1. Classical preconditioning: compute M⁻¹ ≈ A⁻¹ (e.g., AMG) 2. Initialise quantum subspace V = ∅ 3. while residual > ε and |V| < K_max: a. Quantum Subspace Generation (QSG): i. Prepare |b⟩ on quantum device (amplitude encoding via QRAM or iterative loading) ii. Apply a shallow ansatz U(θ) (hardware‑efficient) to generate candidate state |ψ⟩ iii. Perform *Quantum Phase Estimation* (QPE) with low precision to extract dominant eigenvalues λ_k iv. Orthogonalise |ψ⟩ against V (via Gram‑Schmidt in Hilbert space) → |φ⟩ v. Append |φ⟩ to V b. Classical Subspace Projection: i. Estimate matrix elements A_ij = ⟨φ_i|A|φ_j⟩ via Hadamard‑test circuits ii. Form effective system A_eff y = b_eff, where b_eff_i = ⟨φ_i|b⟩ iii. Solve for y (size |V|) classically (dense linear solve) c. Reconstruct approximate solution on quantum device: |x_q⟩ = Σ_i y_i |φ_i⟩ d. Compute residual r = b – A x_q (classically using M⁻¹ as a surrogate) e. If ||r||/||b|| < ε → terminate 4. Return classical vector x̃ = M⁻¹ r + x_q (final refinement)
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