{ "hero": { "label": "HYBRID QUANTUM–AI COMPUTING PLATFORM", "title": "Building the Next Generation of Quantum–AI Infrastructure", "desc-1": "QAI is building a next-generation hybrid quantum–AI infrastructure that integrates quantum computing, AI supercomputing, and orchestration into a unified, production-ready platform.", "desc-2": "The platform is designed to support real-world experimentation, scalable deployment, and long-term operation across hybrid workloads." }, "second-section": { "sub-title": "TECHNOLOGY & PLATFORM OVERVIEW", "title": "A unified hybrid platform orchestrating QPU, GPU, and CPU resources.", "desc": "QAI's Technology & Platform layer integrates quantum computing, high-performance GPU infrastructure, and classical compute into a single coordinated environment. Through centralized orchestration, users can execute quantum algorithms, hybrid quantum–AI workflows, and large-scale simulations without managing infrastructure complexity." }, "third-section": { "sub-title": "PLATFORM ARCHITECTURE", "title": "A Unified Quantum–AI Platform Architecture", "desc": "QAI's platform is designed as a vertically integrated system that brings quantum computing, AI supercomputing, orchestration software, and dedicated infrastructure into a single, coherent architecture.", "main-content": { "item-1": { "title": "Quantum Simulation Platform", "desc": "A DGX-accelerated environment for developing and validating quantum and hybrid quantum–classical algorithms at scale." }, "item-2": { "title": "Quantum Machine Learning (QML)", "desc": "A hybrid QPU–GPU framework for exploring quantum-enhanced machine learning models and integrated training workflows." }, "item-3": { "title": "CUDA-Q & Hybrid Programming Framework", "desc": "A unified development layer based on NVIDIA CUDA-Q, enabling hybrid quantum–AI applications across QPU, GPU, and CPU resources." }, "item-4": { "title": "Integrated Control & Orchestration Layer", "desc": "A centralized orchestration layer coordinating workload execution, scheduling, and optimization across the entire platform." } } }, "fourth-section": { "sub-title": "PLATFORM ARCHITECTURE", "title": "Full-Stack Hybrid Quantum–AI Architecture", "desc": "QAI operates a full-stack hybrid architecture integrating quantum hardware, AI supercomputing infrastructure, orchestration software, and application layers into a single operational system. This enables coordinated execution across QPU, GPU, and CPU resources under unified control.", "main-content": { "item-1": { "title": "Hardware Layer", "desc": "Superconducting quantum systems, DGX SuperPOD GPU clusters, and classical CPU compute nodes form the physical foundation of the platform." }, "item-2": { "title": "Middleware Layer", "desc": "Hybrid programming frameworks, quantum control systems, and simulation engines enable coordinated execution across quantum and classical environments." }, "item-3": { "title": "Platform Layer (QAI Platform)", "desc": "Centralized orchestration, workflow automation, and resource scheduling unify quantum, AI, and HPC workloads into a single operational platform." }, "item-4": { "title": "Application Layer", "desc": "Domain-specific applications and APIs support advanced research and enterprise use cases across science, industry, and engineering." } } }, "fifth-section": { "sub-title": "ENGINEERING & ADVISORY CAPABILITIES", "title": "Expert Engineering for QAI's Hybrid Quantum–AI Platform", "desc": "QAI's hybrid quantum–AI platform is supported by a multidisciplinary engineering organization across quantum systems, AI/HPC infrastructure, data center engineering, and platform orchestration.", "content": { "item-1": { "title": "Infrastructure & HPC Engineering", "desc": "Engineering expertise supporting large-scale AI, HPC, and hybrid quantum workloads.", "bullets": { "item-1": "GPU cluster architecture and cabinet layout", "item-2": "Power density and workload performance modeling", "item-3": "High-bandwidth networking (InfiniBand, NVSwitch, NVLink)", "item-4": "Optimization for AI, inference, and HPC workloads" }, "roles": "Solution Architects · HPC Engineers · GPU Systems Designers" }, "item-2": { "title": "Data Center, Cooling & Systems Engineering", "desc": "Integrated facility and systems engineering for high-density compute and quantum infrastructure.", "bullets": { "item-1": "Cooling capacity planning and thermal optimization", "item-2": "Structural, electrical, and UPS redundancy design", "item-3": "High-density cabinet placement and airflow engineering", "item-4": "Storage architecture, backup, and disaster recovery" }, "roles": "Data Center Architects · Cooling & HVAC Engineers · Systems Integration Specialists" }, "item-3": { "title": "Quantum Hardware & Software Engineering", "desc": "Specialized engineering supporting quantum system deployment and hybrid execution.", "bullets": { "item-1": "Installation and environmental design for superconducting quantum systems", "item-2": "Qubit control hardware setup and calibration", "item-3": "Optimization of quantum and hybrid quantum–AI workflows", "item-4": "Integration with DGX-based simulation environments" }, "roles": "Quantum Physicists · Quantum Hardware Specialists · Quantum Solution Architects" }, "item-4": { "title": "Strategy, Policy & Industry Programs", "desc": "Advisory capabilities supporting long-term quantum–AI adoption and ecosystem development.", "bullets": { "item-1": "Quantum and AI policy analysis and R&D strategy advisory", "item-2": "Consortium and public–private partnership planning", "item-3": "Long-term quantum–AI research roadmapping", "item-4": "Industry-specific AI factory and POC program design" }, "roles": "Policy Analysts · Strategic Advisors · R&D Program Consultants" } }, "closing": "These integrated compute zones form a unified foundation for executing hybrid quantum–AI workloads within a single facility, with reliability and control built directly into the physical infrastructure." }, "sixth-section": { "sub-title": "PLATFORM CONTROL & ORCHESTRATION", "title": "Unified Control & Orchestration Overview", "desc": "QAI's hybrid quantum–AI platform is governed by a centralized control and orchestration layer that coordinates quantum, AI, and classical resources for reliable execution, efficient scheduling, and sustained performance across hybrid workloads.", "content": { "item-1": { "title": "Hybrid Workload Orchestration", "desc": "Centralized orchestration of hybrid quantum–AI workloads across QPU, GPU, and CPU resources for coordinated execution of simulation, training, and optimization pipelines." }, "item-2": { "title": "Resource Allocation & Optimization", "desc": "Dynamic allocation and optimization of compute, memory, network, and storage resources based on workload characteristics and system availability." }, "item-3": { "title": "Monitoring & System Visibility", "desc": "Real-time visibility into system health, workload execution, and performance metrics across quantum systems, DGX SuperPOD clusters, and facility infrastructure." }, "item-4": { "title": "Operational Reliability & Governance", "desc": "Enterprise-grade controls supporting access management, workload isolation, auditability, and long-term stability for production-scale hybrid quantum–AI environments." } } }, "seventh-section": { "sub-title": "TECHNOLOGY & ECOSYSTEM", "title": "Built on Trusted Industry Technologies", "desc": "QAI's hybrid quantum–AI platform is built on proven, enterprise-grade technologies and open frameworks, ensuring performance, interoperability, and long-term ecosystem alignment. This foundation enables seamless integration across hardware, software, and industry partners." }, "eighth-section": { "sub-title": "ENGAGEMENT & COLLABORATION", "title": "Engage with QAI's Technology Platform", "desc": "QAI collaborates with research institutions, enterprise partners, and technology organizations to deploy and operate hybrid quantum–AI systems in real-world environments." } }