Welcome to the PAW-ATM Workshop.

• Proceedings
• Program
• Important dates
• Summary
• Scope and Aims
• Topics
• Submissions
• Organization
  • Workshop Chair
  • Organizing Committee
  • Program Committee Chair
  • Program Committee
  • Advisory Committee
• Contact

Program

• 8:30 - 9:10 Anshu Dubey - Argonne National Laboratory
          Keynote Speaker
          An Application Perspective on Programming Models for the Future
       (Abstract, Presentation)


• 9:10 - 9:20 Soren Rasmussen, Ethan D Gutmann, Brian Friesen, Damian Rouson,
        Salvatore Filippone and Irene Moulitsas
          Development and performance comparison of MPI and Fortran
          Coarrays within an atmospheric research model
(Presentation)

• 9:20 - 9:35 Muhammed Abdullah Al Ahad, Christian Simmendinger,
        Roman Iakymchuk, Erwin Laure and Stefano Markidis
          Efficient Algorithms for Collective Operations with Notified
         Communication in Shared Windows
(Presentation)

• 9:35 - 9:50 Jonas Posner, Lukas Reitz and Claudia Fohry
          Comparison of the HPC and Big Data Java Libraries Spark, PCJ and APGAS
(Presentation)

• 9:50 - 10:00 James Bordner and Michael L. Norman
          Computational Cosmology and Astrophysics on Adaptive Meshes
          using Charm++
(Presentation)


• 10:00 - 10:30 Break



• 10:30 - 10:45 Paul H. Hargrove and Dan Bonachea
          GASNet-EX Performance Improvements Due to Specialization for the
         Cray Aries Network
(Presentation)

• 10:45 - 11:00 Louis Jenkins, Marcin Zalewski and Michael Ferguson
          Chapel Aggregation Library (CAL)
(Presentation)

• 11:00 - 11:15 Maximilian H Bremer, John D Bachan and Cy P Chan
          Semi-Static and Dynamic Load Balancing for Asynchronous Hurricane
         Storm Surge Simulations
(Presentation)

• 11:15 - 11:30 Martin Biel and Mikael Johansson
          Distributed L-shaped Algorithms in Julia
(Presentation)

• 11:30 - 12:00 Benjamin Robbins - Cray Inc.
       Panel Chair
       Panel Discussion
       Panelists:       
• Bradford L. Chamberlain - Cray Inc.
• Anshu Dubey - Argonne National Laboratory (ANL)
• Salvatore Filippone - Cranfield University, UK
• Kimberly Keeton - Hewlett Packard Enterprise (HPE)

Important dates

• Submission Deadline: July 31, 2018 August 15, 2018
• Author Notification: September 1, 2018 September 10, 2018
• Camera Ready: October 1, 2018
• Workshop Date: November 16, 2018 (8:30am - 12:00pm)

Summary

As high-performance computing hardware incorporates increasing levels of heterogeneity, hierarchical organization, and complexity, parallel programming techniques necessarily grow in complexity or in their ability to abstract away complexity. The concurrent development of multi- and many-core processors, deep memory hierarchies, and accelerators and the variety of ways to combine these makes the low-level language route unmanageable for domain experts tasked with developing applications. The technologies that a competent developer might be expected to master and combine include MPI plus CUDA, OpenMP, and OpenACC, most commonly denoted MPI + X. This approach inherently saddles the developer with low-level details that might better be handled by high-level abstractions.

Higher-level parallel programming models offer rich sets of abstractions that feel natural in the intended applications. Such approaches include programming languages (Fortran, UPC, Chapel, Julia), systems for large-scale data processing and analytics (Spark, Tensorflow, Dask), and frameworks and libraries that extend existing languages (Charm++, UPC++, Coarray C++, HPX, Legion, Global Arrays). While there are tremendous differences between these approaches, all strive to support better programmer abstractions for concerns such as data parallelism, task parallelism, dynamic load balancing, and data placement across the memory hierarchy.

This workshop will bring together applications experts who will present concrete practical examples of using such alternatives to MPI in order to illustrate the benefits of high-level approaches to scalable programming. The workshop expands upon the two similar workshops, PAW16 and PAW17, by broadening the theme beyond partitioned global address space languages. We invite you to take part in the Parallel Applications Workshop, Alternatives To MPI, and to join this vibrant and diverse community of researchers and developers.

Scope and Aims

The scope of the PAW-ATM workshop is to provide a forum for exhibiting case studies of higher-level programming models as MPI alternatives in the context of applications as a means of better understanding applications of MPI alternatives. We encourage the submission of papers and talks detailing such applications, including characterizations of scalability and performance, of expressiveness and programmability, as well as any downsides or areas for improvement in existing higher-level programming models. In addition to informing other application programmers about the potential that is available through MPI alternatives, the workshop is designed to communicate these experiences to compiler vendors, library developers, and system architects in order to achieve broader support for high-level approaches to scalable programming.

We also specifically encourage submissions covering big data analytics, deep learning, and other novel and emerging application areas, beyond well established HPC domains.

Topics

Topics include, but are not limited to:

• Novel application development using parallel programming languages.
• Examples that demonstrate performance, compiler
optimization, error checking, and reduced software complexity.
• Applications from big data analytics, bioinformatics, and other
novel areas.
• Performance evaluation of applications developed using MPI alternatives.
• Algorithmic models enabled by high-level parallel abstractions.
• Experience with the use of new compiler and runtime environments.
• Libraries using or supporting MPI alternatives.
• Benefits of hardware abstraction and data
locality on algorithm implementation.

Submissions

Submissions are solicited in two categories: