mattswayne
Project OwnerMatt Swayne – Quantum Journalist-Analyst (Principal Investigator) As an experienced researcher and analyst with deep expertise in quantum technologies, I will lead all aspects of this project.
This proposal aims to critically evaluate the role of quantum computing in advancing Artificial General Intelligence (AGI) within the OpenCog Hyperon framework. By conducting an in-depth literature review, collaborating with the Hyperon team, and exploring the most recent work in quantum paradigms, this research will provide a comprehensive analysis of quantum computing's realistic potential for enhancing AGI development.
This RFP seeks to critically evaluate the role of quantum computing in advancing Artificial General Intelligence (AGI). The goal is to distinguish between realistic capabilities and hype, providing clear insights into the practical benefits and limitations of quantum computing for AGI architectures, particularly within the OpenCog Hyperon framework. Part of this should involve interacting with the Hyperon team who've built the existing and in-development MeTTa interpreters.
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A thorough literature review and the development of a detailed research plan identifying quantum paradigms such as quantum-classical hybrids entropy quantum computing and photonic reservoir computing. This stage includes an analysis of their potential for addressing AGI challenges like reasoning and resource allocation.
• An in-depth review of peer-reviewed research authoritative reports and case studies on quantum computing technologies. • Analysis of quantum paradigms such as quantum-classical hybrid systems entropy quantum computing and photonic reservoir computing. • Assessment of how these paradigms could support AGI tasks focusing on Hyperon components like MeTTa interpreters. • Explore leading-edge but speculative conscious quantum AI approaches including Nirvanic AI’s use of Orchestrated objective reduction (Penrose-Hameroff) scheme. Research Plan: • A detailed outline of methodologies for evaluating quantum computing's potential impact on AGI development. • Identification of AGI tasks (reasoning resource allocation etc.) that align with quantum computing capabilities.
$20,000 USD
Substantial progress in evaluating theoretical and practical applications of quantum computing for AGI including a comparative analysis of quantum classical and hybrid quantum-classical computing systems.
• Initial findings on the theoretical potential of quantum computing for AGI tasks. • Comparative analysis of quantum vs. classical computing for reasoning scalability and resource optimization.
$20,000 USD
Refinement of findings and documentation identifying specific use cases where quantum technologies can enhance AGI components such as MeTTa interpreters and Hyperon modules.
• Refined analysis of identified quantum paradigms. • Updated documentation of use cases where quantum technologies address AGI computational challenges.
$20,000 USD
Completion of the research phase with actionable recommendations and a final report differentiating between genuine potential and speculative hype. A roadmap for future research and experimentation will also be provided.
• Comprehensive final report detailing the realistic potential of quantum computing in AGI. • Actionable recommendations for further research and experimentation. • Clear differentiation between hype and feasible applications.
$20,000 USD
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