QpiAI Quantum Supremacy Center
The World's Most Powerful Quantum-Centric Compute Infrastructure accelerating the Discovery of Utility-scale Quantum Advantage
A Fleet of 100 Quantum Computers of 100 - 1000 qubits, with a roadmap to form 10000 Logical Qubits.
QpiAI's Quantum Supremacy Center (QSC) is envisioned to be a sovereign quantum hub with a fleet of 100 interconnected quantum computers (100–1000 qubits each), deeply integrated with high‑performance classical computing and AI‑driven quantum intelligence.
Vision
Building a quantum‑centric supercomputing future
QSC is engineered to discover quantum advantage on practical, real‑world problems, solve humanity’s most complex challenges, and harness quantum data, quantum models, and quantum compute to accelerate scientific discovery and utility‑scale problem solving.
Discover Quantum Advantage
Systematically reach and validate quantum advantage across chemistry, materials, optimization, cybersecurity, and AI workloads using a scalable fleet‑based architecture.
Solve Complex Global Challenges
Target problems that are intractable or uneconomical on classical supercomputers: drug design, clean energy, climate modeling, resilient infrastructure, and more.
Build Deep Quantum Intelligence
Create a continuous loop of quantum data, quantum models, and AI‑assisted quantum algorithm discovery to form a self‑improving quantum intelligence layer.
Core Technology Pillars
Quantum Error Correction, Quantum AI, and Quantum–Classical Integration powering reliable, scalable, application-optimized computation.
Quantum Error Correction
Surface/LDPC codes, syndrome decoding, and logical qubits for fault-tolerant computation.
Quantum AI
Hybrid models for chemistry, optimization, and generative design with AI-driven control.
Quantum–Classical Integration
Synchronized QPU–HPC workflows and co-scheduling for end-to-end hybrid pipelines.
Quantum Advantage
From Quantum Supremacy Demonstrations to Practical Quantum Advantage.
Where QSC Targets Quantum Advantage
- •Quantum chemistry for molecules, catalysts, and materials
- •Large-scale combinatorial and routing optimization
- •Portfolio and risk optimization in finance
- •Quantum-enhanced machine learning and generative models
- •High-precision simulations relevant to climate and energy systems
- •Cryptography and post-quantum security analysis
Transformative Use Cases
Eight quantum advantage use cases with global impact.
Quantum-Accelerated Drug Discovery
Faster, more accurate molecular simulations and binding analyses to shorten drug development cycles and improve access to therapies.
High-Precision Materials Discovery
Discover new materials for batteries, semiconductors, and structural applications with quantum-accurate predictions.
Global Logistics & Supply Chain Optimization
Optimize multi-layer supply chains, routing, and resource allocation at scales beyond classical heuristics.
Quantum-Secure Cryptography
Design and stress-test quantum-resistant cryptographic schemes to secure global digital infrastructure.
Fusion Energy & Clean Energy Simulation
Enhance modeling of fusion plasmas, materials, and control schemes to accelerate paths to clean, sustainable energy.
Climate & Earth System Modeling
Improve predictive models for climate, extreme events, and resource planning with quantum-enhanced simulation techniques.
Quantum-Optimized Autonomous Systems
Use quantum optimization and RL for safer, more efficient autonomous mobility, manufacturing, and robotics.
Financial Stability & Inclusive Growth
Better risk modeling and optimization to build resilient financial systems that support inclusive economic development.
QSC Snapshot
Key facts at a glance
Full-Stack Quantum Discovery Campus
An integrated ecosystem that unifies superconducting QPUs, cryogenics, control electronics, AI-driven software, and petascale HPC—engineered to support fleets of 100–1000 qubit quantum computers.
Fleet of 100 1000 Qubit QPUs
Production-grade transmon processors designed for modular scaling—enabling multi-QPU clusters and large-fleet deployments for transformative scientific breakthroughs.
Quantum + Petascale HPC Fabric
Ultra-low-latency links that fuse quantum processors with petascale classical compute—accelerating VQE, QAOA, chemistry, materials, and physics simulations at unprecedented scale.
Breakthrough-Ready Quantum Capability
Built in India to power next-gen research, national missions, and industry innovation—unlocking discoveries only possible with fleets of high-fidelity 100-1000 qubit systems.
AI-Accelerated Quantum Development
GenAI agents, intelligent compilers, and no-code platforms that automate algorithm design, circuit optimization, and large-scale quantum workflow orchestration.
