AGENDA CSIRO CSS & Eresearch Annual Conference & Workshops Melbourne Convention and Exhibition Centre 1 – 4 March 2016

AGENDA CSIRO CSS & eResearch Annual Conference & Workshops Melbourne Convention and Exhibition Centre 1 – 4 March 2016

Tuesday 1st March – Workshops Chair: Justin Baker Clarendon Rooms Level 2 and Level 5

Time Location Workshop Convenors

9:00 a.m. – Clarendon D, Level 2 Introduction to Scientific Computing Sam Moskwa 5:00 p.m. 9:00 a.m. – Clarendon C, Level 2 Environmental modelling and uncertainty: Dan Pagendam 5:00 p.m. An introduction to LibBi

9:00 a.m. – Clarendon F, Level 2 Introduction to Workspace Damien Watkins 5:00 p.m. 9:00 a.m. – Clarendon E, Level 2 Picking the Is out of Data: Innovation, Industry, Integration, Impact Cynthia Love and John Morrissey 5:00 p.m.

9:00 a.m. – Clarendon A, Level 5 IoT science across Data61 Nico Adams 12:30 p.m. 1:30 p.m. – Clarendon A, Level 5 eResearch planning for success Yaroslav Jurkiw 5:00 p.m.

WORKSHOP BREAK TIMES Break Morning Tea Lunch Afternoon Tea Time 10:30am - 11:00am 12:30pm - 1:30pm 3:00pm - 3:30pm

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Wednesday 2nd March Chair: John Taylor Clarendon Rooms Level 2

8:30 – Registration 9:30 Refreshments will be served a.m. 9:30 – Opening Address 10:00 Location: Clarendon Auditorium a.m. John Taylor, Data61 Brendan Dalton, IMT

10:00 Keynote: Sudip Dosanjh, National Energy Research Scientific Computing Center - Location: Clarendon Auditorium 11:00 Title: Exascale and Extreme Data Science at NERSC a.m. Abstract: NERSC’s primary mission is to accelerate scientific discovery at the DOE Office of Science through high performance computing and data analysis. NERSC supports the largest and most diverse research community of any computing facility within the DOE complex, providing large-scale, state-of-the- art computing for DOE’S unclassified research programs in alternative energy sources, climate change, environmental science, materials research, astrophysics and other science areas related to DOE’s science mission. NERSC’s next supercomputer, Cori, is being deployed in 2016 in Berkeley Laboratory’s new Computational Research and Theory (CRT) Facility. Cori will include over 9300 manycore Intel Knight’s Landing processors, which introduce several technological advances, including higher intra-node parallelism; high-bandwidth, on-package memory; and longer hardware vector lengths. To help users transition to the new architecture, in 2014 NERSC established the NERSC Exascale Scientific Applications Program (NESAP). Through NESAP, several code projects are collaborating with NERSC, Cray and Intel with access to early hardware, special training and “deep dive” sessions with Intel and Cray staff. The NESAP projects span a range of scientific fields—including astrophysics, genomics, materials science, climate and weather modeling, plasma fusion physics and accelerator science—and represent a significant portion of NERSC’s current and projected computational workload. Cori will include many enhancements to enable a rapidly growing extreme data science workload at NERSC. Cori will have a 1600 Intel® Haswell processor partition with larger memory nodes to enable extreme data analysis.

Page 2 of 14 11:00 Keynote: David Abramson, Research Computing Centre, University of Queensland – Location: Clarendon Auditorium 12:00 Title: Translational Computational Science: From The Lab To Practice p.m. Abstract: Translational research is well understood in medicine. Research projects not only target real world problems, but "translate" the solutions into practice. Examples are common and well understood, for example determining how a tumour grows, designing drugs that destroy it, and then testing these in real world studies with patients. The advantages are clear: science is advanced but society benefits in immediate ways. Translational research is less well understood and practiced in computing. All too often, research outcomes are not tested in the real world, and thus while solutions may appear attractive, they fail to be useful. In this seminar I will discuss a framework that fosters the development of novel computer science, but tests the outcomes in practice. This has been deployed both in the Monash e-Science and Grid Engineering (MeSsAGE) Lab and the University of Queensland Research Computing Centre, (RCC) in which disruptive technologies are trialled in practice. These platforms incorporate a student training component that offers international research internships to undergraduates, and a virtual seminar program that allows local researchers and students to interact with some of the world's leading experts. Through industry engagement, the platforms also lead to commercial outcomes that have longer term benefits for the research organisations.

