RV-Days Tokyo 2024 Winter: RISC-V Day Tokyo 2024 Winter / RISC-V Poster Research Presentation

Call for Themes

At RISC-V Day, we are calling for poster sessions on the following fields. These themes show new approaches to meet expanding computational needs and sustainability challenges.

1. RISC-V technology: Instruction sets, microarchitecture, integrated circuits, IP, chips, systems, software, and the implementation of RISC-V extensions/customizations.
2. Open-Source Hardware Revolution: Open silicon starting with RISC-V Green Computing: Techniques for reducing energy consumption in computing environments, including RISC-V based solutions.
3. Hardware and Software Co-design: Examples and case studies showing the impact of RISC-V and open-source hardware or software development, and vice versa.
4. AI and Machine Learning: Role of RISC-V in accelerating AI/ML workloads, customizing hardware for AI/ML, etc.
5. Real World Applications: Industry or research projects that have used RISC-V in product development, research outcomes, etc.
6. Security technologies for open architecture
7. AIoT, IoT RISC-V Architecture
8. Quantum Computing
9. Secret Computing: rivacy-enhancing data analysis technology represented by Homomorphic Encryption, which computes with encrypted data.
10. Emerging Computing Topic: Topics like neuromorphic computing, bio-inspired computing, and new forms of non-volatile memory technologies.
11. High-Performance Computing (HPC): The use of RISC-V in HPC applications, challenges, and innovations in creating competitive RISC-V based HPC systems.
12. Edge Computing: The role of RISC-V in the growth of edge computing, including applications in smart cities, autonomous vehicles, and IoT.
13. 5G/6G Technologies: How RISC-V can be incorporated into the next generation of telecommunications infrastructure and the role it plays in network devices.
14. Blockchain and Distributed Ledger Technologies: Use cases of RISC-V in blockchain hardware, smart contracts, and how it can provide secure and efficient computation in decentralized systems.
15. Quantum-resistant Cryptography: With the advent of quantum computing, exploring how RISC-V can be used to develop quantum-resistant cryptographic solutions.
16. Cross-platform Development Tools: Tools that support RISC-V development across different platforms, easing the development process and fostering wider adoption.
17. Interoperability with Other Architectures: How RISC-V interfaces with other architectures, emulation, and virtualization technologies to create hybrid systems.
18. Sustainable and Eco-friendly Computing: Beyond just green computing, a focus on how RISC-V hardware can be designed with sustainability in mind, including recyclable materials, energy harvesting, and lifecycle analysis.
19. Digital Signal Processing (DSP): Applications of RISC-V in DSP for audio, video, and communications technologies.
20. Space Technology: The use of RISC-V in space applications, which could include satellites, rovers, and other space exploration hardware.
21. Educational Initiatives: How RISC-V is being used for educational purposes, in teaching computer architecture, hardware design, and fostering a new generation of engineers.
22. Medical and Biotech Applications: Implementation of RISC-V in medical devices, biotechnology, and personalized medicine, including wearable technologies.
23. Automotive and Transportation Systems: The role of RISC-V in the future of transportation, including self-driving cars, electric vehicle systems, and more.
24. Formal Verification for RISC-V: Approaches to ensuring the correctness and security of RISC-V processors through formal methods.
25. Cultural and Societal Impacts of Technology: Discussing the broader impacts of open-source hardware and RISC-V on society, accessibility, and digital divide issues.

Submission Guidelines

Please check here for details.

• The poster should be of A0 size, portrait orientation.
• The title, authors and their affiliations should be clearly visible at the top of the poster.
• The poster should be easy to read from 1.5 meters.
• The authors are required to include an abstract (up to 250 words) along with their submission.

Contact

All questions about submissions should be emailed to Hironori Nakajo <nakajo@cc.tuat.ac.jp>.