Scientist Research Interests Numerical Methods for PDEs Multi-million element, billion-gridpoint spectral element simulations . Fluid Dynamics and Heat Transfer Computational fluid dynamics Parallel algorithms High-performance computing Spectral and finite element methods Iterative and direct matrix solvers SHARP Thermal Striping An interesting conduction problem Spectral element simulations More spectral element simulations Schwarz error animator by Zuki Gottlieb Turbulence in a Carotid Artery Turbulence in a Random Array of Spheres Turbulent Flow in a Rod Bundle ME528 Course Material News Three MCS Researchers Receive the 2007 DOE INCITE Awards Argonne scientist Paul Fischer named AAAS fellow for contributions to computational fluid dynamics

376

Department of Energy National Laboratories and Plants: Leadership in Cloud Computing (Book)  

SciTech Connect

A status report on the cloud computing strategy for each Department of Energy laboratory and plant, showing the movement toward a cloud first IT strategy.

Not Available

2012-12-01T23:59:59.000Z

377

Creating science-driven computer architecture: A new path to scientific leadership  

SciTech Connect

This document proposes a multi-site strategy for creating a new class of computing capability for the U.S. by undertaking the research and development necessary to build supercomputers optimized for science in partnership with the American computer industry.

McCurdy, C. William; Stevens, Rick; Simon, Horst; Kramer, William; Bailey, David; Johnston, William; Catlett, Charlie; Lusk, Rusty; Morgan, Thomas; Meza, Juan; Banda, Michael; Leighton, James; Hules, John

2002-10-14T23:59:59.000Z

378

Argonne in the marketplace: Ultrananocrystalline diamond | Argonne...  

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AVAILABLE FOR LICENSING Many more Argonne innovations are available for licensing. Here's just a few: Cleaner diesel emissions The diesel DeNOx catalyst removes 80-85% of nitrogen...

379

Science-driven system architecture: A new process for leadership class computing  

E-Print Network (OSTI)

eds. , DOE Office of Science, Washington, D.C. , 2003. J.et al. , Creating Science-Driven Computer Architecture: AWashington, D.C. , 2003. A Science-Based Case for Large-

2004-01-01T23:59:59.000Z

380

2013 Argonne Regional Science Bowl | Argonne National Laboratory  

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Argonne Regional Science Bowl Argonne Regional Science Bowl 2013 1 of 14 Argonne Regional Science Bowl 2013 Fifteen teams from across the Midwest competed on Feb. 9, 2013, in one...

Note: This page contains sample records for the topic "argonne leadership computing" from the National Library of EnergyBeta (NLEBeta).
While these samples are representative of the content of NLEBeta,
they are not comprehensive nor are they the most current set.
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to obtain the most current and comprehensive results.


381

Argonne battery technology helps power Chevy Volt | Argonne National...  

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Argonne battery technology helps power Chevy Volt Intense, in-situ X-rays from the Advanced Photon Source at Argonne were used to help Argonne National Laboratory design the...

382

Argonne Accelerator Institute  

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The Argonne Accelerator History Document Collection The Argonne Accelerator History Document Collection The Argonne Accelerator Institute (AAI) has established a special collection of archived documents which describe notable Argonne accelerator work of the past 50 years. A list of such Argonne Accelerator Projects is given below. Each project is described briefly, with links to archived documents in this collection. This collection includes important Argonne accelerator documents which may have become difficult to locate, as well as ones which have broad scope. In keeping with its historical purpose, this collection only covers work done 10 or more years ago. Many of the listed documents are available online. We hope to make more of them available online in the future. [For several of the projects, interesting additional online documents can be found by

383

Science | Argonne National Laboratory  

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The Argonne Research Library supports the scientific and technical research The Argonne Research Library supports the scientific and technical research of the employees of Argonne National Laboratory. While the library is not open to the public, we do make our catalog available for searching. The Institute for Molecular Engineering explores innovative technologies that address fundamental societal problems through advances in nanoscale manipulation and design at a molecular scale. Women in Science and Technology (WIST) aims to promote the success of women in scientific and technical positions at Argonne. Science The best and brightest minds come to Argonne to make scientific discoveries and technological innovations that improve the quality of life throughout the nation and the world. The best and brightest minds come to Argonne.

384

Leadership | Department of Energy  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

Leadership Leadership Organization Leadership Budget Laboratories & Facilities History Benefits of Research Business & Funding Opportunities ESS&H Jobs & Internships Education...

385

OutLoud | Argonne National Laboratory  

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Public Lecture Series Public Lecture Series "Argonne OutLoud" - our public lecture series - highlights the cutting-edge research taking place at Argonne and topics of interest to the community at large. Lectures are free and open to the public. Advance registration is required. Argonne National Laboratory and the Chicago Council on Science and Technology present the latest edition of Argonne OutLoud, the lab's public lecture series, featuring Dr. Amanda Petford-Long and Adam Khan, presenting: "The Nature of Nano" Thursday, Jan. 30, 2014 6:30 - 7:00 p.m. Reception 7:00 - 8:00 p.m. Talk and Q&A From tennis rackets to sunscreen, from stained glass windows to computer memory, the applications of nanoscale materials research are all around us. New television displays, cell phones and other digital devices incorporate

386

Push technology at Argonne National Laboratory.  

SciTech Connect

Selective dissemination of information (SDI) services, also referred to as current awareness searches, are usually provided by periodically running computer programs (personal profiles) against a cumulative database or databases. This concept of pushing relevant content to users has long been integral to librarianship. Librarians traditionally turned to information companies to implement these searches for their users in business, academia, and the science community. This paper describes how a push technology was implemented on a large scale for scientists and engineers at Argonne National Laboratory, explains some of the challenges to designers/maintainers, and identifies the positive effects that SDI seems to be having on users. Argonne purchases the Institute for Scientific Information (ISI) Current Contents data (all subject areas except Humanities), and scientists no longer need to turn to outside companies for reliable SDI service. Argonne's database and its customized services are known as ACCESS (Argonne-University of Chicago Current Contents Electronic Search Service).

Noel, R. E.; Woell, Y. N.

1999-04-06T23:59:59.000Z

387

President Obama visits Argonne - March 15, 2013 | Argonne National...  

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Obama visits Argonne On March 15, 2013, President Barack Obama visited Argonne to tour lab facilities and discuss America's energy policies during a news conference. Photo...

388

Argonne TDC: ConSolve, Inc - Argonne National Laboratory  

ConSolve, Inc. and Argonne worked together to commercialize Argonne's PLUME software for hazardous waste characterization. The software was licensed to ConSolve and ...

389

Argonne Accelerator Institute  

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Useful Links Useful Links Argonne National Laboratory Accelerator Sites Conferences Advanced Photon Source (APS) Argonne Wakefield Accelerator (AWA) Argonne Tandem Linear Accelerator System (ATLAS) High Energy Physics Division RIA (????) Link to JACoW (Joint Accelerator Conferences Website) Fermi National Accelerator Laboratory Fermilab-Argonne Collaboration Accelerator Physics Center Workshops Other Accelerator Institutes Energy Recovering Linacs Center for Advance Studies of Accelerators (Jefferson Labs) Center for Beam Physics (LBNL) Accelerator Test Facility (BNL) The Cockcroft Institute (Daresbury, UK) John Adams Institute (Rutherford, UK) ERL2009 to be held at Cornell ERL2007 ERL2005 DOE Laboratory with Accelerators Fermilab Stanford Linear Accelerator Center Brookhaven National Laboratory

390

Our World Argonne's  

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At Argonne National Laboratory, we passionately pursue At Argonne National Laboratory, we passionately pursue energy-efficient technologies and renewable energy innovations that contribute to a better, cleaner future for all. Energy to Renew Our World Argonne's Research in Energy Efficiency and Renewable Energy As we begin our journey into the 21st century, the U.S. Department of Energy's (DOE) Argonne National Laboratory continues to make significant contributions to the nation's health and well being by delivering achievements in energy technology development and deployment. We are working toward technological

391

Awards | Argonne National Laboratory  

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innovative technologies they develop with their research teams and in association with industry partners. Argonne researchers have received or been recognized by: R&D 100...