Discovery Partnerships
A collaborative ecosystem enabling academia, national labs, startups, and enterprises to co-innovate using multi-QPU quantum clusters and AI-driven research pipelines.
Application Labs
Breakthrough discovery engines transforming global industries with quantum advantage
Materials & Chemicals Lab
Quantum-accelerated materials discovery, reaction engineering, and molecular design—unlocking next-generation alloys, catalysts, polymers, and energy materials impossible to compute classically.
Drug Discovery Lab
End-to-end quantum-assisted drug design for binding, lead-optimization, docking, QSAR, and reaction pathway exploration—supercharged by multi-QPU chemistry engines.
Quantum Biology Lab
Quantum-inspired models of protein folding, cellular processes, enzymatic dynamics, and biological sensing, enabling breakthroughs in precision medicine and bio-innovation.
Cybersecurity Lab
Quantum-safe cryptography, post-quantum security analytics, and threat intelligence designed to secure national infrastructure and enterprise systems in the quantum era.
Financial Technology Lab
Quantum-optimized portfolio management, derivative pricing, scenario analysis, and risk modeling—purpose-built for ultra-complex financial markets.
Robotics Lab
Quantum-accelerated planning, scheduling, and autonomous decision-making for next-generation robotics, manufacturing systems, and industrial automation.
Quantum Sensing Lab
Ultra-high-precision sensing architectures for navigation, defense, Earth observation, medical diagnostics, and environmental monitoring—enabled by quantum signal models.
Space Technology Lab
Quantum-optimized trajectory design, satellite communication, deep-space navigation, and mission planning—building the computational backbone for future space exploration.
Energy Technology Lab
Quantum-accelerated grid optimization, forecasting, renewable integration, and storage orchestration—powering the energy systems of the future
Quantum Compute Technology Labs
Deep-tech labs for fault-tolerant quantum-HPC supercomputing
Quantum AI Lab
Quantum-inspired and quantum-native neural architectures. Quantum foundation models and embeddings. AI-driven algorithm synthesis and circuit optimization.
Novel Qubit Architectures Lab
Advanced superconducting qubit designs and connectivity. Cryogenic engineering and control electronics. Coherence, fidelity, and scalability improvements.
Error Correction Research Lab
Surface and LDPC code implementation at scale. Fast syndrome decoding and logical state tracking. Integration of error correction with real workloads.
Fault-tolerant Quantum Computing Lab
Logical gate constructions and fault-tolerant protocols. Architectures for logical qubit networks and clusters. Full pipelines from physical qubits to logical workloads.
Quantum Software Lab
Compilers, transpilers, and scheduling strategies. Hybrid solvers and domain-specific workflows. Tooling for algorithm developers and application teams.
Quantum Advantage Lab
Benchmarking and verifying quantum speedups. Identifying application-optimal stacks for advantage. Defining practical metrics for industrial quantum utility.
Why It Matters
Enabling breakthroughs that reshape science, industry, and society
Deeper Science
Simulate nature at unprecedented fidelity—molecules, materials, reactions, proteins, quantum matter—powered by 100–1000 qubit fleets and hybrid quantum-HPC engines.
Smarter Industry
Transform logistics, finance, automotive, aerospace, manufacturing, and energy with quantum-accelerated optimization and simulation.
Sovereign Capability
Build a national quantum backbone—from hardware to cloud—ensuring independence, security, and leadership in critical technologies.
Future Workforce
Train thousands of engineers, scientists, and innovators on real quantum computers, forming the talent base for India’s next technology revolution.
Global Leadership
Position India as a top-tier quantum nation, operating one of the world’s largest interconnected quantum computer fleets.
Economic Growth
Create new industries, startups, and enterprise applications across pharma, energy, chemicals, AI, robotics, aerospace, climate, and more.
Impact on Humanity
Transformative impact aligned with United Nations Sustainable Development Goals
Humanity-Centric Outcomes
- •Accelerated discovery of medicines and therapies (health and well-being)
- •Breakthroughs in clean energy, materials, and climate resilience
- •Efficient, sustainable infrastructure, logistics, and cities
- •Enhanced cybersecurity and protection of critical digital systems
- •New scientific knowledge and deep tech ecosystems that create high-quality jobs
UNSDG Alignment
QSC's research themes and application labs map naturally to multiple UNSDGs: