[hpc-announce] [ESSA'26] CFP - 7th Workshop on Extreme-Scale Storage and Analysis @ IEEE IPDPS 2026

Mon Dec 1 13:03:01 CST 2025

Apologies for possible cross-posting

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7th Workshop on Extreme-Scale Storage and Analysis (ESSA)

co-located with IEEE IPDPS 2026, May 25-29, 2026, New Orleans, USA

Website: https://urldefense.us/v3/__https://sites.google.com/view/essa-2026/home?authuser=0__;!!G_uCfscf7eWS!ZMml74rm7IdVO0LIt4d5OfuL-Ixw76NseF_pWDPKkm-WlV4SW7JhziWvxkkPv1c4kQzugBes9RvOZTrbemR7Szs$ 

Email contact for info: chen.wang at ntu.edu.sg and francois.tessier at inria.fr

Important dates

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* Paper submission deadline: January 23, 2026

* Paper notification: February 25, 2026

* Camera-ready deadline: March 6, 2026

* Workshop date: May 26, 2026

Call for Papers

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ESSA will focus on solutions that contribute to advancing storage, crucial
for HPC and cloud systems.

Advances in storage are becoming crucial as HPC and cloud systems handle
ever-increasing data, a trend expected to accelerate. For decades, parallel
file systems like Lustre and GPFS have seen few structural changes, with
limited integration of I/O support technologies that leverage hierarchical
storage layers, such as node-local burst buffers. Recently, however, there
has been a surge in innovations in data storage, processing systems, and
I/O support software for several key reasons:

   -

   Technology: The growing availability of persistent solid-state storage
   and storage-class memory technologies, capable of replacing both memory and
   disk, is opening up new possibilities for the design of storage systems.
   -

   Performance requirements: Disk-based parallel file systems are no longer
   sufficient to meet the performance demands of high-end systems. However,
   the optimal use of solid-state storage and storage-class memory to achieve
   the required performance remains unclear. As a result, new approaches for
   integrating these technologies into HPC systems are being actively
   developed and evaluated.
   -

   Application evolution: Data analysis applications, such as graph
   analytics and machine learning, are becoming increasingly critical in both
   scientific and commercial computing. I/O often presents a major bottleneck
   for these applications, particularly in cloud and HPC environments, where
   rapid turnaround or the integration of intensive computation and analysis
   is required. As a result, data storage, I/O, and processing demands are
   evolving, driven by the emergence of complex workflows that integrate
   computation, analytics, and learning.
   -

   Infrastructure evolution: In the future, HPC technology will extend
   beyond dedicated supercomputing centers. Concepts such as “Embedded HPC,”
   “HPC in a Box,” “HPC in the Loop,” “HPC in the Cloud,” “HPC as a Service,”
   and “near-real-time simulation” will drive the need for new, small-scale
   HPC deployment environments. To enable a seamless “computing continuum,” a
   federation of systems and functions will be needed, with unified mechanisms
   for managing I/O, storage, and data processing across all participating
   systems.
   -

   Virtualization and disaggregation: As virtualization and disaggregation
   become more widely adopted in cloud and HPC computing, the importance of
   virtualized storage is growing. Increased efforts will be required to
   understand its impact on performance.

Topics of interest

------------------

Our goals for the ESSA Workshop are to bring together leading researchers
and developers in data-related fields—such as storage, I/O, processing, and
analytics—on extreme-scale infrastructures, including HPC systems, clouds,
edge systems, and hybrid combinations of these. We aim to discuss
advancements and potential solutions to the new challenges we encounter. We
anticipate the ESSA Workshop will foster lively discussions across a broad
range of engaging topics, including:

- Extreme-scale storage systems for high-end HPC infrastructures, clouds,
or hybrid environments.

- Extreme-scale parallel distributed, storage architectures.

- Synergies between different storage models, including POSIX file systems,
object storage, key-value stores, and row- and column-oriented databases.