392

News | Argonne National Laboratory  

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News Argo exascale architecture Click on image to enlarge. Designing a new operating system for exascale architectures Full Story Argonne National Laboratory has been awarded a...

393

Amenities | Argonne National Laboratory  

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your career flourish. Amenities on-site at Argonne include Credit Union Hotel and Restaurant Cafeteria Child Care Bike Share Program Recreational Park Fitness Center Learn More...

394

Argonne Physics Division - ATLAS  

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National Laboratory Michael Carpenter Argonne National Laboratory Alexandra Gade Michigan State University John Hardy (Chair) Texas A&M University Walter Loveland Oregon State...

395

Argonne TDC: Baxter - ANL  

Michael Pellin (left) and Dieter Gruen (both of Argonne's Materials Sciences Division) co-discovered the medical applications of the excimer laser with the late ...

396

Argonne Accelerator Institute  

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(1971). (Located in the Argonne Research Library) Lee Teng Autobiography: Accelerators and I, Beam Dynamics Newsletter, No. 35, p 8-19, December (2004). (Located in Beam...

397

Argonne Accelerator Institute  

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- Document Access Guide ATLAS: A Proposal for a Precision Heavy Ion Accelerator, Argonne National Laboratory, February (1978). (Located in the DOE Information Bridge) The...

398

Argonne TTRDC - News Story  

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Markets for Fuel Cell and Natural Gas Vehicles (P12-6345) Mintz, Marianne Millar - Argonne National Laboratory Dynamic Origin-Destination Demand Flow Estimation Under Congested...

399

Argonne Physics Division - ATLAS  

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(or 630-252-1911 on cell phones) Safety Aspects of radiation safety at ATLAS: Health Physics Coverage at ATLAS is provided by Argonne National Laboratory. Health Physics...

400

Argonne Software Licensing: SMART  

SMART. SMART (Simple Model for ALD Reaction and Transport) is a software developed by the Atomic Layer Deposition group at Argonne National ...

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401

Pavan Balaji selected as TEDxMidwest Emerging Leader | Argonne...  

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selected as TEDxMidwest Emerging Leader May 14, 2013 Tweet EmailPrint Pavan Balaji, a computer scientist in Argonne's Mathematics and Computer Science Division, was selected as a...

402

Argonne Transportation - 2002 Features Archive  

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2 Features Archive Argonne Completes Evaluation of DOE Fuel Cell System Argonne National Laboratory has finished testing the U.S. Department of Energys (DOE's) first...

403

Postdoctoral Society of Argonne - Mission  

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Argonne a 'Best Place' for postdocs We want your microbes How to sell research for industry CSI - Special Postdoc Unit Argonne National Laboratory Educational Programs Search...

404

Argonne Transportation - 2007 Features Archive  

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7 Features Archive Argonne's Lithium-Ion Battery Technology Offers Reliability, Greater Safety Argonne's an internationally recognized leader in the development of lithium-battery...

405

Extracurricular Activities | Argonne National Laboratory  

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Extracurricular Activities Argonne Club African American Black Club Aikido Club Chess Club Chinese Association at Argonne Choral Group Engineering Golf League (AEGL) Exercise Club...

406

Argonne Transportation - 2009 Features Archive  

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Technologies Shine at Argonne's Open House On Saturday, August 29, 2009, Argonne National Laboratory hosted 22,000 visitors at an open house, the first since 2006....

407

Industrial Relations | Argonne National Laboratory  

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and introduce technologies to the private sector. How Industry Can Work with Argonne Argonne has many types of contractual agreements to meet the needs and interests of...

408

Argonne Physics Division - Theory Group  

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Argonne Theory Group: Postdoctoral Position The Theory Group in the Physics Division at Argonne National Laboratory is seeking exceptional candidates for a postdoctoral position...

409

Argonne National Laboratory | Argonne National Laboratory  

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Reel problem Reel problem Argonne is working with the Army Corps of Engineers to corral Asian carp and other aquatic nuisance species. More A wrong turn Argonne resources help determine the path to a misfolded protein that causes type 2 diabetes and other diseases. More Damage control New recommendations for using X-rays promise to speed the development of drugs. More Bright spot for sustainability A new material for solar panels could make them cheaper, more efficient. More Chasing river microbes Local government turns to Argonne to gain a better understanding of the microbiome of the Chicago River waterways. More Science Highlight Real-time capture of intermediates in enzymatic reactions Development of new pharmaceuticals could be the payoff from an experimental technique employed by researchers doing studies at the Advanced Photon

410

Argonne Transportation - GM Award  

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GM Lauds Argonne's Bob Larsen at Challenge X Competition GM Lauds Argonne's Bob Larsen at Challenge X Competition Senior executives at General Motors (GM) praised Argonne's Bob Larsen during the 2006 Challenge X Competition awards ceremony. Mark Maher, GM's Executive Director for Vehicle and Powertrain Integration, asked all GM staff to come on stage to recognize Bob's role in making the collaboration between industry and government such a success for nearly 20 years. Bob has used the vehicle competitions program as a springboard to the highest levels of the automotive industry to open many doors for Argonne, and indeed, change the entire direction of the automotive industry for the country's benefit. Bob Larsen and GM executives at Challenge X Competition. At the 2006 Challenge X Awards Ceremony, General Motors senior executives recognized Argonne's Bob Larsen for his role in making the collaboration between the auto industry and government such a success for nearly 20 years.

411

Argonne Accelerator Institute  

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Quarterly Meetings Quarterly Meetings November 29, 2011 Held at the Advanced Photon Source, Argonne, IL DOE Accelerator R&D Task Force - M. White February 17, 2010 Held at the Advanced Photon Source, Argonne, IL June 16, 2009 General Updates - R. Gerig Accelerator Developments in Physics Division - R. Janssens Proposal for Argonne SRF Facility - M. Kelly Accelerator Developments in HEP Division - W. Gai Beam Activities of the DOD Project Office-Focus on the Navy FEL - S. Biedron AAI Historical Collection - T. Fields November 24, 2008 Strategic Theme Forum Meeting - This meeting was held to gather information on the Accelerator Science and Technology Theme to establish the Argonne's Strategic Plan January 9, 2008 Opening Remarks - R. Gerig ILC Planning - J. Carwardine Argonne Participation in Project X - P. Ostroumov

412

Argonne Transportation Current News  

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Multimedia TransFORUM Magazine Subscribe to read about Argonne's advances in transportation research » flickr logo See our photos on Flickr Youtube logo View our YouTube Videos argonne logo Argonne Experts Guide Logo of google plus Video: Argonne Virtual Field Trip -- "Vehicle Electrification" Logo of BBC Future Video: How X-ray Vision Will Fuel Better Car Engines Logo of BBC Future Video: The Lab Pushing Petrol Car Engines to New Extremes Image of front end of car Video: What is EcoCAR 3? Logo of BBC Future Video: Electric Vehicles: A Universal Plug for All Models? Jon Stewart of the BBC visits Argonne's EV-Smart Grid Interoperability Center seeking answers about creating common standards for electric vehicles and charging stations. Photo of Daniel Abraham Interview: Daniel Abraham Talks to The Battery Show about Developments in Lithium-ion Battery Technology

