ResQPASS: An Algorithm for Bounded Variable Linear Least Squares with Asymptotic Krylov Convergence

ResQPASS offers a unique approach to optimization compared to traditional algorithms. Traditional optimization algorithms often focus on solving unconstrained problems or problems with simple constraints. In contrast, ResQPASS specifically targets large-scale linear least-squares problems with bound constraints on the variables. By utilizing a series of small projected problems and incorporating warm-starting techniques, ResQPASS aims to efficiently solve these specific types of optimization problems.

Warm-starting in ResQPASS plays a crucial role in improving iterative solutions by leveraging information from previous iterations. By using the optimal working set from the previous iteration as an initial guess for the next iteration, ResQPASS can significantly reduce computational time and converge faster towards the solution. This approach allows for smoother transitions between iterations and helps maintain progress even when faced with complex optimization landscapes.

To adapt ResQPASS for specific applications beyond linear least squares, modifications can be made based on the problem requirements. For example: For nonnegative least squares (NNLS) problems: Adjustments can be made to handle nonnegativity constraints effectively. For sparse matrix factorization tasks: Incorporate methods to exploit sparsity in matrices for efficient computation. For constrained quadratic programming (QP) problems: Extend ResQPASS to handle more general QP formulations with diverse constraint types. By tailoring ResQPASS to suit different application scenarios, it can offer optimized solutions for various real-world optimization challenges.