Inside IBM Quantum System Two | Quantum Computing Explained | AI Impact Summit 2026 Expo

Name: Inside IBM Quantum System Two | Quantum Computing Explained | AI Impact Summit 2026 Expo
Uploaded: Feb 19, 2026
Duration: 423 s

Jasbir Singh1.16K subscribers

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Feb 19, 2026

7:03

🚀 Inside IBM Quantum System Two | Quantum Computing Explained | AI Impact Summit 2026 Expo | Prof. Jasbir Singh During the IndiaAI Impact Summit 2026 Expo, I had the privilege of interacting with the research team of IBM Quantum, where an in-depth discussion was held on the working architecture of the IBM Quantum System Two, the future of quantum computing, and India’s role under the National Quantum Mission (NQM). In this exclusive interaction, the IBM representative explained the complete working process of a modern quantum computer — from qubit input to quantum gate processing, scheduling systems, and real hardware deployment across the globe. --- 🔬 What is IBM Quantum System Two? IBM Quantum System Two is a modular and scalable quantum computing platform designed for high-performance research and industrial applications. It represents the next generation of quantum infrastructure with improved qubit stability, lower error rates, and better coherence time. The architecture includes: 🔹 Scheduler Column – Manages execution queues, optimizes quantum jobs, allocates computational resources, and ensures calibration and system monitoring. 🔹 Heron R1 & Heron R2 Processors – Advanced superconducting qubit processors with enhanced fidelity and performance. These processors form the computational heart of the quantum system. --- ⚛️ How Does a Quantum Computer Work? Unlike classical computers that use bits (0 or 1), quantum computers use qubits, which can exist in superposition — meaning they can represent 0 and 1 simultaneously. Step-by-Step Working Process: 1️⃣ Input in Qubits Users define quantum states instead of classical binary values. 2️⃣ Programming Using Python & Qiskit Quantum circuits are designed using Qiskit, IBM’s open-source quantum computing framework. Developers: Import Qiskit libraries Define number of qubits Apply quantum gates Execute circuits on simulators or real quantum hardware 3️⃣ Processing Through Quantum Gates Quantum gates such as: Hadamard (H) – Creates superposition CNOT – Creates entanglement Pauli Gates Phase Gates These manipulate probability amplitudes rather than deterministic logic. 4️⃣ Measurement & Output Upon measurement, qubits collapse into classical bits. Results are probabilistic and compared with classical outputs for validation. --- 🆚 Classical vs Quantum Computing Classical Computer Quantum Computer Bit (0 or 1) Qubit (Superposition) Deterministic Probabilistic CPU/GPU QPU (Quantum Processing Unit) Linear Processing Parallel Probability States Silicon Chips Superconducting Circuits Quantum computing is particularly powerful for: ✔ Optimization problems ✔ Cryptography ✔ Drug discovery ✔ Material science ✔ Complex simulations ✔ AI acceleration research --- 🌍 Global Deployment of IBM Quantum IBM Quantum systems are deployed in: 📍 Boston, USA 📍 Korea 📍 India (Under National Quantum Mission) In India, quantum infrastructure is being developed in Amaravati under the Government of India’s National Quantum Mission (NQM). India is currently focusing strongly on: Quantum software development Quantum algorithm research Hybrid AI + Quantum applications Academic ecosystem development --- 🇮🇳 National Quantum Mission (NQM) & Education Opportunities Under NQM, the Government of India is offering: 🎓 Major & Minor Courses in Quantum Computing 🎓 Faculty Development Programs 🎓 Research Funding & Infrastructure 🎓 Industry Collaborations Students can access real quantum computers via IBM cloud servers. IBM also provides: ✔ IBM Quantum Learning Platform ✔ Qiskit Documentation & Labs ✔ NPTEL-based Quantum Courses ✔ Certification Programs This means students in India can run real quantum experiments from their laptops. --- 🎯 Key Takeaways from the Interaction ✔ Quantum computing is no longer theoretical — it is actively operational. ✔ India is strategically investing in quantum infrastructure. ✔ Students must focus on quantum algorithms and hybrid AI-Quantum models. ✔ Software development is India’s strong domain in the global quantum ecosystem. ✔ Academic institutions must integrate Quantum Computing into curriculum. --- 👨‍🏫 About the Speaker Prof. Jasbir Singh HoD – Computer Science (AI/ML) President – Institution’s Innovation Council (IIC) Delegate – IndiaAI Impact Summit 2026 This video captures an insightful academic discussion between Prof. Jasbir Singh and the IBM Quantum representative at the Expo, focusing on real-world implementation of quantum computing. --- 🔔 Who Should Watch This? 🎓 BCA / BTech / MTech Students 🧪 AI & ML Researchers 💊 Pharmacy & Healthcare Tech Researchers 📊 Data Scientists 🚀 Innovation & Startup Enthusiasts --- 🔎 Hashtags #IBMQuantum #QuantumComputing #Qiskit #NationalQuantumMission #NQMIndia #AIImpactSummit2026 #QuantumAlgorithms #AIandQuantum #FutureTechnology #QuantumIndia #ProfJasbirSingh #QuantumResearch #Innovation #AIinIndia #EmergingTech

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