413

Argonne Physics Division  

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RBW RBW Robert B. Wiringa (the guy on the right) phone: 630/252-6134 FAX: 630/252-6008 e-mail: wiringa@anl.gov Biographical sketch 1972 B.S., Rensselaer Polytechnic Institute 1974 M.S., University of Illinois at Urbana-Champaign 1978 Ph.D., University of Illinois at Urbana-Champaign 1978-80 Research Associate, Los Alamos Scientific Laboratory 1981-83 Research Associate, Argonne National Laboratory 1983-87 Assistant Physicist, Argonne National Laboratory 1987-99 Physicist, Argonne National Laboratory 2000- Senior Physicist, Argonne National Laboratory Visiting appointments 1993 Visiting Associate & Lecturer, California Institute of Technology Honors, Organizations, Committees, etc. 1994-2001 Chief, Theory Group, Physics Division, Argonne National Laboratory 1997-2000 Webmaster, Division of Nuclear Physics, American Physical

414

Argonne TDC: DaimlerChrysler - Argonne National Laboratory  

Strengthening the Bond: DaimlerChrysler plant adopts weld monitor developed by Argonne- industry partnership

415

paper_combined.dvi  

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of the Argonne Leadership Computing Facility at Argonne National Laboratory and the Oak Ridge Leadership Computing Facility at Oak Ridge National Laboratory, which are sup-...

416

Magellan: experiences from a Science Cloud  

E-Print Network (OSTI)

at the Argonne Leadership Computing Facility (ALCF) and theArgonne Leadership Com- puting Facility (ALCF) and the National Energy Research Scientific Computing Facility (

Ramakrishnan, Lavanya

2013-01-01T23:59:59.000Z

417

Argonne-University of Chicago Shuttle | Argonne National Laboratory  

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Visiting Argonne Visiting Argonne Site Access Policy Map Argonne-University of Chicago Shuttle Map of Argonne Download a map of the Argonne site. Access to the site Site Access Policy All visitors to Argonne require appropriate authorization before they are allowed on the Argonne site. Argonne-University of Chicago Shuttle The schedule below is effective August 25, 2010. A free shuttle bus makes round trips between Argonne National Laboratory and The University of Chicago. Shuttle service will be provided on Mondays, Wednesdays and Fridays only from September through April. From May through August, the shuttle will operate every weekday to accommodate the increase in student riders. The shuttle does not run on laboratory holidays. For more information, please contact Tracy Lozano (tlozano@anl.gov or 630/252-9625) at Argonne.

418

A Benchmark of GW Methods for Azabenzenes: Is the GW Approximation Good Enough?  

E-Print Network (OSTI)

), the Texas Advanced Computing Center (TACC), and the Argonne Leadership Computing Facility (ALCF). A

419

Argonne TDC: Asset Environmental Services  

Small business teams with Argonne for urban revitalization effort. Asset Environmental Services Chicago, IL

420

Argonne materials scientist Vilas Pol (former postdoc) was recently  

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initiatives: &23; Alternative Energy and Efficiency &23; Biological and Environmental Systems &23; Energy Storage &23; Hard X-ray Sciences &23; Leadership Computing &23; Materials for Energy &23;...

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421

Magellan: experiences from a Science Cloud  

E-Print Network (OSTI)

computing for science at the Argonne Leadership Computinghow the cloud computing business Argonne NationalLab Argonne, IL model can be used to serve the needs of mid-

Ramakrishnan, Lavanya

2013-01-01T23:59:59.000Z

422

Argonne Accelerator Institute  

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Fermilab Collaboration Fermilab Collaboration Lee Teng Scholarship Program Useful Links The Argonne Accelerator Institute Historical Document Collection Document Access Guide The documents in this collection are held in several repositories, some of which have restricted access. This guide explains the different types of access, and specifies the access levels for each repository. Repositories Name Access Argonne National Laboratory Document Open Access Argonne Research Library Hard Copy Only Beam Dynamics Newsletter Open Access DOE Information Bridge Open Access IEEE Xplore Library Subscription Required JACoW Open Access Journal of Applied Physics Subscription Required Nuclear Instruments & Methods in Physics Research, Section A Subscription Required Physical Review A Subscription Required

423

The Magellan Final Report on Cloud Computing  

E-Print Network (OSTI)

Leadership Computing Facility (ALCF) and the National EnergyLeadership Computing Facility (ALCF) and the National EnergyHPC compute cluster into the ALCF Magellan testbed, allowing

Coghlan, Susan

2013-01-01T23:59:59.000Z

424

ALCF Research Aimed at Safer, Cleaner Combustion for Gas Turbines | Argonne  

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Research Aimed at Safer, Cleaner Combustion for Gas Turbines Research Aimed at Safer, Cleaner Combustion for Gas Turbines December 3, 2013 Printer-friendly version Researchers from the Swiss Federal Institute of Technology (ETHZ) and the Argonne Leadership Computing Facility (ALCF) are using supercomputers to advance the development of safer and cleaner gas turbine engines by studying the operating conditions that can lead to a potentially dangerous phenomenon called autoignition. This phenomenon, which involves the spontaneous ignition of a combustible mixture without an external ignition source, can result in a premature combustion event, called flashback, that causes significant damage to the gas turbine. Understanding autoignition is critical to the design of turbines that operate with novel combustion strategies, such as lean

425

Argonne CNM News: CNM Displays Strong Presence at Argonne's Energy Showcase  

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CNM Displays Strong Presence at Argonne's Energy Showcase CNM Displays Strong Presence at Argonne's Energy Showcase Visitors at Argonne's 2012 Energy Showcase Volker Rose Argonne opened its gates to about 12,000 members of the community on Saturday, September 15, 2012. The Center for Nanoscale Materials was enthusiastically represented by nearly 25 staff volunteers during the Energy Showcase. The CNM exhibits covered solar energy, computational nanoscience, nanostructured carbons for nanoelectronics, visualization at the nanoscale, nanobio materials for energy applications, and general outreach in nanoscience and nanotechnology. The demonstrations of how solar energy can be used to power devices at the "Solar Energy: Today and Tomorrow" booth inspired people to consider how to incorporate solar power in their own lives now and in the future. On the

426

Argonne Chemical Sciences & Engineering - Fundamental Interactions...  

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Workshop on Techniques for High-Pressure Combustion August 29 - September 1, 2011 Argonne National Laboratory, Argonne, Illinois 60439 USA Organizers Stephen Ciatti, Argonne...

427

Visit MSD - Argonne National Laboratories, Materials Sicence...  

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Argonne weather On-site lodging Local restaurants Argonne cafeteria Guest House restaurant MSD Office Materials Science Division Building 223, Room S238 Argonne National...

428

Reactor Tree of Argonne National Laboratory  

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Argonne Reactors > The Argonne Reactor Tree About Director's Welcome Organization Achievements Highlights Fact Sheets, Brochures & Other Documents Multimedia Library Visit Argonne...

429

Energy Frontier Research Centers | Argonne National Laboratory  

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Storage. And Argonne is a key partner in two other Centers: the Argonne-Northwestern Solar Energy Research Center and the Center for Emergent Superconductivity. Argonne's...

430

Promethean Boldness - Argonne's Nuclear Science and Technology...  

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Reactor Argonne Reactor Tree CP-1 70th Anniversary CP-1 70th Anniversary Argonne's Nuclear Science and Technology Legacy Argonne's Nuclear Science and Technology Legacy...

431

Benefits | Argonne National Laboratory  

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Apply for a Job Apply for a Job Connect with Argonne LinkedIn Facebook Twitter YouTube Google+ More Social Media » Benefits With outstanding benefits, competitive pay, wellness programs and a stimulating and attractive work environment, Argonne is a tremendous place to pursue your career. Employee benefits are a key factor when evaluating a career opportunity. At Argonne, you'll find a comprehensive array of benefits to meet a variety of needs. In addition to medical, dental, life and disability coverage, you'll have access to paid time off, a retirement plan with a generous match and a number of other benefits, such as adoption assistance, an on-site child care center and auto and homeowners' insurance. Wellness plays an important role in life at Argonne. We offer a variety of

432

Argonne Transportation 2007 News  

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7 Transportation News & Highlights 7 Transportation News & Highlights Argonne Plug-In Hybrid Electric Vehicle Experts to Present Research at 23rd Electric Vehicle Symposium November 30, 2007 - Researchers from Argonne National Laboratory's Transportation Technology R&D Center will present 11 papers during the Electric Vehicle Symposium-23 that will be held in Anaheim, Calif., from Dec. 2-5. Download papers and presentations. Read about EVS-23. Argonne Teams with Industry to Promote PHEV R&D Nov. 12, 2007 - The U.S. Department of Energy's (DOE) Argonne National Laboratory has teamed up with several industrial partners, including some of America's largest automakers, to promote research and development of plug-in hybrid electric vehicles (PHEVs). Plug-in hybrids could revolutionize the automotive industry because, unlike conventional hybrid cars, they have the potential to run largely on electricity. More...

433

Argonne Transportation 2006 News  

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6 Transportation News & Highlights 6 Transportation News & Highlights Plug-in Hybrid Electric Vehicle Research Capabilities at Argonne National Laboratory and Idaho National Laboratory December 1, 2006 -- The Electric Power Research Institute (EPRI) and Argonne National Laboratory, two of the nation's premier research organizations, have announced a three-year collaborative agreement to conduct detailed analysis of plug-in hybrid electric vehicles (PHEVs) aimed at assessing the commercial feasibility of this technology for the U.S. Department of Energy. (More...) Nanoexa, Decktron to Collaborate with Argonne on Commercialization of Next-Generation Batteries October 11, 2006 -- Nanoexa, a leading nanotechnology-based clean energy company, and Decktron, a lithium battery and display company, have announced a definitive agreement to develop and transfer into commercial use new lithium battery technology originally developed at the U.S. Department of Energy's Argonne National Laboratory. (More...)

434

Argonne CNM: Safety Training  

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Safety at Work Safety at Work (printable pdf version) In case of emergency or if you need help or assistance dial Argonne's Protective Force: 911 (from Argonne phones) or (630) 252-1911 (from cell phones) As a staff member or user at the Center for Nanoscale Materials (CNM), you need to be aware of safety regulations at Argonne National Laboratory. You are also required to have taken any safety, orientation, and training classes or courses specified by your User Work Authorization(s) and/or work planning and control documents prior to beginning your work. For safety and security reasons, it is necessary to know of all facility users present in the CNM (Buildings 440 and 441). Users are required to sign in and out in the visitors logbook located in Room A119. Some detailed emergency information is provided on the Argonne National Laboratory web site. Brief instructions and general guidelines follow.

435

Argonne Physics Division - ATLAS  

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[Argonne Logo] [DOE Logo] [Argonne Logo] [DOE Logo] Physics Division Home News Division Information Contact Organization Chart Directory ES&H Scientific Staff Publications Awards & Honors Pictures & Videos New Faces PHY Webmail Meeting Rooms Research Low Energy Medium Energy Theory Accelerator R&D Research Highlights Seminars & Events Colloquium Division Seminar MEP Seminar Theory Seminar Heavy Ion Discussion Student Lunch Talk ATLAS arrowdn Facility Schedules User Info Proposals Targetlab CARIBU FMA Gammasphere GRETINA HELIOS AGFA Search Argonne ... Search ATLAS Facility User Info Proposals Beam Schedule Safety Gammasphere GRETINA FMA CARIBU HELIOS AGFA Targetlab Workshop 2009 25 Years of ATLAS Gretina Workshop ATLAS Gus Savard Guy Savard, Scientific Director of ATLAS Welcome to ATLAS, the Argonne Tandem Linac Accelerator System. ATLAS is the

436

Feature - Argonne Develops ARDAQ  

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lab's capability to analyze and evaluate the performance of prototype plug-in hybrid electric vehicles (PHEV) with the development of a tool called the Argonne Real-Time Data...

437

News | Argonne National Laboratory  

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Photos Videos News Argonne Press Releases Microorganisms found in salt flats could offer new path to green hydrogen fuel July 16, 2013 Scientists combine X-rays and microscopes for...

438

Argonne Accelerator Institute  

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International Collaboration on Advanced Neutron Sources (ICANS X), 3-7 October 1988, Los Alamos, NM, p. 263-270 (1988). (Located in the Argonne Research Library or the DOE...

439

Students | Argonne National Laboratory  

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Apply for a Job Connect with Argonne LinkedIn Facebook Twitter YouTube Google+ More Social Media Students Interested in exploring what it would be like to work at a national...

440

Argonne Transportation Current News  

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November 30, 2012 -- Department of Energy awards up to 120 million for battery hub to Argonne-led group October 17, 2012 -- DEER Presentation: Which Is Greener: Idle, or Stop and...

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441

Argonne's rich scientific heritage  

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first usable amount of electricity from nuclear power. The date was December 20, 1951. Argonne National Laborator y is a U.S. D epar tment of Energy laborator y managed by UChicago...

442

Argonne TDC: Nondisclosure Agreements  

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Nondisclosure Agreements As some of the research work carried our at Argonne National Laboratory is not yet published or is in the process of being protected through patents and...

443

Community | Argonne National Laboratory  

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Social media is a great way to stay in touch with what's going on at Argonne and to interact with us. Ask questions, give us your opinion and become a part of our ever-expanding...

444

Argonne CNM: Safety Training  

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Safety Training Before performing work at the CNM, you must take certain safety training courses. We encourage you to take these courses remotely before you arrive at Argonne. Go...

445

Argonne Transportation - Engines - Argonne's Idle Reduction Research  

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Argonne's Idle Reduction Research Argonne's Idle Reduction Research Heavy-Duty Vehicles Overnight Idling Anyone who has driven on interstate highways knows that tractor-trailer trucks usually idle overnight while their drivers sleep. The trucks are kept running to Heat and cool the cab and sleeper, Mask noises, Keep the fuel warm in winter, Avoid cold starting, and Provide for personal safety. Long-haul trucks typically idle 6 hours per day, or 1,830 hours per year, but actual practice varies, from idling 1-2 nights per week to hardly ever turning the engine off. Locomotives, buses, freighters, and cruise ships idle during overnight stops for similar amounts of time. Workday Idling Heavy-duty vehicles idle during the workday for a variety of reasons. These can include driver and passenger comfort, engine warmth, and the need to power electronic equipment or work machinery. Buses, locomotives, and marine vehicles can idle for similar reasons.

