Daily Qiskit experiments · Mathematical foundations · Quantum mechanics rigor · Zero social media · Building quantum intuition through tensor calculus, algorithm implementation, and hardware-aware noise modeling. Progress tracked via commit-driven discipline.
Mission: Master quantum mechanics through daily mathematical proofs and Qiskit implementations.
Rules:
- No social media
- 6 AM math drills (Khan Academy/Paul's Notes)
- 8 AM Qiskit sprint (IBM Quantum Lab)
- GitHub commit before midnight
| Date | Math Focus | Qiskit Implementation | Insights |
|---|---|---|---|
| 2024-07-07 | Dirac notation | bell_state.py | Verified ⟨01 |
| 2024-07-08 | Unitary operators | quantum_teleport.py | Classical comms bottleneck in teleportation |
| First 5 Critical Directories: | |||
| /math_foundations |
linear_algebra.ipynb (Matrix proofs of quantum gates)
probability_distributions.ipynb (Measurement outcome simulations)
/core_physics
wave_particle_duality.ipynb (Double-slit simulation with qubits)
heisenberg_uncertainty.py (Tradeoff in σ_x vs σ_z measurements)
/qiskit_impl
/week1_superposition (Bloch sphere visualizations)
/week2_error_correction (Surface code stabilizers)
/noise_modeling
t1_relaxation.py (Hardware decay simulation)
quantum_volume_calculation.ipynb
/literature
Annotated PDFs of:
Feynman Lectures Vol III
Nielsen & Chuang Chapter 2
IBM Quantum Hardware Whitepapers