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2018 Symposium of the Center for Network and Storage Enabled Collaborative Computational Science

America/Detroit
North Quad room 2435 (University of Michigan)

North Quad room 2435

University of Michigan

105 S. State St. Ann Arbor, MI 48109-1285
Dan Meisler (University of Michigan), Shawn Mc Kee (University of Michigan (US))
Description

The Center for Network and Storage Enabled Collaborative Computation is hosting its second Symposium on October 15 and 16, 2018, exploring the themes the Center was founded on. The Center seeks to address the challenges of extracting scientific results collaboratively from large, distributed or diverse data.

Venue: North Quad room 2435, University of Michigan, Ann Arbor

Google map of venue and social dinner

The Challenge: Many scientific disciplines are rapidly increasing the size, variety and complexity of data they must work with. As the data grows, scientists are challenged to manage, share and analyze that data and become diverted from a focus on their scientific research to data-access and data-management concerns. Even more problematic is determining how to support many scientists sharing and accessing this ever increasing amount of data.

The Center is working to respond to those challenges broadly. Included in the Center is the NSF-funded OSiRIS project, a collaborative, multi-university venture led by MICDE faculty, and hosted by ARC-TS.

The following questions illustrate some of the focus areas the Center is seeking to address:

  • What are the best practices for collaboratively working on large, potentially diverse or distributed, datasets?
  • What tools, technologies and techniques are most effective at addressing the challenges faced by such researchers?
  • How should data best be stored, organized, indexed and made accessible to improve the ability of scientists to jointly work with one another, especially across the dimensions of time and space?

This symposium is intended to bring together those interested in these questions to share experiences and best practices, and to discuss both challenges and possible solutions that enable scientists to work together on “big, distributed or diverse data”.

Speakers will come from a wide range of research domains, as well as federal funding agencies.   Please contact the local organizing committee if you have suggestions for speakers!

Confirmed speakers:

  • Stefan Robila, Program Director, Office of Advanced Cyberinfrastructure, Research Core Program, National Science Foundation
  • Saul Youssef, Research Associate Professor, Boston University Department of Physics.
  • Ilkay Altintas, Director, Center of Excellence in Workflows for Data Science, San Diego Supercomputer Center, University of California, San Diego
  • Allison Steiner, Professor, Department of Climate and Space Science and Engineering, University of Michigan
  • Chris Miller, Associate Professor of Astronomy and Physics, University of Michigan
  • Jesse Capecelatro, Assistant Professor, Mechanical Engineering, University of Michigan
  • Alberto Figueroa, Professor, Biomedical Engineering, University of Michigan
  • Ivo Dinov, Professor, Computational Medicine and Bioinformatics, School of Nursing; Associate Director, Education and Training of the Michigan Institute for Data Science (MIDAS), University of Michigan
  • Shawn McKee, Research Scientist, Department of Physics, U-M; Director, Center for Network and Storage Enabled Collaborative Computational Science (CNSECCS)
     

We are looking forward to a rich program of presentations and discussions and hope you are able to participate. 

We would like to gratefully acknowledge MICDE (https://micde.umich.edu/) and UMOR (http://www.research.umich.edu/research-um/office-research) whose support helped make this Symposium possible.

Participants
  • Alauddin Ahmed
  • Allison Steiner
  • Amaresh Joshi
  • Andy Palms
  • Aragorn Steiger
  • August Evrard
  • Benjeman Meekhof
  • Bradley Dice
  • Brock Palen
  • C. Alberto Figueroa
  • Charlene Tao
  • Christopher Miller
  • Dave Daniszewski
  • DR E Spindler
  • Dwight Saunders
  • Eric Michielssen
  • Erin Kaleba
  • Eulyeon Ko
  • Everardo Olide
  • Gabriele Carcassi
  • Gage Glupker
  • George Alter
  • Glenn Tarcea
  • Gregory Teichert
  • Ilkay Altintas
  • Ivo Dinov
  • Jenni Hartman
  • Jesse Capecelateo
  • Jim Kenyon
  • JP Eldous
  • Jule Krüger
  • Kinnothan Nelson
  • Krishna Garikipati
  • Kwangnam Kim
  • Mariana Carrasco-Teja
  • Masudi seydy
  • Mfuamba fils sebastioen
  • Michael Thompson
  • Pengyuan Xiu
  • Ping Hou
  • Pratik Danu
  • Qiushi Yu
  • Richard Gonzalez
  • Richard Knepper
  • Robert Ball
  • Saul Youssef
  • Scott Witmer
  • Sharon Broude Geva
  • Shawn Mc Kee
  • Sheikh Shuvo
  • Stefan Robila
  • Susan Borda
  • Victor Fuentes
  • Wenjing Wu
  • Zawadi henry
  • Monday 15 October
    • 08:15 09:00
      Coffee and Snacks: Coffee and Snacks, Registration North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285
    • 09:00 09:45
      Welcome and Overview North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285

      The logistical details, welcome address and overview

    • 09:45 11:30
      Science Use-Cases: Session 1 North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285
      • 09:45
        Climate Data: Generating, Accessing and Using Large and Diverse Datasets 30m

        Climate scientists conducting research on past, present and future climate use three-dimensional general circulation models to probe questions about the atmosphere and the Earth System. This scientific process generates massive amounts of data covering a broad spatio-temporal range. One example of coordinated climate modeling efforts is the Climate Model Intercomparison Project (CMIP) as part of the Intergovernmental Panel on Climate Change (IPCC) synthesis reports. Generating these data, archiving them in publicly accessible platforms requires a large amount of coordination between global research groups. Accessing this data requires a dedicated amount of training, knowledge of how to use the data, and data storage needs. In this talk, I will discuss climate data from three perspectives: (1) as a climate data generator creating new data to be used in the public domain, (2) as a climate data user who needs to access and analyze climate model intercomparison data, and (3) as a data steward in a role as a journal editor, due to the new requirements by peer-reviewed journals for publicly available data for all publications. Additionally, I will share experiences in teaching data access, usability, and management to graduate students at the University of Michigan who are interested in using and analyzing climate data for a variety of applied climate projects.

        Speaker: Allison Steiner (University of Michigan)
      • 10:15
        Coffee break 45m
      • 11:00
        Advanced Computational Modeling Tools for Patient-specific Hemodynamic Analysis 30m

        Advances in numerical methods and three-dimensional imaging techniques have enabled the quantification of cardiovascular mechanics in subject-specific anatomic and physiologic models. Research efforts have been focused mainly on three areas: i) pathogenesis of vascular disease, ii) development of medical devices, and iii) virtual surgical planning.
        However, despite great initial promise, the actual use of patient-specific computer modelling in the clinic has been very limited. Clinical diagnosis still relies on traditional methods based on imaging and invasive measurements. The same invasive trial-and-error paradigm is often seen in vascular disease research, where animal models are used profusely to quantify simple metrics that could perhaps be evaluated via non-invasive computer modelling techniques. Lastly, medical device manufacturers rely mostly on in-vitro models to investigate the anatomic variations, arterial deformations, and biomechanical forces needed for the design of medical devices.

        Our laboratory has been developing an integrated image-based computer modelling framework for subject-specific cardiovascular simulation CRIMSON (www.crimson.software) that can successfully bridge the gap between the research world and the clinic.

        In this talk, we will provide an overview of the most novel features for the software, specifically the functions for parameter estimation and simulation of transitional stages, and highlight a series of future developments for the project.

        Speaker: C. Alberto Figueroa (University of Michigan)
    • 12:00 13:30
      Lunch 1h 30m North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285
    • 13:30 14:45
      Lightning Talks: All Tracks North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285
      • 13:30
        Campus Integration projects: Building the base of a national cyberinfrastructure 15m

        This lightning talk discusses two ways for campuses to extend their cyberinfrastructure capabilities and broaden offerings for researchers: toolkits from the XSEDE Cyberinfrastructure Resource Integration team, and the Campus Compute Cooperative group.

        Campus resources, local clusters and storage, networking, and consulting, are the basic foundation for computational resources. Campus IT staff encounter challenges with implementing, maintaining, and extending these resources. Organizations such as XSEDE provide means for disseminating best practices, expertise, and configurations from national resources to campuses. The integration activities of XSEDE Cyberinfrastructure Integration group help campus IT professionals to implement and extend their local cyberinfrastructure in ways that allow researchers to leverage beyond the local to the national.

        Likewise, the Campus Compute Co-Operative project is in the process of building an exchange in which members can use resources at other institutions, either through exchange of like resources or through payments. The cooperative allows a campus to volunteer resources that may be in excess supply in exchange for resources at other institutions that may have particular capabilities that are required. The cooperative allows its members to make use of a broader range of resources without forcing each campus to acquire all types of resources that may be in demand, extending the range of capabilities for members.

        Speaker: Richard Knepper (Cornell University)
      • 13:45
        XSEDE: Collaboration through shared computing resources, data, and expertise 15m

        The Extreme Science and Engineering Discovery Environment (XSEDE) provides an environment for computing resources, data, and knowledge to be shared by researchers worldwide. High-performance and high-throughput computing resources, including large memory nodes and GPUs, as well as data storage and transfer services, facilitate collaborations across multiple institutions for creating and analyzing large data. XSEDE also provides resources to host Science Gateways, which provide higher level interfaces for users to access data, software, and computing resources. Examples of XSEDE Gateways include portals for accessing software for analyzing variability in biological shape, a repository of mathematical formulae, and resources to perform quantum chemistry and molecular dynamics computations. Additional cyberinfrastructure expertise is made available through XSEDE's Extended Collaborative Support Services (ECSS), which supports meaningful collaborations with experts in a variety of areas, including performance analysis, I/O optimization, data analytics, etc. Through these and other resources, XSEDE is a prime tool for the collaboration of scientific researchers.

        Speaker: Gregory Teichert (University of Michigan)
      • 14:00
        Modern Multi-tier Storage in Campus Environments 15m

        Data volumes and data variety on campus has grown drastically in recent years. ARC-TS, the research computing provider at the University of Michigan embarked on a project to provide mult-tier storage environment for our research community. The goals of this project was to meet several needs:

        • Address the needs of both open-science and restricted data
        • Apply performance levels and costs that match the data domain
        • Support matching research life cycle, tracking the value of the data over time

        This short talk will address how we addressed this need and our experiences and challenges along the way. We will also address what we think our next steps are to make data more accessible and portable between local and remote environments.

        Speaker: Brock Palen
      • 14:15
        Challenges of automated data transfer with ePHI 15m

        Many researchers are interested in lab test results from external vendors beyond what is normally reported in the clinic. They have a need to retrieve the data from vendors, deidentify it, and send the deidentified data to the final analysis location. Automating this process is convenient for the research team and also helps protect the patient data further. However, this provides unique challenges for the transfers.

        Speaker: Dr Deb McCaffrey (University of Michigan medical school)
      • 14:30
        You have data, we have questions! 15m

        Researchers put considerable time and effort into research, and the resulting data is a significant scholarly product. As with papers/articles/presentations, data should be treated like a first-class scholarly/research product that requires additional considerations. Publishers and funding agencies are requiring researchers to share supporting data, for example. Repository managers, data curators, and archivists would like to assist researchers in meeting such data requirements. However, many questions arise in the minds of those who would like to assist researchers, especially when it comes to more complicated data such as variety at the center of this symposium, large, collaborative, model or simulation driven computational data. This lightning talk will address important questions for researchers to consider as they deposit their research data.

        Here is a sampling of the issues researchers should think about:

        Reproducibility goals:
        Is there a further requirement for reproducibility or replicability? If so, is the dataset complete?

        Preservation goals:
        Is it worth it to keep simulation data long-term, more than ten years? If not, should anything remain, what would be of use to future researchers? Does the evolution and development of better/faster simulation software and computing technology over time make the preservation of older simulation data redundant? As it becomes easier to replicate simulations and rerun them as needed, does the actual data output need to be preserved, or just the inputs/parameters? Is there some simulation output data worth keeping? If so, what are the criteria?

        Re-use goals:
        Should the raw data be shared or only the “final,” analyzed data that directly support the figures in the paper? Could the raw data be useful to someone else in the same discipline or another one? What role do repositories play in the potential reuse of data? If researchers want to reuse someone else’s data, are they more likely to access it through a repository or contact the researcher directly? Libraries keep talking about data re-use as an important driver for data sharing, but is it?

        Answering these questions supports both the immediate goals of the dataset as well as anticipating what will be necessary to preserve and possibly re-use the data. Depending on the real needs of the researcher and dataset, the files and information included with the deposit may need to change. Data retention timelines may differ as well, depending on the method used to generate it.

        Speaker: Susan Borda (University of Michigan - Library)
    • 14:45 15:30
      Coffee Break 45m North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285
    • 15:30 16:00
      Funding Agency Perspectives: NSF Perspectives North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285
      • 15:30
        Supporting Advanced Research Cyberinfrastructure 30m

        The National Science Foundation Data connected programs have been long-term investments, focused on catalyzing new thinking, paradigms, and practices in developing and using a cyberinfrastructure that meshes data, software and services to understand natural, human, and engineered systems. This presentation will provide an overview of the NSF programs, focused on advanced research cyberinfrastructure. Building a vibrant cyberinfrastructure requires addressing multiple aspects including physical capabilities (high performance computing, networking), software, services, data, and workforce development. Science and engineering challenges and use cases drive the cyberinfrastructure development, and successful cyberinfrastructure systems strike a balance reflective of both the underlying technology and disciplinary research needs.


        As a participant of 2018 Symposium of the Center for Network and Storage Enabled Collaborative Computational Science, I hereby confirm that I prepared the materials presented at the meeting (the Contribution), including without limitation any soft cover, book club and collected editions anthologies, advance printing, reprints or print to order, microfilm editions audiograms and video grams in all forms and media expression including in electronic form, offline and online use, push or pull technologies use in databases and data networks, the internet and social media and other contribution materials as part of my duties as an employee of the U.S. Government. Therefore the Contribution is a work of the United States Government under the provisions of Title 17, Section 105 of the U.S. Code and, as such, U.S. copyright protection is not available. Accordingly, there is, under U.S. law, no U.S. copyright that may be assigned. Such U.S. Government works are in the public domain and may be used by members of the U.S. public without copyright restrictions.

        The U.S. Government is, however, the owner of any foreign copyright that can be asserted for this Contribution. Permission is hereby granted for Univ. of Michigan, its affiliates, and agents to use the Contribution internationally. This permission grant is subject to the following conditions:

        (1) the source of the Contribution shall be acknowledged;

        (2) the Contribution shall not be used in any manner that would suggest or imply endorsement by NSF or any NSF employee of your organization or your program;

        (3) NSF provides NO WARRANTIES OF ANY KIND, INCLUDING BUT NOT LIMITED TO ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, AND ANY WARRANTY WITH RESPECT TO INFRINGEMENT OF COPYRIGHT OR OTHER RIGHTS OF OTHERS.

        (4) the contribution will be published publicly and will therefore be accessible with my name plus the title of my talk plus the name of the event on the internet without any restrictions.

        Speaker: Stefan Robila (National Science Foundation)
    • 16:00 17:00
      Complementary Technology Solutions North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285
      • 16:00
        Reproducible computational workflows with signac 30m

        The open-source Python framework signac is designed to manage data sets and perform operations on the data in an efficient, reproducible, and collaborative way. The framework is particularly well-suited for data-driven exploration of file-based, dynamic and heterogeneous data spaces. In contrast to many databases and task executors, signac's serverless data management and signac-flow's portable workflow model ensure that workflows are just as easily executed on laptops as in high-performance computing environments. The signac approach not only increases research efficiency, it also improves reproducibility and lowers barriers for data sharing by transparently enabling the robust tracking, selection, and searching of data by its metadata. Collaboration on signac data spaces is as simple as using any shared network file system. In the last year, several features have been added to improve searching, synchronizing, importing, and exporting data.