446

Robotics Laboratory - Nuclear Engineering Division (Argonne)  

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Capabilities > Engineering Capabilities > Engineering Experimentation > Robotics Laboratory Capabilities Engineering Experimentation Reactor Safety Experimentation Aerosol Experiments System Components Laser Applications Robots Applications Other Facilities Other Capabilities Work with Argonne Contact us For Employees Site Map Help Join us on Facebook Follow us on Twitter NE on Flickr Robotics Laboratory The Robotics Laboratory (RL) houses various remote manipulator systems, including the Dual Arm Work Platform, to support enhancements to teleoperation of remote systems for nuclear applications. Bookmark and Share Argonne scientists are using computer simulation and robot task programming tools to enhance the safety and efficiency of telerobotics in applications such as the decontamination and decommissioning (D&D) of nuclear power

447

Argonne TTRDC - Engines - Home - combustion, compression ignition,  

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* Combustion Visualization * Combustion Visualization * Compression-Ignition * Emissions Control * Fuel Injection and Sprays * Idling * Multi-Dimensional Modeling * Particulate Matter * Spark Ignition Green Racing GREET Hybrid Electric Vehicles Hydrogen & Fuel Cells Materials Modeling, Simulation & Software Plug-In Hybrid Electric Vehicles PSAT Smart Grid Student Competitions Technology Analysis Transportation Research and Analysis Computing Center Working With Argonne Contact TTRDC Engines Omnivorous engine tested by Thomas Wallner Thomas Wallner tests the omnivorous engine, a type of spark-ignition engine. Argonne's engine research is contributing to advances in technology that will impact the use of conventional and alternative fuels and the design of advanced technology vehicles. Compression Ignition

448

Chemical research at Argonne National Laboratory  

Science Conference Proceedings (OSTI)

Argonne National Laboratory is a research and development laboratory located 25 miles southwest of Chicago, Illinois. It has more than 200 programs in basic and applied sciences and an Industrial Technology Development Center to help move its technologies to the industrial sector. At Argonne, basic energy research is supported by applied research in diverse areas such as biology and biomedicine, energy conservation, fossil and nuclear fuels, environmental science, and parallel computer architectures. These capabilities translate into technological expertise in energy production and use, advanced materials and manufacturing processes, and waste minimization and environmental remediation, which can be shared with the industrial sector. The Laboratory`s technologies can be applied to help companies design products, substitute materials, devise innovative industrial processes, develop advanced quality control systems and instrumentation, and address environmental concerns. The latest techniques and facilities, including those involving modeling, simulation, and high-performance computing, are available to industry and academia. At Argonne, there are opportunities for industry to carry out cooperative research, license inventions, exchange technical personnel, use unique research facilities, and attend conferences and workshops. Technology transfer is one of the Laboratory`s major missions. High priority is given to strengthening U.S. technological competitiveness through research and development partnerships with industry that capitalize on Argonne`s expertise and facilities. The Laboratory is one of three DOE superconductivity technology centers, focusing on manufacturing technology for high-temperature superconducting wires, motors, bearings, and connecting leads. Argonne National Laboratory is operated by the University of Chicago for the U.S. Department of Energy.

NONE

1997-04-01T23:59:59.000Z

449

Team Led by Argonne Gets Best Paper Award | Argonne National...  

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Team Led by Argonne Gets Best Paper Award June 23, 2008 Tweet EmailPrint A team of researchers from 7 different research institutes, lead by Argonne National Laboratory, gets the...

450

Argonne CNM News: Graduate students to gather at Argonne  

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Graduate students to gather at Argonne Graduate students from across the nation will come to Argonne August 8-10, 2010, for a symposium that will also be attended by a number of...

451

Argonne Chemical Sciences & Engineering -Electrochemical Energy...  

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Events Search Argonne ... Search Argonne Home > Chemical Sciences & Engineering > Battery Testing * Members * Contact * Publications * Overview * EADL EES Home Electrochemical...

452

Argonne Chemical Sciences & Engineering - Publications - Catalysis...  

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News & Highlights Events Search Argonne ... Search Argonne Home > Chemical Sciences & Engineering > Fundamental Interactions Catalysis & Energy Conversion Electrochemical...

453

Argonne Chemical Sciences & Engineering - People - Catalysis...  

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News & Highlights Events Search Argonne ... Search Argonne Home > Chemical Sciences & Engineering > Fundamental Interactions Catalysis & Energy Conversion Electrochemical...

454

Argonne Chemical Sciences & Engineering - People - Electrochemical...  

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News & Highlights Events Search Argonne ... Search Argonne Home > Chemical Sciences & Engineering > Fundamental Interactions Catalysis & Energy Conversion Electrochemical...

455

Argonne Chemical Sciences & Engineering - Catalysis & Energy...  

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News & Highlights Events Search Argonne ... Search Argonne Home > Chemical Sciences & Engineering > Homogeneous Catalysis * Members * Contact * Publications * Research Projects...

456

Argonne Staff - Larry Johnson  

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larry johnson larry johnson Larry R. Johnson Director, Transportation Technology R&D Center Argonne Distinguished Fellow Argonne National Laboratory phone: 630/252-5631; fax: 630/252-4211 e-mail: johnson@anl.gov Professional Experience Argonne National Laboratory (1979 - Present) Argonne Distinguished Fellow Director, Transportation Technology R&D Center (1997-Present): Coordinate the Laboratory's transportation research programs, including vehicle systems, engines and emissions research, alternative fuels, advanced batteries, fuel cells, materials, tribology, sensors, and technology assessments. Disseminate technology developments though the quarterly newsletter, TransForum, and the Internet at www.transportation.anl.gov. Director, Center for Transportation Research, Energy Systems Division (1983-2000): Managed the Center's experimental research and assessment activities. Research includes: novel approaches to reduce engine emissions such variable air composition; hybrid vehicle component testing and system modeling; and technology assessments. Developed a major maglev experimental and analysis program at Argonne as the result of initial investigations into the economics of maglev systems. Promoted to Senior Economist in 1991.

457

Climate-Science Computational Development Team: The Climate End...  

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Argonne National Laboratory Robert Jacob, Argonne National Laboratory Climate-Science Computational Development Team: The Climate End Station II PI Name: Warren Washington...

458

Use of high performance computing in neutronics analysis activities  

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high performance computing in neutronics analysis activities M.A. Smith Argonne National Laboratory 9700 South Cass Avenue, Argonne Illinois 60439, USA Abstract Reactor design is...

459

Social Media | Argonne National Laboratory  

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triviatuesday View this on Twitter @argonne 4 days ago MT @C2ST: Congrats to Adam Khan of @akhantech on Forbes 30 under 30 Come hear him speak on 130 @argonne. Details:...

460

Argonne Physics Division - Theory Group  

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Thursday 30 August 2012 David Wilson Argonne National Lab, Argonne, IL. djwilson@anl.gov Contact Interaction approach to QCD Thursday 24 May 2012 Ian Clot University of Adelaide,...

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461

Visiting MCS | Argonne National Laboratory  

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offer you. Visitor Registration Formal registration is REQUIRED in order to enter the Argonne site. If you are visiting Argonne, you will need to fill out the visitor registration...

462

Argonne TDC: Technical Services Agreemens  

Technical Services Agreements with Industrial Partners . Argonne researchers provide short-term technical assistance to companies with technical problems requiring ...

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Argonne TDC: Intermagnetics General Corporation  

Record-setting joint research spurs growth of superconductor market for Argonne partner. Intermagnetics General Corporation Latham, NY. Intermagnetics General ...

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User Facilities | Argonne National Laboratory  

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instrumentation and infrastructure for interdisciplinary nanoscience and nanotechnology research. The Electron Microscopy Center (EMC) at Argonne National Laboratory...

465

Argonne TDC: Material Transfer Agreements  

Material Transfer Agreements. Materials produced by researchers at Argonne National Laboratory are often of interest to the private sector.

