MadNLP Options

Primary options

These options are used to set the values for other options. The default values are inferred from the NLP model.

  • tol::Float64
    Termination tolerance. The default value is 1e-8 for double precision. The solver terminates if the scaled primal, dual, complementary infeasibility is less than tol. Valid range is $(0,\infty)$.
  • callback::Type Valid values are: MadNLP.{DenseCallback,SparseCallback}.
  • kkt_system::Type The type of KKT system. Valid values are MadNLP.{SpasreKKTSystem,SparseUnreducedKKTSystem,SparseCondensedKKTSystem,DenseKKTSystem,DenseCondensedKKTSystem}.
  • linear_solver::Type
    Linear solver used for solving primal-dual system. Valid values are: {MadNLP.UmfpackSolver,MadNLP.LDLSolver,MadNLP.CHOLMODSolver, MadNLP.MumpsSolver, MadNLP.PardisoSolver, MadNLP.PardisoMKLSolver, MadNLP.Ma27Solver, MadNLP.Ma57Solver, MadNLP.Ma77Solver, MadNLP.Ma86Solver, MadNLP.Ma97Solver, MadNLP.LapackCPUSolver, MadNLPGPU.LapackGPUSolver,MadNLPGPU.RFSolver,MadNLPGPU.GLUSolver,MadNLPGPU.CuCholeskySolver,MadNLPGPU.CUDSSSolver} (some may require using extension packages). The selected solver should be properly built in the build procedure. See README.md file.

General options

  • iterator::Type = RichardsonIterator
    Iterator used for iterative refinement. Valid values are: {MadNLPRichardson,MadNLPKrylov}.
  • blas_num_threads::Int = 1
    Number of threads used for BLAS routines. Valid range is $[1,\infty)$.
  • disable_garbage_collector::Bool = false
    If true, Julia garbage collector is temporarily disabled while solving the problem, and then enabled back once the solution is complete.
  • rethrow_error::Bool = true
    If false, any internal error thrown by MadNLP and interruption exception (triggered by the user via ^C) is caught, and not rethrown. If an error is caught, the solver terminates with an error message.

Output options

  • print_level::LogLevels = INFO
    stdout print level. Any message with level less than print_level is not printed on stdout. Valid values are: MadNLP.{TRACE, DEBUG, INFO, NOTICE, WARN, ERROR}.
  • output_file::String = INFO
    If not "", the output log is teed to the file at the path specified in output_file.
  • file_print_level::LogLevels = TRACE
    File print level; any message with level less than file_print_level is not printed on the file specified in output_file. Valid values are: MadNLP.{TRACE, DEBUG, INFO, NOTICE, WARN, ERROR}.

Termination options

  • max_iter::Int = 3000
    Maximum number of interior point iterations. The solver terminates with exit symbol :Maximum_Iterations_Exceeded if the interior point iteration count exceeds max_iter.
  • acceptable_tol::Float64 = 1e-6
    Acceptable tolerance. The solver terminates if the scaled primal, dual, complementary infeasibility is less than acceptable_tol, for acceptable_iter consecutive interior point iteration steps.
  • acceptable_iter::Int = 15
    Acceptable iteration tolerance. Valid rage is $[1,\infty)$.
  • diverging_iterates_tol::Float64 = 1e20
    Diverging iteration tolerance. The solver terminates with exit symbol :Diverging_Iterates if the NLP error is greater than diverging_iterates_tol.
  • max_wall_time::Float64 = 1e6
    Maximum wall time for interior point solver. The solver terminates with exit symbol :Maximum_WallTime_Exceeded if the total solver wall time exceeds max_wall_time.
  • s_max::Float64 = 100.

NLP options

  • kappa_d::Float64 = 1e-5
  • fixed_variable_treatment::FixedVariableTreatments = MakeParameter
    Valid values are: MadNLP.{RelaxBound,MakeParameter}.
  • equality_treatment::FixedVariableTreatments = MakeParameter
    Valid values are: MadNLP.{RelaxEquality,EnforceEquality}.
  • jacobian_constant::Bool = false
    If true, constraint Jacobian is only evaluated once and reused.
  • hessian_constant::Bool = false
    If true, Lagrangian Hessian is only evaluated once and reused.
  • bound_push::Float64 = 1e-2
  • bound_fac::Float64 = 1e-2
  • hessian_approximation::Type = ExactHessian
  • quasi_newton_options::QuasiNewtonOptions = QuasiNewtonOptions()
  • inertia_correction_method::InertiaCorrectionMethods = INERTIA_AUTO
    Valid values are: MadNLP.{INERTIA_AUTO,INERTIA_BASED, INERTIA_FREE}.
    • INERTIA_BASED uses the strategy in Ipopt.
    • INERTIA_FREE uses the strategy in Chiang (2016).
    • INERTIA_AUTO uses INERTIA_BASED if inertia information is available and uses INERTIA_FREE otherwise.
  • inertia_free_tol::Float64 = 0.