- Structures and interfaces for leveraging persistent solid-state storage
and storage-class memory.

- High-performance I/O libraries and services.

- I/O performance in extreme-scale systems and applications (HPC, clouds,
edge).

- Storage and data processing architectures for hybrid HPC/cloud/edge
infrastructures supporting complex workflows that integrate simulation and
analytics.

- Integrating computation within the memory and storage hierarchy to
facilitate in-situ & in-transit data processing.

- I/O characterization and data processing techniques for application
workloads in extreme-scale parallel and distributed machine learning and
deep learning.

- Tools and techniques for managing data movement among compute and
data-intensive components.

- Data reduction and compression methods.

- Failure management and recovery strategies for extreme-scale storage
systems.

- Benchmarks and performance tools for extreme-scale I/O.

- Language and library support for data-centric computing.

- Storage virtualization and disaggregation.

- Ephemeral storage media and consistency optimizations.

- Storage architectures and systems for scalable stream-based processing.

- Case studies of I/O services and data processing architectures across
various application domains (e.g., scientific simulations, experimental
facilities, large observatories, bioinformatics, etc.).

- Sustainable storage systems.

- Dynamic I/O management strategies including I/O malleability (dynamism of
I/O services and storage resources).

Submissions Guidelines

----------------------

The workshop will accept traditional research papers (page limit: 8
pages excluding
references) for in-depth topics and short papers (page limit: 5 pages excluding
references) for work in progress on hot topics. Papers should present
original research and provide sufficient background material to make them
accessible to the broader community.

Paper format:  single-spaced double-column pages using 10-point size font
on 8.5x11 inch pages (IEEE conference style), including figures, tables,
and references. The submitted manuscripts should include author names and
affiliations.

The IEEE conference style templates for MS Word and LaTeX provided by IEEE
eXpress Conference Publishing are available here:

https://urldefense.us/v3/__https://www.ieee.org/conferences/publishing/templates.html__;!!G_uCfscf7eWS!ZMml74rm7IdVO0LIt4d5OfuL-Ixw76NseF_pWDPKkm-WlV4SW7JhziWvxkkPv1c4kQzugBes9RvOZTrb89C80P8$ 

ESSA will be held in conjunction with IEEE IPDPS 2026 (
https://urldefense.us/v3/__https://www.ipdps.org/__;!!G_uCfscf7eWS!ZMml74rm7IdVO0LIt4d5OfuL-Ixw76NseF_pWDPKkm-WlV4SW7JhziWvxkkPv1c4kQzugBes9RvOZTrbUV38cJg$ ). All accepted papers will be included in the Percom
workshop proceedings and indexed in the IEEEXplore digital library. At
least one author must register for the conference in full and present the
paper during the workshop.

Submission link: https://urldefense.us/v3/__https://ssl.linklings.net/conferences/ipdps/__;!!G_uCfscf7eWS!ZMml74rm7IdVO0LIt4d5OfuL-Ixw76NseF_pWDPKkm-WlV4SW7JhziWvxkkPv1c4kQzugBes9RvOZTrbCAXAlro$ 

Steering Committee

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Gabriel Antoniu , Inria, Rennes

France Franck Cappello, Argonne National Laboratory, USA

Toni Cortés, Barcelona Supercomputing Center, Spain

Kathryn Mohror, Lawrence Livermore National Laboratory, USA

Kento Sato, RIKEN, Japan

Marc Snir, University of Illinois at Urbana-Champaign, USA

Weikuan Yu, Florida State University, USA

Workshop Organizers

--------------------

Workshop Chairs Chair:

Chair: Chen Wang, Nanyang Technological University, Singapore

Co-Chair: François Tessier, Inria, France

Program Chairs:

Chair: Jakob Luettgau, Inria, France

Co-Chair: Ahmad Tarraf, TU Darmstadt, Germany

For any queries and questions regarding the workshop and submissions,
please contact the organisers.