466

Argonne Transportation - 2000 Awards  

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Automotive Recycling Processes Win Awards Automotive Recycling Processes Win Awards The automobile shredder industry recovers over 10 million tons of ferrous (iron-containing) scrap annually from obsolete automobiles and sells the metals at a significant profit. After metals recovery, though, the auto recyclers are left with about 5 million tons of nonmetallic auto shredder residue (ASR) to dispose of annually. Argonne's processes to recover valuable plastics from this scrap have won two prestigious awards. Discover Award Finalist - S. Jody, E. Daniels and J. Pomykala Argonne's unique "froth flotation" process separates individual high-purity plastics from waste streams containing a mixture of plastics. The technology separates equal-density plastics, such as acrylonitrile-butadiene-styrene (ABS), high-impact polystyrene (HIPS), and polypropylene (PP), from each other and from other plastics during scrap shredding and metal recovery operations. Argonne's process has been used to recover selected plastics from ASR, disassembled car parts, obsolete appliances, industrial scrap plastics, and consumer electronics.

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Argonne Accelerator Institute  

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CWDD - Continuous Wave Deuterium Demonstrator CWDD - Continuous Wave Deuterium Demonstrator The Continuous Wave Deuterium Demonstrator (CWDD) accelerator, a cryogenically-cooled (26K) linac, was designed to accelerate 80 mA cw of D to 7.5 MeV. CWDD was being built to demonstrate the lauching of a beam with characteristics suitable for a space-based neutral particle-beam (NPB). A considerable amount of hardware was constructed and installed in the Argonne-based facility, and major performance milestones were achieved before program funding ended in October 1993. References - Document Access Guide Continuous Wave Deuterium Demonstrator Final Design Review, Grumman Space Systems, Grumman-Culham Laboratory, Los Alamos (1989). (Located in the Argonne Research Library) Recommissioning and first operation of the CWDD injector at Argonne

468

Argonne Accelerator Institute  

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Welcome Welcome In 2006, Argonne laboratory director Robert Rosner formed the AAI as a focal point for accelerator initiatives. The institute works to utilize Argonne's extensive accelerator resources, to enhance existing facilities, to determine the future of accelerator development and construction, and to oversee a dynamic and acclaimed accelerator physics portfolio. I invite you to look around the content of this web site. Accelerators at Argonne describes our rich heritage in this field, particularly with respect to the development and support of user facilities. Initiatives describes the things we are hoping to do, and Research & Development discusses our research portfolio. If you are a graduate or undergraduate student wishing to pursue a career in accelerator science or technology, please see Educational

469

Argonne Transportation Current News  

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8 Transportation News & Highlights 8 Transportation News & Highlights EDTA Publications Now Online December 2008 -- View them here. Argonne to advise battery alliance December 2008 -- A coalition of more than fourteen companies has announced the creation of a new business alliance aimed at promoting U.S. production of lithium ion batteries. The newly formed National Alliance for Advanced Transportation Battery Cell Manufacture is based in Chicago. Argonne National Laboratory will serve in an advisory role as the Alliance begins operations. More... French Auto Industry Visits Center for Transportation Research November 18, 2008 -- Representatives of the French auto industry visited the Argonne Center for Transportation Research on November 18, 2008. The purpose of the visit was to share information and discuss technology opportunities for hybrid and electric vehicles. More...

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Argonne Accelerator Institute  

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ZGS -- Zero Gradient Synchrotron (operation: 1963 - 1979) ZGS -- Zero Gradient Synchrotron (operation: 1963 - 1979) The ZGS was a 12 GeV weak-focusing proton synchrotron. It was the first high energy physics accelerator located between the U.S. coasts. The ZGS was also the first synchrotron to accelerate spin polarized protons and the first to use H-minus injection. Other noteworthy features of the ZGS program were the large number of university-based users and the pioneering development of large superconducting magnets for bubble chambers and beam transport. References - Document Access Guide History of the ZGS, Argonne, 1979, American Institute of Physics, AIP Conference Proceedings No. 60 (1980). (Located in the Argonne Research Library) High Energy Physics at Argonne National Laboratory, A. Crewe, R.

471

Marius Stan | Argonne National Laboratory  

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Marius Stan Senior Scientist - Nuclear Engineering Dr. Marius Stan is a physicist and a chemist interested in non-equilibrium thermodynamics, heterogeneity, and multi-scale computational science for energy applications. He came to Argonne and the University of Chicago in 2010, from Los Alamos National Laboratory. Marius is a Senior Fellow at the University of Chicago's Computation Institute. The goal of his research is to discover or design materials, structures, and device architectures for nuclear energy and energy storage. To that end, Marius develops theory-based (as opposite to empirical) mathematical models of thermomechanical and chemical properties of imperfect materials. The imperfection comes from defects or deviations from stoichiometry (e.g.,

472

CMR12  

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9 High Speed Combustion and Detonation (HSCD) ALCF-2 Early Science Program Technical Report Argonne Leadership Computing Facility About Argonne National Laboratory Argonne is a...

473

NUFO 2009  

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Argonne's national user facilities: Advanced Photon Source (APS), Argonne Leadership Computing Facility (ALCF), Argonne Tandem Linear Accelerator System (ATLAS), ARM Climate...

474

Computational Biology | Biosciences Division  

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Computational Biology BIO Home Page About BIO News Releases Research Publications People Contact Us Organization Chart Site Index Inside BIO BIO Safety About Argonne Computational...

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Venue of AFC Workshop (April 2011) - Argonne National Laboratory  

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Achievements Awards Patents Argonne Distinguished Fellows Professional Societies About Nuclear Energy Reactors Designed by Argonne Argonne's Nuclear Science and Technology...

476

Registration - AFC Workshop (April 2011) - Argonne National Laboratory  

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Achievements Awards Patents Argonne Distinguished Fellows Professional Societies About Nuclear Energy Reactors Designed by Argonne Argonne's Nuclear Science and Technology...

477

Hotels & Accommodation of AFC Workshop (April 2011) - Argonne...  

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Achievements Awards Patents Argonne Distinguished Fellows Professional Societies About Nuclear Energy Reactors Designed by Argonne Argonne's Nuclear Science and Technology...

478

NREL: Energy Executive Leadership Academy - Leadership Program  

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Leadership Program NREL's Executive Energy Leadership Program is an in-depth training program conducted over five three-day sessions from May through September. The classroom...

479

ARGONNE NATIONAL LABORATORY  

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L e m o n t , I l l i n o i s ENVIRONMENTAL RADIOACTIVITY AT ARGONNE NATIONAL LABORATORY R e p o r t f o r t h e Y e a r 1954 W r i t t e n by J. Sedlet E x p e r i m e n t a l w...