12:00 Lunch – Level 2 – 1:30 Birds of a Feather (BOF) Lunches in the Clarendon Room, Level 5 p.m. • John Taylor: Keynote speakers. • Nick Car: Provenance capture, storage and management tools – Where are we up to in 2016? • Justin Baker: Virtual reality for scientific visualisation. • Liming Zhu: Data platforms and distributed analytics.

1:30 – Research data management Computational imaging and Computationally intensive Computational geosciences Advanced materials and 3:00 Chair: Gareth Williams visualisation environmental modelling Chair: Thomas Poulet modelling p.m. Room: Clarendon Chair: Dadong Wang Chair: Emlyn Jones Room: Clarendon C Chair: Sam Yang Auditorium Room: Clarendon E Room: Clarendon D Room: Clarendon F

Scale and Performance: Graph-based segmentation Numerical modelling of Fast x-ray computed No more volume-resolution Servicing the Fabric and the Xuming He, Data61 suspended sediment microtomography applied to limits: multi-scale rock image Workshop transport in GBR multi-phase flow through fusion Steve Quenette, Monash Nugzar Margvelashvili, O&A porous media Kirill Gerke, Melbourne eResearch Centre Ryan Armstrong, UNSW University

Page 3 of 14 Visualisation Tools for Wide Data fusion for the High dimensional particle- Discrete fracture networks in Modelling of Electron Beam Application to CSIRO Data monitoring of land covers filters for quantifying soil probabilistic excavation Additive Manufacturing of Cubes Peter Caccetta, Data61 carbon stocks: an application analysis and blast design for Aluminium alloys Peter Briggs, O&A to the Millennium Tillage mining Vu Nguyen, Manufacturing 3D Imaging-Guided High Trial, New Zealand Marc Elmouttie, Energy Data Processing eResearch Throughput Optimisation of Dan Pagendam, Data61 Computational design of Collaboration projects Stem Cell Differentiation Synthetic Geology - Exploring aerospace coatings update Ron Li, Data61 Comparison of uncertainty the 'what if?' in geology Fiona Chen, Manufacturing Chris Russell, IMT estimation methods for Jens Klump, Mineral Robert Davy, IMT Recent feasibility studies of extreme events Resources Exploring adsorption X-ray phase-contrast Quanxi Shao, Data61 configurations of small OzNome mammographic tomography Multiscale model for molecules on metal and alloy David Lemon, L&W with synchrotron and Performance enhancements predicting shear zone surfaces laboratory sources in SHOC using MPI and GPU structure and permeability in Michael Breedon, Tim Gureyev, University of technologies deforming rock Manufacturing Melbourne Farhan Rizwi, O&A Gerald Pereira, Data61 Data Analytics and Machine Constraining a 3D geological simulations for Learning in Nanomaterials computationally expensive mineral exploration: Discovery high dimension marine BGC transferring our workflow Michael Fernadez Llamosa, model of the Great Barrier from the desktop to a Manufacturing Reef using data assimilation supercomputer Emlyn Jones, O&A Heather Sheldon, Mineral Resources Simulating the Australian climate at regional scales using the Conformal Cubic Atmospheric Model Marcus Thatcher, O&A Paul Ryan, IMT

3:00 – Afternoon Tea 3:30 p.m.

Page 4 of 14 3:30 – Research data publication Computational imaging and Computational modelling of Extreme event modelling Advanced materials and 5:00 & impact visualisation natural hazards and impact study modelling p.m. Chair: Anne Stevenson Chair: Dadong Wang Chair: Vincent Lemiale Chair: Quanxi Shao Chair: Sam Yang Room: Clarendon Room: Clarendon E Room: Clarendon D Room: Clarendon C Room: Clarendon F Auditorium

Big Data Challenges for the Scyllarus: crossing the chasm An integrated approach to Statistical modelling of Density functional theory Science of Small Things between imaging urban flood modelling and extreme climate events modelling of ZnO nanowires for Amanda Barnard, spectroscopy research and adaptation Warren Jin, Data61 gas sensor reactions Manufacturing an application programming Mahesh Prakash, Data61 Michelle J.S. Spencer, RMIT interface From knowledge to action: Shining Light into the Black Antonio Robles-Kelly, Data61 City Engines – A tool to where extreme events The Materials Genome in Box - Publication and manage risks for resilient research fits Action: Identifying the Citation of Scientific The emergence of large communities Steven Crimp, Agriculture Performance Limits of Physical Software clinical studies merging Yong-Bing Khoo, L&W Hydrogen Storage Jens Klump, Mineral genomics, biomarkers, and Data analytics approach to Aaron Thornton, Manufacturing Resources imaging, challenges Use of high-resolution detecting flood-triggered bioinformatics capabilities regional models for connectivity between river Accurate electronic-structure Who’s been using my stuff? Olivier Salvado, H&B simulation of extreme channel and floodplain modelling with Quantum Tracking data citations weather and other natural Tony Zhao, L&W Monte Carlo Dom Hogan, IMT Image Analysis with Insect hazards Manolo Per, Manufacturing Soup and Insect Wings Jack Katzfey, O&A Financial crisis and its Changming Sun, Data61 complexity Structure-property Nearshore coastal modelling Ross Barry, First State Super relationships in methacrylic Annotating 3D scans on the for coastal hazards, climate ester polymers web adaption and renewable Extreme event modelling: Brad Wells, Manufacturing Matt Adcock, Data61 energy applications practical issues and Kathy McInnes, O&A treatments Dynamic Catalytic Efficiency in Quanxi Shao, Data61 Metallic Nanoparticles Hector Barron Escobar, Manufacturing

Page 5 of 14 5:00 – Poster Session 6:30 Chair: Paulo De Souza p.m. • Refreshments will be served • Prizes will be awarded to the best science poster and the best science support poster

Room: Clarendon Auditorium Foyer

Author Organisation Title

1 Ian G. Watterson CSIRO Daily rainfall in Australian gridded data sets, and the dependence on resolution

2 Damien Watkins CSIRO Workspace scientific workflow platform

3 F. Chen, M. Breedon, D. CSIRO High throughput Imaging of Reaction arrays Borsi, I. Cole

4 Andreas Moll, Ulrich Australian Synchrotron Computing developments and tools supporting beamline science at the Australian Synchrotron Felzmann, Nathan Mudie

5 Gary Ruben (CSIRO), Martin CSIRO, Fluorescence Tomography with Absorptive Samples at the Australian Synchrotron D. de Jonge (Australian Australian Synchrotron Synchrotron), Sheridan C. Mayo (CSIRO) and Chris G. Ryan (CSIRO) 6 Carina Kemp and Ole Geoscience Australia Scientific Data and Computing at Geoscience Australia Nielsen 7 T'Mir Danger Julius - Swinburne University, IPGOD - the Harmonisation and Matching of Intellectual Property Rights Holders at IP Australia Swinburne University of Ecole polytechnique fédérale Technology, Gaétan de de Lausanne Rassenfosse - Ecole polytechnique fédérale de Lausanne 8 Tomasz Bednarz CSIRO Immersive Mixed Reality environments as modern interactive visualisation platforms

9 Liming Zhu CSIRO Data platforms and distributed analytics

Page 6 of 14 10 Joan Boulanger and C Y CSIRO S-DNS of Gas-Liquid Separation in a Pipe T-Junction Wong

11 Simon J D Cox, Ben P CSIRO, Publishing semantic vocabularies to support data and service interoperability Leighton, Sally Tetreault- Geoscience Australia Campbell, Jonathan Yu, Nick Car 12 Qing Liu CSIRO Semantic comparison of multi-granularity provenance traces

13 Keyu Liu, Xiu Huang, Petro China Company Limited Coupled forward stratigraphic and basin modelling Jianliang Liu, Jian Wang

14 Wenbin Jiang, Mian Lin Institute of mechanics, A new upscaling model for shale sample based on FIB-SEM images Chinese Academy of Sciences

15 Martin Cope, Xavier Ho CSIRO Smoke and Fire: Air Pollution Visualisation in Australia

16 John Page, James Dempsey CSIRO Data Access Portal – Opening the door to CSIRO data

17 J. Chapman, C. Love, J. CSIRO & Pawsey CASDA: The CSIRO ASKAP SCIENCE DATA ARCHIVE, Supporting science through data Dempsey, D. Miller, I. Supercomputing Centre management Heywood (CSIRO), G. Beckett (Pawsey Supercomputing Centre)

18 Kathryn Lomas, Malsha CSIRO Applications for acoustic lipids Wickramaratna, Tim Hughes

19 Charlotte Sennersten, Craig CSIRO 4D+ Internet -VoxelNet Lindley, David Jakes, Ryan Thomas, Llewyn Salt, Julian Wise, Andrew Davie, David Biggins, ...

