You are cordially invited to join us at the 2022 6th International Conference on High Performance Compilation, Computing and Communications (HP3C'22) in Jilin, China during June 23-25, 2022. It's co-sponsored by Northeast Electric Power University, Research Institute of Big Data Analytics, Xi'an Jiaotong-Liverpool University, China and Guangdong University of Technology GDUT.
HP3C-2022 welcomes author submission of papers from any branch of the High Performance Compilation, Computing and Communications, and their applications or other topic areas. The areas covered by the include, but not limited to: High performance Languages and Compilers for High Performance Computing, Multicore, Many-core and Multithreaded Architectural Approaches, Parallel and Distributed System Architectures, Parallel and Distributed Software Technologies.
Call for Papers »
Why Attend HP3C 2022?
There are many good reasons to attend this jointly-sponsored international conference. You will:
- Gain a cross-cultural view of the latest HP3C trends
- Enjoy regional diversity through structured networking with international colleagues
- Have your work viewed in a broader view with varying perspectives from distinguished experts
- Benefit from exposure to the fullest spectrum of HP3C and analytics research and topics
- Learn from top industry vendors who are attracted to this international forum
- Fully immerse yourself in this charming city and all it has to offer.
We invite you to submit a paper for the HP3C-2022 International Conference and join us for a premier event at this vibrant city. We invite submissions from all relevant areas of the HP3C field, broadly defined. We will continue to accept abstracts after the deadline for as long as space is available. We encourage you to submit early.
- If you require an early confirmation for visa or budgetary reasons, please indicate this to our conference secretary in order to get an earlier review.
Topic of Interests
The conference is soliciting state-of-the-art research papers in the following areas of interest:
Track 1: System Architecture
New Memory and Storage Technologies
Exascale Systems The Show Must Go On
Containers for HPC
RISC-V as Next-Generation HPC Components
Parallel and Distributed System Architectures
Multicore, Many-core and Multithreaded Architectural Approaches
Distributed Systems and Applications
Cloud Computing Architectures and Tools
Track 2: Applications/Algorithms
HPC Empowering AI
How AI Can Enable More Efficient HPC
HPC for the Energy Transition
Mixed Arithmetics
Parallel and Distributed Algorithms
High Performance Pervasive/Ubiquitous Computing
High performance Adaptive and Evolvable Computing
High-performance Scientific and Engineering Computing
Grid and Cluster Computing
Track 3: Emerging Technologies
Silicon Photonics in HPC for Future Exascale Needs
Optical Switching and Networking for Next-Generation Computing
Emerging Neuromorphic and Unconventional Computing Technologies
Preparing for Extreme Heterogeneity in HPC
High Performance Systems for Medical Applications
High performance Energy Aware Information Systems
Wireless Sensor, Ad Hoc and Mesh Networks
Mobile Computing and Wireless Communications
Multimedia Systems and Virtual Reality
Off-Chip/On-Chip Interconnection Networks
Tools and technologies for Web Services development, and management
Track 4: Parallel Programming Models & Performance Modelling
Performance Modeling and Tuning for Exascale Systems
Overcoming the Challenges in Exascale Programming
HPC as a Tool to Enable Science and Programming
Programming Challenges for Reconfigurable Computing
High performance Languages and Compilers for High Performance Computing
Parallel and Distributed Software Technologies
Tools and Environments for Software Development
Track 5: Machine Learning
Scalable Optimization Methods for Deep Learning
Machine Learning Systems and Tools
Machine Learning for Weather and Climate
Machine Learning in Life Sciences
Emerging blockchain related technologies will significantly transform transactions, currencies, system operations and management in the digital era. On one hand, blockchain will play a crucial role for secure decentralization in fields such as Internet of Things, cyber physical systems, cloud and edge computing, future Internet, security, fault tolerance, next generation wireless communications, etc. On the other hand, its advance should be further refined and optimized in terms of scalability, privacy, security, fault tolerance, availability and high dependability. In the meantime, arising new applications of blockchain will bring along new requirements, research issues and new challenges for research communities.
- Topics of interest include, but are not limited to:
- Theories of blockchain
- Smart contract, chain code, and distributed ledger
- Distributed consensus
- Fault tolerance mechanisms
- Blockchain schemes for decentralization
- Security, privacy and trust of blockchain
- Security issues & Attacks on blockchain based systems
- Performance analysis and optimization
- Simulation and performance evaluation techniques
- Protocols & algorithms based on blockchain
- Blockchain related data structures
- Blockchain for IoT
- Blockchain for cyber physical systems
- Blockchain for future Internet
- Blockchain for edge and cloud computing
- Blockchain for social media
- Blockchain for supply chain management
- Bolckchain for crowdsourcing and crowdsensing
- Blockchain for 5G/6G
- New applications with blockchain techniques