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Argonne National Laboratory's Nondestructive  

E-Print Network (OSTI)

for nuclear and fossil power plants, automotive and military equipment, and aerospace industry. ... enables methods, is used for in-service inspection of nuclear power plant components, such as tubing, piping As a pioneer in microwave sensor technology, Argonne's scientists have developed active and passive microwave/millimeter-wave

Kemner, Ken

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Enabling Green Energy and Propulsion Systems via Direct Noise Computation |  

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High-fidelity simulation of exhaust nozzle under installed configuration High-fidelity simulation of exhaust nozzle under installed configuration Umesh Paliath, GE Global Research; Joe Insley, Argonne National Laboratory Enabling Green Energy and Propulsion Systems via Direct Noise Computation PI Name: Umesh Paliath PI Email: paliath@ge.com Institution: GE Global Research Allocation Program: INCITE Allocation Hours at ALCF: 105 Million Year: 2013 Research Domain: Engineering GE Global Research is using the Argonne Leadership Computing Facility (ALCF) to deliver significant improvements in efficiency, (renewable's) yield and lower emissions (noise) for advanced energy and propulsion systems. Understanding the fundamental physics of turbulent mixing has the potential to transform product design for components such as airfoils and

482

Argonne National Laboratory - Enforcement Documents  

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Enforcement Documents Enforcement Documents Argonne National Laboratory Preliminary Notice of Violation issued to the University of Chicago related to Nuclear Safety Program Deficiencies at Argonne National Laboratory, March 7, 2006 (EA-2006-02) - University of Chicago/Argonne National Laboratory - Press Release, March 7, 2006 Preliminary Notice of Violation issued to the University of Chicago related to the Uncontrolled Release of Radioactive Material at Argonne National Laboratory-East, August 14, 2001 (EA-2001-05) - Argonne National Laboratory - Press Release, August 17, 2001 Preliminary Notice of Violation issued to the University of Chicago related to Programmatic Management Failures at Argonne National Laboratory-West, February 28, 2001 (EA-2001-01) - Argonne National Laboratory-West - Press Release, March 2, 2001

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Argonne applied mathematicians use INCITE awards to attack energy problems  

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Argonne applied mathematicians use INCITE awards to attack energy problems Argonne applied mathematicians use INCITE awards to attack energy problems March 27, 2013 Tweet EmailPrint What is the best possible power grid configuration for our nation? How can we balance the increasing demands for power while minimizing costs and avoiding waste of resources? Last year, Mihai Anitescu, a computational mathematician in Argonne's Mathematics and Computer Science Division. received DOE funding to establish the Multifaceted Mathematics for Complex Energy Systems (M2ACS) to tackle these questions. As part of the M2ACS research, Anitescu and his colleagues at Argonne are focusing on ways to optimize the effects of randomly changing variables, say, in wind or resource demand. Such variables can number into the billions. And to be useful for energy systems planning, any calculations

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Policies & Practices | Argonne National Laboratory  

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Policies & Practices Policies & Practices We understand that a diverse workforce has a variety of needs, so we have developed a broad set of policies and practices that support a positive work-life balance. Argonne fosters an environment that values diversity and inclusion. It's the right way to do business. It's good for people, the organization and scientific innovation. In line with these values, the lab is committed to optimizing policies and pracices that promote work-life balance, diversity and accountability in support of workforce pipeline, mentoring and leadership development. Work-Life Policies Paid Time Off Program Description Paid Vacation 15 paid vacation days per year, accrued at the rate of 1.25 days per month Paid Holidays 10 paid holidays per year, including one floating holiday to be used at employee's discretion

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Argonne History - 1950's | Argonne National Laboratory  

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50's 50's EBR-I light bulbs 1 of 22 EBR-I light bulbs This simple string of four 100-watt light bulbs is powered by the first useful electricity ever produced by nuclear power, generated on Dec. 20, 1951, by Argonne's Experimental Breeder Reactor 1. The next day, 100 watts were generated. About the power plant: The Experimental Breeder Reactor I (EBR-I) achieved many benchmarks during its 14 years of operation. In 1953, it was the first reactor to demonstrate the breeder principle -- generating, or "breeding," more nuclear fuel than it consumed. It was the first, in November 1962, to achieve a chain reaction with plutonium; and the first to demonstrate the feasibility of using liquid metals at high temperatures as a reactor coolant. EBR-I gained National Historic Landmark

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Topology-aware data movement and staging for I/O acceleration on Blue Gene/P supercomputing systems  

E-Print Network (OSTI)

of the Argonne Leadership Comput- ing Facility, I/O forwarding in BG/P, and a summary of our previous findings for the sys- tem evaluation in this paper. 2.1 Argonne Leadership Computing Facility Figure 1: The Argonne of the Argonne Leadership Computing Facility at Argonne Na- tional Laboratory. This work was supported

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S ARGONNE NATIONAL LABORATORY  

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ARGONNE NATIONAL LABORATORY ARGONNE NATIONAL LABORATORY 19 ON CLOSED SHEIIS IN NUCLEI. II Maria G. Mayer April., 1949 Feenberg (1) ' (2) and Nordlkeim (3) have used the spins and magnetic moments of the even-odd nuclei to determine the angular momentum of the eigenfunction of the odd particle. The tabulations given by them indi- cate that spin orbit coupling favors the state of higher total angular momentum, If - strong spin.orbit coupling' increasing with angular mom- entum is assumed, a level assignment encounters a very few contradictions. with experimental facts and requires no major crossing of the levels from those of a square well potential. The magic numbers O, 82, and 126 occur at the' place of the spin-orbit splitting of levels of high angular momen- tum, Table 1 contains in column two in order

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ARGONNE NATIONAL LABORATORY May  

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May 9, 1994 Light Source Note: LS{234 Comparison of the APS and UGIMAG Helmholtz Coil Systems David W. Carnegie Accelerator Systems Division Advanced Photon Source Argonne National Laboratory 9700 S. Cass Ave., Argonne, IL 60439-4815 Telephone: (708) 252-6660 FAX: (708) 252-6607 ABSTRACT UGIMAG [1] is manufacturing the NdFeB permanent magnet blocks to be used in undulator A now being assembled by STI Optronics. We would like to be able to compare measurements made at the plant with those made at ANL and potentially with those made at the STI facility. Since there are no permanent magnet standard samples, measurement systems are compared by trading sets of magnets set aside as standards. APS has ten NdFeB permanent magnet blocks supplied by Sumitomo [2] that we use to make these comparisons. These magnet samples have been exten- sively measured on the APS system. The data include the

489

Argonne Accelerator Institute  

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IPNS - Intense Pulsed Neutron Source (operation: 1982 - 2008) IPNS - Intense Pulsed Neutron Source (operation: 1982 - 2008) This was the first spallation slow neutron source based on a proton synchrotron. Techniques for producing and using these pulsed slow neutron beams for condensed matter research were pioneered at Argonne using the ZGS during the 1970's. The RCS rapid-cycling synchrotron, which powered the IPNS for its entire 26 years of operation, was originally built as a 500 MeV injector for the ZGS. The pioneering work at IPNS established the unique scientific value of this new type of neutron source. IPNS was followed by higher intensity spallation neutron sources in the UK (ISIS) and at ORNL (SNS). References - Document Access Guide History of the ZGS 500 MeV Booster, J. Simpson, R. Martin, R. Kustom, Argonne National Laboratory, ANL-HEP-TR-06-44, (2006).