Page 7 of 14 20 Baichuan Sun, Brad A. Wells, CSIRO Visualisation of Nanomaterials Hector Barron Escobar, Michael Breedon, Michael Fernadez Llamosa, Manolo C. Per, Amanda S. Barnard

21 Deidre Cleland, Manolo Per, CSIRO Unscrambling the energetic ordering of C20 isomers with accurate Quantum Monte Carlo Nandun Thellamurge, calculations Amanda Barnard, Kristina Johnson, Ellen Swann, Rob Rees 22 Yanfei Wang Inst of Geology & Geophysics, Regularization and optimization methods for data constrained microstructure imaging in shale Chinese Academy of Sciences with X-ray micro-CT

23 Kirill M. Gerke, Marina V. University of Melbourne Multi-scale multi-physics modelling of porous media structure and transport properties Karsanina, Timofey O. Sizonenko

24 Giorgio Urso, Kirill M. Gerke University of Melbourne Solving direct pore-scale flow problems using smoothed particle hydrodynamics

25 Ben Swift CSIRO Live Programming in HPC

26 Piotr Szul, Yulia Arzhaeva, CSIRO Platform for Big Data and Visual Analytics - Developing Big Data Capabilities in CSIRO Tomasz Bednarz, David Benn, Ryan Lagerstrom, Surya Nepal, Oliver Obst, John Taylor, et. al.

27 Michael Fernandez, Chris CSIRO Recognition of High-Performing Nanoporous Materials using Convolutional Neural Networks Watkins, Florence Wang, Amanda Barnard

28 Trams Wang, Daniel Sun, CSIRO Trustworthiness and Provenance of Big Data Analytics - An Implementation with Apache Pig Surya Nepal, Liming Zhu

Page 8 of 14 29 Jenny Vuong, Julian CSIRO Visualizing data quality via aesthetics and Mechanical Turk Heinrich, Sandeep Kaur, Seán I. O'Donoghue

30 Timur Gureyev, Yakov CSIRO Recent feasibility studies of X-ray phase-contrast mammographic tomography at the Australian Nesterets, Matthew and Elettra Synchrotrons Dimmock, Benedicta Arhatari, Chris Hall, Sheridan Mayo, Darren Thompson, Konstantin Pavlov, David Paganin and Giuliana Tromba

7:00 – Conference Dinner 11:00 ‘The Cargo Hall’ Event Centre, 39 South Wharf Promenade p.m. Speaker: Paulo de Souza Title: Can bees with backpacks bring scientists together and secure our food supply? Abstract: The Global Initiative for Honey bee Health (GIHH) is an international collaboration of researchers, beekeepers, farmers, industry and technology companies set up to research the threats to bee health in order to better understand bee colony collapse and find solutions that will help secure crop pollination. It is not possible for a single research group or organisation to mount a program aimed at protecting honey bee health alone. In response, CSIRO is leading the GIHH – a tightly-focused, well-coordinated national and international effort that is addressing the challenges facing honey bee health globally.

CSIRO is well placed to lead this initiative. Our scientists can contribute core capability, knowledge and technology along with expertise in biosecurity, bee pathology, pollination and landscape ecology, and micro-sensing technologies and systems and data management. The GIHH aims to protect and improve the health of honey bees, ensure sustainable production of crops dependent on honey bee pollination, and increase productivity through coordinated management of pollination. In doing so, we can increase the environmental and economic benefits for farmers and beekeepers while making a valuable contribution to sustainable farming practices and food security.

Page 9 of 14 Thursday 3rd March Chair: John Taylor Location Clarendon Rooms Level 2

9:00 Keynote: Genevieve Bell, Intel Corporation – Location: Clarendon Auditorium 10:00 Title: Building the Future a.m. Abstract: In 1965, Gordon Moore wrote an article in which he laid out his theory about the growth of integrated circuits. We now know this as “Moore’s Law”. In that same article, he also wrote about what the world might do with all that new processor power. He said: “Integrated circuits will lead to such wonders as home computers – or at least terminal connected to a central computer – automatic controls for automobiles and personal portable communication equipment. The electronic watch only needs a display to be feasible today.” It is remarkable some 50 years later to realize how much of this has come to pass. Not all predictions about the future are so sage or accurate. Indeed, the business of predicting the future is inevitably a messy one, littered with jet packs and settlements on Mars. So how might we approach the future? What could we learn? And how might that help us make better decisions today and in the near future?

10:00 Morning Tea – 10:30 a.m. 10:30 eResearch platforms Big data analytics and Modelling molecular Bioinformatics FOAM Earth Observation – Chair: Garry Swan visual analytics aspects of biological Chair: Annette McGrath Informatics: 12:00 Room: Clarendon E Chair: Piotr Szul systems Room: Clarendon Application of informatics to Room: Clarendon D Chair: Dave Winkler Auditorium geosciences and remote Room: Clarendon C sensing Data assets like to flow: Big Data in an HPC World GHAP: A fast, flexible Chair: Robert Woodcock how to make your research Robert M Wallace, U.S. Manipulating the interface amplicon pipeline Room: Clarendon F flow Army Engineer Research between biomolecules and Paul Greenfield, O&A Rene Tyhouse, IMT and Development Center inorganic nanoparticles: in- Building low-cost marine Information Technology situ growth, organisation Marine microbial domain awareness resources HPC personality types: Laboratory and activation in water genomics - An Ocean of – a statistical model of the which one is compatible Tiffany Walsh, Deakin Data distribution of fishing vessels with your research University Tim Kahlke, O&A in space and time estimated Steve McMahon, IMT from NOAA VIIRS data Chris Wilcox, O&A

Page 10 of 14 Ruby: an overview of the Big Data Technologies for Molecular modelling of Advantages, Concerns Publishing Physical Samples' world’s first installed SGI eScience: Trends, dynamics and docking in an and Caveats with Records On the Web UV3000 Challenges and antibiotic target enzyme omics data processing – a Anusuriya Devaraju, Mineral Peter Edwards, IMT Opportunities Matthew Downton, IBM microbial Resources Surya Nepal, Data61 ecologist perspective Reaching beyond: National Materials modelling using Gupta Vadakattu, Mapping geochemistry from facilities our partners Integrated IoT data artificial neural networks Agriculture XRF analyses at points enabling your research management in Smart Tu Le, Manufacturing (attached) and data-driven Robert Bell, IMT Cities Sketching k-mer counts knowledge discovery Arkady Zaslavsky, Data61 Large scale computational Chris Webers, Data61 Elisabeth Bui, L&W Questions and Wrap-up modelling of the binding of Garry Swan, IMT noble gases to human Spectral databases, IGSN proteins to identify new and data publication clinical agents Jens Klump, Mineral Dave Winkler, Resources Manufacturing

12:00 Lunch – Level 2 – Birds of a Feather (BOF) Lunches in the Clarendon Room, Level 5 1:30 • John Taylor: Keynote speakers. p.m. • Tomasz Bednarz, Xavier Ho, Kristina Johnson: Visualisation, Graphics and Visual Analytics. • Tom Harwood: National and global scale spatial modelling: opportunities for collaboration, data and model sharing between all disciplines. • Jonathan Yu: Curating and publishing scientific knowledge: vocabularies, keywords and linked data. • Gareth Williams: Sustaining services that emerge from research.

1:30 eResearch applications Big data analytics and visual Data-driven scientific Bioinformatics FOAM Earth observation – Chair: Sam Moskwa analytics collaboration and Chair: Annette McGrath informatics: Case Studies 3:00 Room: Clarendon E Chair: Piotr Szul discovery Room: Clarendon Chair: Anusuriya Devaraju p.m. Room: Clarendon D Chair: John Zic Auditorium Room: Clarendon F Room: Clarendon C Making complex science How Can Machine Learning Biokanga Solutions to assist algal easy and intuitive with Make Impacts? A Collaborative Pulsar Stuart Stephen, Agriculture management in rivers and animation Fang Chen, Data61 Discovery Platform built lakes based on Earth Drew Berry, WEHI on Amazon Cloud Services Observation technologies Chen Wang, Data61 Tim Malthus, O&A

Page 11 of 14 Geoscience Australia, High Spatial Inference and WebGL Building the astronomical 1. Bioinformatics capability An Australian cal/val Performance Computing, Visualisation with the 'Terria data archives of the future development perspective on future and Virtual Labs Inference Engine’ Amr H. Hassan, Swinburne 2. Bioinformatics software Satellite altimetry missions David Lescinsky, Geoscience Lachlan McCalman, Data61 University of Technology release for oceanography and sea Australia Open discussion level Challenges in Cross Understanding the Benoit Legresy, O&A Modelling Nanoparticle Jurisdiction Data Integration ephemeral Universe using Aggregation using SNAP Iman Avazpour, Swinburne the world's largest Rangeland and cropland George Opletal, University of Technology telescopes: Opportunities monitoring using the Manufacturing and challenges in the era Australian Geoscience From Tweets to situation of big data Datacube SC Apps Help and Rescue awareness Ryan Shannon, CASS Juan Guerschman, L&W Maciej Golebiewski, IMT Robert Power, Data61 AeroSpan: Aerosol assessment for Australian Earth Observation Ross Mitchell, O&A International developments - UN SDG’s, WorldBank Arnold Dekker, L&W

3:00 Afternoon Tea – 3:15 p.m. 3:15 eResearch workflows ACCESS applications, Astronomy/astrophysics Bioinformatics FOAM Earth observation – Chair: Tim Ho challenges and roadmap Chair: Matthew Whiting Chair: Annette McGrath informatics: Sensing and 4:45 Room: Clarendon E Chair: Tim Pugh, BOM Room: Clarendon C Room: Clarendon processing p.m. Room: Clarendon D Auditorium Chair: Tim Malthus Workflow service Using Multi-Nested Room: Clarendon F Tim Ho, IMT ACCESS directions and climate sampling on ASKAP data A custom sequence modelling to detect star fuel over 4 annotation database Cloud removal in remote Galaxy Tony Hirst, O&A billion light years away query system sensing image analysis Steve McMahon, IMT James Allison, CASS Andrew Spriggs, Agriculture Peter Caccetta, Data61

Page 12 of 14 Workspace Bureau ACCESS modelling Building the High- Genomic visualisations for Research into establishing Damien Watkins, Data61 plans and activities performance ASKAP ongoing sequencing a dedicated vicarious Michael Naughton, BoM Science pipeline projects calibration site for imaging eResearch Workflow Matthew Whiting, CASS Stephen Pearce, L&W spectroscopy in Australia’s projects CWSLab facilitating research hinterland Joel Ludbey, IMT for ACCESS modelling The CSIRO ASKAP The Devil in the Parasite Tim Malthus, O&A / Cindy Aurel Moise, BoM Science Data Archive and Natasha Botwright, Ong, Mineral Resources Zebedee data processing Martin Dix, O&A the Virtual Observatory Agriculture and visualisation James Dempsey, IMT GEO-LEO approach to Debbie Crawford, L&W ACCESS Optimisation Comprehensive Annotation retrieve aerosol and land achievements and plans of Multigenic Protein- surface BRDF using Ben Evans, ANU Family Structures (CAMPS) Himawari/AHI and MODIS David Clarke, L&W Yi Qin, O&A Point based Verification of temperature and wind during An Atomic Clock Network the Sydney Forecast for Precision Gravity Demonstration Project Measurement Shaun Cooper, BoM Stephen Gensemer, Manufacturing

4:45 Conference Summary – Chair: John Taylor 5:00 Room: Clarendon Auditorium p.m. 5:00 Conference Concludes p.m.

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Friday 4th March – Workshops Chair: Alf Uhlherr Clarendon Rooms Level 2 and Level 5

Time Location Workshop Convenor

9:00 a.m. – Clarendon D, Level 2 Science software development Sam Moskwa 5:00 p.m.

9:00 a.m. – Clarendon C, Level 2 CSIRO Earth Observation Informatics Workshop - the future of EOI Robert Woodcock 5:00 p.m. (previously Australian Geoscience Data Cube)

9:00 a.m. – Clarendon B, Level 5 Effective use of visualisation in science and eResearch Tomasz Bednarz 5:00 p.m.

9:00 a.m. – Clarendon E, Level 2 3D simulation and microstructure Sam Yang 5:00 p.m. 9:00 a.m. – Clarendon F, Level 2 Writing a Workspace plug-in Damien Watkins 5:00 p.m.

9:00 a.m. – Clarendon A, Level 5 Bioinformatics FOAM Annette McGrath 5:00 p.m.

9:00 a.m. – CSIRO Clayton MOOSE Andy Wilkins 2:00 p.m.

WORKSHOP BREAK TIMES Break Morning Tea Lunch Afternoon Tea Time 10:30am - 11:00am 12:30pm - 1:30pm 3:00pm - 3:30pm

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