        Speaker: Mr Bradley Dice (University of Michigan)
      • 16:30
        Distributed Data in Astronomy: A Heterogeneous Network 30m

        Astronomy is a data intensive science that utilizes remote sensing. Astronomical data has always been heterogeneous in terms of its distribution, accessibility and characterization. Today, the data have become so large that one is required to conduct the analysis at the location of the data, creating new challenges for data security. I will discuss different solutions for how astronomy is addressing these issues, including modern big data machinery such as Johns Hopkins "SciServer" and the National Optical Astronomy Observatory's "DataLab".

        Speaker: Christopher Miller (University of Michigan)
    • 18:30 20:30
      Social Dinner 2h

      We have a "self-pay" dinner on Monday, October 15th starting at 6:30 PM.
      Dinner details: Slurping Turtle (see http://slurpingturtle.com/annarbor/ ) is the dinner venue and is only two blocks away from the meeting location.

  • Tuesday 16 October
    • 08:15 09:00
      Coffee and Snacks North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285
    • 10:30 11:00
      Coffee Break 30m North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285
    • 11:00 12:00
      Science Use-Cases: Session 2 North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285
      • 11:00
        Big data challenges in understanding and modeling multiphase flows 30m

        Multiphase flows are ubiquitous in both engineering applications and the environment. Within the energy sector, such flows play fundamental roles in chemical transformation reactors, spray combustors, and slurry pipelines, to name just a few examples. Understanding and predicting such flows is key to ensuring optimal performance and improving design. Environmental processes such as gravity currents, hurricanes, debris flows, and atmospheric dispersion of pollutant particles also represent multiphase flows with great societal importance. Improving our understanding of these flows is critical to develop strategies to control them and mitigate their negative effects. The key challenge is attributed to the wide range of length- and time-scales inherent to these flows, which typically vary by many orders of magnitude. The advent of modern computing has led to significant progress in numerical modeling of multiphase flows, yet simulation capabilities at practical engineering and environmental scales still remain out of reach. In this talk, I will highlight the current state-of-the-art in numerical simulations of turbulent multiphase flows and highlight the key limitations and challenges. I will argue that model development and new insights into these complex flows are hindered by the availability of diverse large-scale datasets. Fast and open-source access to turbulent multiphase flow data would enable the scientific community to probe flow physics, test new models, and quantify uncertainty across different modeling approaches. The Johns Hopkins Turbulence Database is widely considered the 'go to' source for large-scale turbulence data. Meanwhile, an open-source database of canonical multiphase flows does not exist. The talk will conclude with a pithy description of what such a database might look like, and its potential impact.

        Speaker: Prof. Jesse Capecelateo (University of Michigan)
      • 11:30
        SAFRN: Statistics computed without sharing private data 30m

        Although government agencies, health providers, and organizations of all kinds collect and store data at an ever-increasing rate, much of the most valuable data is unavailable for research and policy due to the need to protect privacy. Extracting relevant information is especially difficult when research requires data residing in multiple locations with separate privacy controls. Stealth Software Technologies has partnered with ICPSR to implement a privacy-preserving statistical system that enables data analysis without requiring data owners to reveal any information about individuals to the analyst or to each other. Secure Multiparty Computation (MPC) is a framework that enables multiple data-holders to compute any joint function of their private inputs, while maintaining the privacy of each input. SAFRN will compute standard statistical analyses (crosstabulation, difference of means, regression, logistic regression) while provably maintaining the privacy of each participant's confidential information.

        Speaker: Prof. George Alter (University of Michigan)
    • 12:00 12:30
      Wrap Up, Questions and Discussion: Wrap, Questions and Discussion North Quad room 2435

      North Quad room 2435

      University of Michigan

      105 S. State St. Ann Arbor, MI 48109-1285