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Argonne TTRDC - Awards  

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Awards Awards R&D 100 Awards 2012: High-Energy Concentration-Gradient Cathode Material for Plug-in Hybrids and All-Electric Vehicles, K. Amine 2009: Super hard and slick coating for increased engine efficiency and component reliability, A. Erdemir, O. Eryilmaz et al. 2009: Argonne/Envia composite electrode material technology for hybrid and all-electric vehicles, Michael Thackeray, Khalil Amine, Christopher Johnson, Sun-Ho Kang, Ilias Belharouak and Haixa Deng 2008: EnerDel/Argonne Advanced High-Power Battery, K. Amine et al. 2006: Ultra-Fast, Ultra-Sensitive Hydrogen Sensor 2006: Membrane-Based Separative Bioreactor 2005: Oxygen Sensor 2004: PSAT, A. Rousseau, P. Sharer, and S. Pagerit 2001: Fuel Cell Catalyst, M. Krumpelt and S. Ahmed 2000: Polyurethane Foam Recovery, B. Jody and E. Daniels

491

Argonne National Laboratory  

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ICE SLURRY PHASE-CHANGE COOLANTS FOR ICE SLURRY PHASE-CHANGE COOLANTS FOR INDUSTRIAL AND MEDICAL APPLICATIONS K. Kasza*, Y. Wu, J. Heine, D. Sheradon, and Steve Lake * Argonne National Laboratory, 9700 South Cass Avenue, Argonne Illinois, 60439, USA kasza@anl.gov Abstract Over the last 15 years, interest in using phase-change ice slurry coolants has grown significantly. Because of the high energy content of ice slurry, which is due to the phase change (melting) of the ice particles under a cooling load, the cooling capacity of ice slurry is many times greater than that of single phase fluids. Research is focused on understanding ice slurry behavior and developing highly-loaded, storable, and pumpable ice slurry coolants. Research has shown that the ice slurry must be engineered to have the correct

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Safety | Argonne National Laboratory  

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Safety Safety Biosafety Safety Safety is integral to Argonne's scientific research and engineering technology mission. As a leading U.S. Department of Energy multi-program research laboratory, our obligation to the American people demands that we conduct our research and operations safely and responsibly. As a recognized leader in safety, we are committed to making ethical decisions that provide a safe and healthful workplace and a positive presence within the larger Chicagoland community. Argonne's Integrated Safety Management program is the foundation of the laboratory's ongoing effort to provide a safe and productive environment for employees, users, other site personnel, visitors and the public. Related Sites U.S. Department of Energy Lessons Learned Featured Media

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Argonne Transportation 2005 News  

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5 Transportation News & Highlights 5 Transportation News & Highlights Recycling Automotive Plastics Is Profitable and Good for the Environment November 15, 2005 -- Recycling is not just good for the environment, it is good for business. Argonne researchers have developed a technology to successfully recover plastic from obsolete automobiles that may add plastic to the list of valuable materials recycled from old cars and trucks. (More...) GREETing a Cleaner, More Energy-Efficient Future November 3, 2005 -- Argonne researchers have developed software that is now the government and industry standard for evaluating various vehicle and fuel combinations on a consistent fuel-cycle basis from extracting the energy feedstocks -petroleum and natural gas - through fuel production to final vehicle operation. (More...)

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Argonne Accelerator Institute  

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Mission Mission The mission of the Argonne Accelerator Institute is centered upon the following related goals: Locate next generation accelerator facilities in Northern Illinois Advance accelerator technology Oversee a selected, strategic, lab-wide, and acclaimed accelerator R&D portfolio In order to accomplish the above goals, the institute has established five objectives. These are coupled to programmatic objectives, and are dependent on each other, but they serve to identify important areas for the institute to focus its activities. Educate the "next generation" of accelerator physicists and engineers Work with area Universities to establish Joint Appointments and Adjunct Professorships Identify students Provide research opportunities at Argonne Work with the US Particle Accelerator School

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Transportation | Argonne National Laboratory  

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Transportation Transportation From modeling and simulation programs to advanced electric powertrains, engines, biofuels, lubricants, and batteries, Argonne's transportation research is vital to the development of next-generation vehicles. Revolutionary advances in transportation are critical to reducing our nation's petroleum consumption and the environmental impact of our vehicles. Some of the most exciting new vehicle technologies are being ushered along by research conducted at Argonne National Laboratory. Our Transportation Technology R&D Center (TTRDC) brings together scientists and engineers from many disciplines across the laboratory to work with the U.S. Department of Energy (DOE), automakers and other industrial partners. Our goal is to put new transportation technologies on the road that improve

496

Argonne TTRDC - News Story  

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presents talks at 2012 Innovative Smart Grid Technologies Conference presents talks at 2012 Innovative Smart Grid Technologies Conference Argonne researchers participated in the third IEEE PES Conference on Innovative Smart Grid Technologies (ISGT 2012), sponsored by the IEEE Power & Energy Society (PES), held January 16-20, 2012 at the Washington Marriott Wardman Park in the District of Columbia, USA. The Conference was a forum for participants to discuss state-of-the-art innovations in smart grid technologies. The Conference featured plenary sessions, technical papers and tutorials by international experts on smart grid applications. Argonne's Presentations "Security Concerns of a Plug-In Electric Vehicle" by Ted Bohn and Hina Chaudhry (pdf) "A Brief Discussion of Battery Properties and Goals for Plug-in Hybrid and Electric Vehicles" by Dan Santini (pdf)

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Argonne National Laboratory  

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National Laboratory National Laboratory Standard Procurement Forms An Acrobat Reader is needed to display these documents How to get an Acrobat Reader Date Form (Link to PDF) Title GSA Library of Standard Government Forms ANL Forms Repository PARIS Enrollment/Change Status Forms Argonne Terms & Conditions (headmark list) Suspect/Counterfeit Parts December 9, 2010 Poster PD-154 Appendix A - ARRA Supplement Previous Revisions: August 17,2010 August 7, 2009 Whistleblower Protection Poster Under Recovery Act January 24, 2013 ANL-71-COM Argonne Terms and Conditions for Commercial Items Previous Revisions: May 10, 2012 January 5, 2012 July 11, 2011 April 14, 2011 March 1, 2011 December 7, 2010 August 13, 2010 June 15, 2010 January 18, 2010 December 22, 2009 April 2, 2009

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Argonne area restaurants  

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area restaurants area restaurants Amber Cafe 13 N. Cass Ave. Westmont, IL 60559 630-515-8080 www.ambercafe.net Argonne Guest House Building 460 Argonne, IL 60439 630-739-6000 www.anlgh.org Ballydoyle Irish Pub & Restaurant 5157 Main Street Downers Grove, IL 60515 630-969-0600 www.ballydoylepub.com Bd's Mongolian Grill The Promenade Shopping Center Boughton Rd. & I-355 Bolingbrook, IL 60440 630-972-0450 www.gomongo.com Branmor's American Grill 300 Veterans Parkway Bolingbrook, IL 60440 630-226-9926 www.branmors.com Buca di Beppo 90 Yorktown Convenience Center Lombard, IL 60148 630-932-7673 www.bucadibeppo.com California Pizza Kitchen 551 Oakbrook Center Oak Brook, IL 60523 630-571-7800 www.cpk.com Capri Ristorante 5101 Main Street Downers Grove, IL 60516 630-241-0695 www.capriristorante.com Carrabba's Italian Grill

499

Enforcement Letter - Argonne West  

Energy.gov (U.S. Department of Energy (DOE)) Indexed Site

9, 1999 9, 1999 Mr. John I. Sackett [ ] Argonne National Laboratory-West P.O. Box 2528 Idaho Falls, Idaho 83403-6000 Subject: Enforcement Letter (NTS-CH-AA-ANLW-ANLW-1998-0001) Dear Mr. Sackett: This letter refers to the Department of Energy's (DOE) evaluation of the facts and circumstances concerning two incidents occurring in June and August 1998 at Argonne National Laboratory - West's (ANLW) Fuel Conditioning Facility (FCF): dropping a fuel basket assembly containing chopped fuel elements and repair of a manipulator seal tube. During November 2-3, 1998, DOE conducted an investigation to determine what, if any, noncompliances with applicable nuclear safety regulations may have been associated with these incidents. A copy of the investigation summary report is

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Summary Site Environmental Report for Calendar Year 2009  

E-Print Network (OSTI)

the Advanced Photon Source, the Center for Nanoscale Materials, the Argonne Leadership Computing Facility, and the Argonne Leadership Computing Facility. These facilities are used by scientists and engineers from around to conduct research on material-based problems. Argonne Leadership Computing Facility The Argonne Leadership

Kemner, Ken