[hpc-announce] [Deadline Extended to 12th Feb.] The Third International Workshop on Coarse-Grained Reconfigurable Architectures for High-Performance Computing (CGRA4HPC)
Artur Podobas
podobas at kth.se
Tue Jan 23 05:38:45 CST 2024
The Third International Workshop on Coarse-Grained Reconfigurable Architectures for High-Performance Computing (CGRA4HPC'24)
----------------------- GENERAL INFORMATION -------------------------
CGRA4HPC 2024 will be held in conjunction with IPDPS 2024, San Francisco, CA, USA
Where: San Francisco, CA, USA
When: Friday, May 31st
Website: http://cgra4hpc.podobas.net/
Submission Link: https://ssl.linklings.net/conferences/ipdps/?page=Submit&id=CGRA4HPCWorkshopFullSubmission&site=ipdps2024
Important Deadlines
Paper submission: February 12th, 2024 (EXTENDED)
Paper notification: February 22nd, 2024
Camera-ready due: February 29th, 2024
-------------------------- DESCRIPTION ------------------------------
Coarse-grained reconfigurable arrays (CGRAs) are programmable logic devices that offer plasticity/reconfigurability, albeit at a coarse-grained (word-configurable) level in comparison to fine-grained FPGAs. Such reconfigurability allows the silicon to be specialized towards a particular application in order to reduce data movement and improve performance and energy efficiency. Unlike their cousins, the Field-Programmable Gate Arrays (FPGAs), CGRAs provide reconfigurable Arithmetic Logic Units (ALUs) and a highly specialized yet versatile data path. This ``coarsening'' of reconfiguration allows CGRAs to achieve a significant (custom ASIC-like) reduction in power consumption and increase in operating frequency compared to FPGAs. At the same time, they remedy and overcome the expensive von Neumann (instruction-decoding) overhead that traditional general-purpose processors (CPUs) suffer from. In short, CGRAs strike a seemingly perfect balance between the reconfigurability of FPGAs and the performance of CPUs, with power consumption characteristics closer to custom ASICs.
The International Workshop on Coarse-Grained Reconfigurable Architectures for High-Performance Computing (CGRA4HPC) aspires to provide a recurring forum for HPC experts, users, and CGRA hardware researchers from academia or industry to come together and discuss state-of-the-art CGRA research for use in emerging HPC systems.
----------------------- TOPICS OF INTEREST -------------------------
Topics of interest include (but are not limited to):
* CGRA Hardware and Architecture
- Novel high-performance CGRA architectures for use in HPC
- Energy-efficient architectures (incl. asynchronous/clockless
CGRAs, power-consumption optimizations, etc.)
* Hybrid Processor/CGRA Technology
- Software-programmable CGRAs (e.g., Xilinx ACAP Versal)
- Processors with a tightly interconnected CGRA subsystem
- Combination of CGRAs and other emerging post-Moore models (e.g., neuromorphic systems)
* Programming Models, Compilers, and Middleware
- Parallel programming language support for programming CGRA
architectures (e.g., supporting OpenMP or CUDA/HIP for
programming CGRA architectures)
- Compilation strategies, algorithms, and methods for mapping
computations and applications onto modern CGRA architectures
- Smart middleware and runtime systems for support of CGRAs,
including multi-CGRA systems for HPC
- The use of CGRA frameworks (e.g., CGRA-ME and OpenCGRA) to generate and customize architectures
* Use cases and Experiments
- Experience in porting scientific kernels and applications to
state-of-the-art CGRAs (e.g., weather/climate codes, CFD, MD,
etc.)
- Machine Learning applications and case studies, performance
and power-efficiency comparisons between traditional systems
(CPUs/GPUs) and CGRAs
* CGRAs and Generative Artificial Intelligence (NEW for CGRA4HPC'24)
- New emerging CGRA-like architectures for Generative AI
- Case studies and evaluations of CGRAs for (Generative) AI
-------------------------- SUBMISSION ------------------------------
We welcome authors to contribute full-length research papers on the topics of interest described above. Contributions should be unpublished and not for consideration in other venues. We will adopt a single-blind review process for all papers. Papers should not exceed eight (8) single-spaced pages, formatted in double-column pages using 10-point size font on 8.5x11 inch pages (IEEE conference style). Accepted papers will be included in the workshop proceedings, which will be distributed at the conference and submitted for inclusion in the IEEE Xplore Digital Library after the conference.
We also welcome presentations on new and emerging CGRA technologies from industry and startups. These will be presented at a special lightning session in the workshop. Please contact the workshop organizers (podobas at kth.se) if you are interested in participating in this event.
----------------------- ORGANIZATION -------------------------
ORGANIZERS:
Artur Podobas (KTH, Sweden)
Kentaro Sano (RIKEN, Japan)
Jason Anderson (University of Toronto, Canada)
PROGRAM COMMITTEE:
Ahmed Hemani (KTH, Sweden)
Ahsan Javed Awan (Ericsson, Sweden)
Boma Adhi (RIKEN, Japan)
Cheng Tan (Microsoft, USA)
Jens Domke (RIKEN, Japan)
Lingli Wang (Fudan University, China)
Markus Weinhardt (HS-Osnabrueck, Germany)
Nakashima Yasuhiko (NAIST, Japan)
Takuya Kojima (Univ. of Tokyo, Japan)
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