[CfP] AsHES 2026 - 16th International Workshop on Accelerators and Hybrid Emerging Systems in conjunction with IPDPS 2026
3 views
Skip to first unread message
Eishi Arima
Jan 15, 2026, 5:53:18 AM (3 days ago) Jan 15
to swopp-a...@googlegroups.com
AsHES 2026 - 16th International Workshop on Accelerators and Hybrid
Emerging Systems in conjunction with IPDPS 2026
https://www.ashes-hpc.org/2026/index.html
## Workshop Scope and Goals
The computing landscape is undergoing unprecedented transformation and
heterogeneous systems are the new standard.
Driven by critical demands for enhanced energy efficiency, memory
capacity, and computational throughput, modern architectures are
evolving at every level.
Traditional homogeneous designs can no longer meet today's demands of
computational throughput, memory bandwidth, and energy efficiency.
Heterogeneous computing harnesses diverse processing units and memory
technologies within hierarchical systems to accelerate varied applications.
Fields ranging from AI and big data to cloud computing, edge computing,
real-time systems, and high-performance computing have achieved
significant gains through heterogeneous architectures.
Additionally, emerging dataflow-based accelerators that depart from
traditional von Neumann architecture promise both new challenges and
opportunities.
These new heterogeneous architectures demand new applications and
programming models to fully utilize their capabilities.
This workshop examines heterogeneous design implications across the
entire computing stack - from hardware and compiler optimizations to
application development and programming environments.
It seeks to ground heterogeneous system design research through studies
of application kernels and/or whole applications, as well as shed light
on new tools, libraries, and runtime systems that improve the
performance and productivity of applications on heterogeneous systems.
The goal of this workshop is to bring together researchers and
practitioners who are at the forefront of heterogeneous computing to
learn the opportunities and challenges in future heterogeneous system
design trends and thus help influence the next trends in this area.
Topics of interest include (but are not limited to):
## Applications and Workloads
* Applications leveraging GPUs, FPGAs, TPUs, DPUs, on-chip accelerators,
or other novel architectures.
* AI/ML workloads including generative AI training/inference (e.g. LLMs,
LDMs), recommendation systems and AI for * science and engineering
* Scientific and engineering applications
* Big data and cloud computing workloads
* Edge computing and real-time applications
* Application behavior characterization and performance analysis
* Domain-specific applications and benchmarks
## Systems Architecture and Design
* Heterogeneous system architectures (ARM, RISC-V, custom extensions)
* Memory hierarchies and novel memory systems
* Energy efficiency and thermal considerations
* Security and reliability in heterogeneous systems
* Design space exploration and trade-off analysis
* Performance modeling and prediction
* Emerging accelerator architectures (dataflow, neuromorphic, etc.)
## Programming Models and Development Tools
* Programming models and interfaces (CUDA, HIP, OpenMP, OpenACC, SYCL,
OneAPI, Kokkos, Raja)
* Debugging and profiling tools
* Performance optimization and autotuning frameworks
* Testing and verification methods for heterogeneous systems
* Workload characterization tools
* Benchmarking suites and methodologies
* Heterogeneous System Software and Runtime Systems
* Compiler optimizations for heterogeneous systems
## Runtime systems and resource management
* Operating system support for heterogeneous computing
* Virtualization and containerization for heterogeneous systems
* Task scheduling and load balancing
* Memory management and data movement optimization
* System-level monitoring and telemetry
* Integration of heterogeneous components and interfaces
* Communication software/middleware for heterogeneous systems
## Paper Tracks:
There are two paper tracks available for AsHES’25:
1) Full paper track (10 pages) including citations;
2) Short paper track (maximum of 4 pages) including citations; meant to
highlight early investigations of innovative ideas.
Submitted papers will undergo a single-blind review process, so the
authors do not need to anonymize a submission.
## Important dates
* Paper Submission: January 23, 2026 (Friday)
* Paper Notification: February 20, 2026 (Friday)
* Camera-ready Deadline: March 6th, 2026 (Friday)
* Best-paper award
* The best paper will receive a certificate of recognition. This
award will be given based on the paper's originality, impact, and
overall quality.
Emerging Systems in conjunction with IPDPS 2026
https://www.ashes-hpc.org/2026/index.html
## Workshop Scope and Goals
The computing landscape is undergoing unprecedented transformation and
heterogeneous systems are the new standard.
Driven by critical demands for enhanced energy efficiency, memory
capacity, and computational throughput, modern architectures are
evolving at every level.
Traditional homogeneous designs can no longer meet today's demands of
computational throughput, memory bandwidth, and energy efficiency.
Heterogeneous computing harnesses diverse processing units and memory
technologies within hierarchical systems to accelerate varied applications.
Fields ranging from AI and big data to cloud computing, edge computing,
real-time systems, and high-performance computing have achieved
significant gains through heterogeneous architectures.
Additionally, emerging dataflow-based accelerators that depart from
traditional von Neumann architecture promise both new challenges and
opportunities.
These new heterogeneous architectures demand new applications and
programming models to fully utilize their capabilities.
This workshop examines heterogeneous design implications across the
entire computing stack - from hardware and compiler optimizations to
application development and programming environments.
It seeks to ground heterogeneous system design research through studies
of application kernels and/or whole applications, as well as shed light
on new tools, libraries, and runtime systems that improve the
performance and productivity of applications on heterogeneous systems.
The goal of this workshop is to bring together researchers and
practitioners who are at the forefront of heterogeneous computing to
learn the opportunities and challenges in future heterogeneous system
design trends and thus help influence the next trends in this area.
Topics of interest include (but are not limited to):
## Applications and Workloads
* Applications leveraging GPUs, FPGAs, TPUs, DPUs, on-chip accelerators,
or other novel architectures.
* AI/ML workloads including generative AI training/inference (e.g. LLMs,
LDMs), recommendation systems and AI for * science and engineering
* Scientific and engineering applications
* Big data and cloud computing workloads
* Edge computing and real-time applications
* Application behavior characterization and performance analysis
* Domain-specific applications and benchmarks
## Systems Architecture and Design
* Heterogeneous system architectures (ARM, RISC-V, custom extensions)
* Memory hierarchies and novel memory systems
* Energy efficiency and thermal considerations
* Security and reliability in heterogeneous systems
* Design space exploration and trade-off analysis
* Performance modeling and prediction
* Emerging accelerator architectures (dataflow, neuromorphic, etc.)
## Programming Models and Development Tools
* Programming models and interfaces (CUDA, HIP, OpenMP, OpenACC, SYCL,
OneAPI, Kokkos, Raja)
* Debugging and profiling tools
* Performance optimization and autotuning frameworks
* Testing and verification methods for heterogeneous systems
* Workload characterization tools
* Benchmarking suites and methodologies
* Heterogeneous System Software and Runtime Systems
* Compiler optimizations for heterogeneous systems
## Runtime systems and resource management
* Operating system support for heterogeneous computing
* Virtualization and containerization for heterogeneous systems
* Task scheduling and load balancing
* Memory management and data movement optimization
* System-level monitoring and telemetry
* Integration of heterogeneous components and interfaces
* Communication software/middleware for heterogeneous systems
## Paper Tracks:
There are two paper tracks available for AsHES’25:
1) Full paper track (10 pages) including citations;
2) Short paper track (maximum of 4 pages) including citations; meant to
highlight early investigations of innovative ideas.
Submitted papers will undergo a single-blind review process, so the
authors do not need to anonymize a submission.
## Important dates
* Paper Submission: January 23, 2026 (Friday)
* Paper Notification: February 20, 2026 (Friday)
* Camera-ready Deadline: March 6th, 2026 (Friday)
* Best-paper award
* The best paper will receive a certificate of recognition. This
award will be given based on the paper's originality, impact, and
overall quality.
Reply all
Reply to author
Forward
0 new messages