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Code Editor : courses.json.backup.1769694463176.json

[
  {
    "id": "introduction-to-quantum-computing",
    "title": "Introduction to Quantum Computing",
    "code": "CSE622",
    "level": "Graduate/Undergraduate",
    "duration": "16 weeks",
    "credits": 4,
    "instructor": "Prof. Debajyoti Bera",
    "coInstructors": [],
    "description": "An introductory course about designing solutions for computation problems using quantum computing models. The course covers the circuit model, quantum algorithms, and the theoretical advantages of quantum platforms over classical ones.",
    "image": "/placeholder.svg",
    "featured": true,
    "semester": "Winter 2025",
    "schedule": "Tuesday & Friday, 2:00 PM - 3:30 PM",
    "location": "Lecture Hall C, IIIT-Delhi",
    "capacity": 60,
    "enrolled": 55,
    "tags": [
      "Algorithms",
      "Computer Science",
      "Complexity Theory",
      "Qubits"
    ],
    "prerequisites": [
      "Linear Algebra (MTH101/MTH201)",
      "Probability",
      "Analysis and Design of Algorithms (CSE222)"
    ],
    "objectives": [
      "Master the postulates of quantum mechanics relevant to computing",
      "Understand the quantum circuit model",
      "Analyze quantum algorithms for speedup over classical counterparts",
      "Study quantum error correction and fault tolerance",
      "Implement simple algorithms on simulators"
    ],
    "syllabus": [
      {
        "week": 1,
        "topic": "Introduction & Linear Algebra Review",
        "content": "Complex vector spaces, inner products, tensor products"
      },
      {
        "week": 2,
        "topic": "Postulates of Quantum Mechanics",
        "content": "State space, evolution, measurement, composite systems"
      },
      {
        "week": 3,
        "topic": "Quantum Circuits",
        "content": "Single qubit gates, CNOT, universal gate sets"
      },
      {
        "week": 4,
        "topic": "Quantum Entanglement & Protocols",
        "content": "Bell states, Teleportation, Superdense coding"
      },
      {
        "week": 5,
        "topic": "Quantum Parallelism",
        "content": "Deutsch and Deutsch-Jozsa algorithms"
      },
      {
        "week": 6,
        "topic": "Simon's Algorithm",
        "content": "Period finding, separation between classical and quantum complexity"
      },
      {
        "week": 7,
        "topic": "Mid-term Examination",
        "content": "Written assessment of first half concepts"
      },
      {
        "week": 8,
        "topic": "Quantum Fourier Transform (QFT)",
        "content": "Circuit construction, phase estimation"
      },
      {
        "week": 9,
        "topic": "Shor's Algorithm",
        "content": "Factoring integers, order finding, RSA implications"
      },
      {
        "week": 10,
        "topic": "Grover's Algorithm",
        "content": "Unstructured search, amplitude amplification, optimality"
      },
      {
        "week": 11,
        "topic": "Hamiltonian Simulation",
        "content": "Simulating physical systems, product formulas"
      },
      {
        "week": 12,
        "topic": "Quantum Error Correction",
        "content": "Shor code, Steane code, stabilizer formalism basics"
      }
    ],
    "assessmentMethods": [
      "Homework Assignments (25%)",
      "Mid-term Exam (25%)",
      "Final Exam (35%)",
      "Quizzes/Project (15%)"
    ],
    "textbooks": [
      {
        "title": "Quantum Computation and Quantum Information",
        "authors": "Nielsen & Chuang",
        "required": true
      },
      {
        "title": "An Introduction to Quantum Computing",
        "authors": "Kaye, Laflamme, and Mosca",
        "required": false
      }
    ],
    "learningOutcomes": [
      "Construct quantum circuits for standard algorithms",
      "Mathematically prove the correctness of quantum algorithms",
      "Analyze the time and space complexity of quantum computations",
      "Understand the basics of noise and error correction"
    ],
    "enrollmentStatus": "Waitlist",
    "applicationDeadline": "2024-12-31",
    "fees": "Included in Semester Tuition"
  },
  {
    "id": "quantum-mechanics",
    "title": "Quantum Mechanics",
    "code": "ECE525",
    "level": "Graduate/Undergraduate",
    "duration": "",
    "credits": 4,
    "instructor": "CQT Faculty",
    "coInstructors": [],
    "description": "A foundational course providing a rigorous introduction to the principles of quantum mechanics. It covers the mathematical formalism required for understanding advanced quantum technologies and devices, focusing on wave mechanics and operator formalism.",
    "image": "/placeholder.svg",
    "featured": false,
    "semester": "",
    "schedule": "",
    "location": "",
    "capacity": 45,
    "enrolled": 30,
    "tags": [
      ""
    ],
    "prerequisites": [],
    "objectives": [],
    "learningOutcomes": [
      "Solve differential equations governing quantum systems",
      "Interpret the physical meaning of wave functions",
      "Calculate expectation values and probabilities",
      "Apply quantum mechanics to simple atomic systems"
    ],
    "enrollmentStatus": "Open",
    "applicationDeadline": "2025-07-31",
    "fees": "Included in Semester Tuition",
    "updatedAt": "2026-01-29T13:36:09.705Z"
  },
  {
    "id": "quantummaterialanddevice",
    "code": "ECE524",
    "credits": 4,
    "title": "Quantum Materials and Devices",
    "level": "Graduate/Undergraduate",
    "duration": "--",
    "instructor": "Dr. Ram Krishna Ghosh",
    "schedule": "--",
    "description": "This course focuses on the physical properties of materials used in quantum devices, including superconductors, semiconductors, and topological insulators. It covers quantum transport phenomena and the design of devices like single-electron transistors and superconducting qubits.",
    "prerequisites": [
      "TOBEUPDATED"
    ],
    "createdAt": "2026-01-29T12:57:14.858Z",
    "updatedAt": "2026-01-29T13:47:24.991Z",
    "objectives": [
      "TOBEUPDATED"
    ],
    "tags": [
      "Quantum Materials",
      ""
    ],
    "featured": true,
    "semester": "--",
    "location": "--",
    "enrolled": null,
    "capacity": null
  }
]

Urban Research Lab

The Urban Research Lab (URL) at IIIT-Delhi was established in 2020, during a time when the pandemic brought the complexities of urban life more visible than ever. What started as an initiative by faculty and students has grown into a collaborative space for critically exploring and reimagining the urban questions through research, dialogue, and interdisciplinary engagement.

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Code Editor : courses.json.backup.1769694463176.json

Urban Research Lab