QpiAI Quantum Full-Stack Quantum Computer
Our integrated approach combines modeling, compute, and automation to solve complex business and scientific problems at utility-scale.
QpiAI Quantum QPU Technology
QpiAI quantum computers use superconducting qubits and roadmap to experiment with CMOS-based spin qubits in future models. The current generation of qubits is based on various architectures of superconducting qubits design. QpiAI NISQ (Noisy Intermediate-Scale Quantum) qubits and QpiAI FTQC (Fault-tolerant Quantum Computing) qubits are based on QpiAI proprietary qubit architecture named QpiAI Qubits. Transmon qubits are stabilized and error-corrected based on the surface codes with various distances. For higher reliability in fault-tolerant computing, QpiAI FTQC Qubits are error-corrected using Q-LDPC codes with new architectures invented by QpiAI to ensure high performance and low error rates.
QpiAI NISQ Quantum Computer Roadmap
Indus
25 NISQ Qubits
Q4 2024
- Superconducting Transmon Qubits
- Target Coherence Time 60μs
- Built-in surface Code Error Correction
- Error Rate: 10⁻²
Kaveri
64 NISQ Qubits
Q1 2026
- Superconducting Transmon Qubits
- Target Coherence Time 100μs
- 2D - Square Lattice with 3D Integration
- Built-in surface Code Error Correction
- Error Rate: 10⁻²
Ganges
128 NISQ Qubits
Q1 2027
- Superconducting Transmon Qubits
- Target Coherence Time 100μs
- 2D - Square Lattice with 3D Integration
- Built-in surface Code Error Correction
- Error Rate: 10⁻³
Everest
1000 NISQ Qubits
Q1 2028
- Application-optimal QPU Architectures
- Superconducting Transmon Qubits
- Target Coherence Time 100μs
- 2D - Square Lattice with 3D Integration
- Built-in surface Code Error Correction
- Error Rate: 10⁻³
QpiAI FTQC Quantum Computer Roadmap
Yukti
1 Logical Qubit
Q4 2026
- QpiAI Qubits
- Target Coherence Time ~100 µs
- Error Correction by Q-LDPC Codes
- Error Rate: 10⁻⁴ - 10⁻⁶
Shakti
5 Logical Qubits
Q4 2027
- QpiAI Qubits
- Target Coherence Time ~100 µs
- Error Correction by Q-LDPC Codes
- Errer rate: 10⁻⁴ - 10⁻⁶
Pragati
20 Logical Qubits
Q4 2028
- QpiAI Qubits
- Target Coherence Time ~100 µs
- Error Correction by Q-LDPC Codes
- Error rate: 10⁻⁴ - 10⁻⁶
Unnati
100 Logical Qubits
Q4 2030
- QpiAI Qubits
- Target Coherence Time ~100 µs
- Error Correction by Q-LDPC Codes
- Error rate: 10⁻⁶
QpiAI AI Technology
QpiAI’s Domain Targeted Multi Agent System
Specialized Agent Clusters
Domain-specific AI agents trained with industry vertical focus
Quantum-Enhanced Processing Layers
Leveraging quantum algorithms for complex optimization
Dynamic Resource Allocation
Real-time computing resource distribution based on task complexity
Cross-Domain Knowledge Integration
Seamless insight exchange between specialized agents