Initialization Options

dual_initialized::Bool = false
dual_initialization_method::Type = kkt_system <: MadNLP.SparseCondensedKKTSystem ? DualInitializeSetZero : DualInitializeLeastSquares
  • constr_mult_init_max::Float64 = 1e3
  • nlp_scaling::Bool = true:
    If true, MadNLP scales the nonlinear problem during the resolution.
  • nlp_scaling_max_gradient::Float64 = 100.

Hessian perturbation options

  • min_hessian_perturbation::Float64 = 1e-20
  • first_hessian_perturbation::Float64 = 1e-4
  • max_hessian_perturbation::Float64 = 1e20
  • perturb_inc_fact_first::Float64 = 1e2
  • perturb_inc_fact::Float64 = 8.
  • perturb_dec_fact::Float64 = 1/3
  • jacobian_regularization_exponent::Float64 = 1/4
  • jacobian_regularization_value::Float64 = 1e-8

Restoration options

  • soft_resto_pderror_reduction_factor::Float64 = 0.9999
  • required_infeasibility_reduction::Float64 = 0.9

Line-search options

  • obj_max_inc::Float64 = 5.
  • kappha_soc::Float64 = 0.99
  • max_soc::Int = 4
  • alpha_min_frac::Float64 = 0.05
  • s_theta::Float64 = 1.1
  • s_phi::Float64 = 2.3
  • eta_phi::Float64 = 1e-4
  • kappa_soc::Float64 = 0.99
  • gamma_theta::Float64 = 1e-5
  • gamma_phi::Float64 = 1e-5
  • delta::Float64 = 1
  • kappa_sigma::Float64 = 1e10
  • barrier_tol_factor::Float64 = 10.
  • rho::Float64 = 1000.

Barrier options

  • mu_init::Float64 = 1e-1
  • mu_min::Float64 = 1e-9
  • mu_superlinear_decrease_power::Float64 = 1.5
  • tau_min::Float64 = 0.99
  • mu_linear_decrease_factor::Float64 = .2

Linear Solver Options

Linear solver options are specific to the linear solver chosen at linear_solver option. Irrelevant options are ignored and a warning message is printed.

Ma27 (requires MadNLPHSL)

  • ma27_pivtol::Float64 = 1e-8
  • ma27_pivtolmax::Float64 = 1e-4
  • ma27_liw_init_factor::Float64 = 5.
  • ma27_la_init_factor::Float64 = 5.
  • ma27_meminc_factor::Float64 = 2.

Ma57 (requires MadNLPHSL)

  • ma57_pivtol::Float64 = 1e-8
  • ma57_pivtolmax::Float64 = 1e-4
  • ma57_pre_alloc::Float64 = 1.05
  • ma57_pivot_order::Int = 5
  • ma57_automatic_scaling::Bool = false
  • ma57_block_size::Int = 16
  • ma57_node_amalgamation::Int = 16
  • ma57_small_pivot_flag::Int = 0

Ma77 (requires MadNLPHSL)

  • ma77_buffer_lpage::Int = 4096
  • ma77_buffer_npage::Int = 1600
  • ma77_file_size::Int = 2097152
  • ma77_maxstore::Int = 0
  • ma77_nemin::Int = 8
  • ma77_order::Ma77.Ordering = Ma77.METIS
  • ma77_print_level::Int = -1
  • ma77_small::Float64 = 1e-20
  • ma77_static::Float64 = 0.
  • ma77_u::Float64 = 1e-8
  • ma77_umax::Float64 = 1e-4

Ma86 (requires MadNLPHSL)

  • ma86_num_threads::Int = 1
  • ma86_print_level::Float64 = -1
  • ma86_nemin::Int = 32
  • ma86_order::Ma86.Ordering = Ma86.METIS
  • ma86_scaling::Ma86.Scaling = Ma86.SCALING_NONE
  • ma86_small::Float64 = 1e-20
  • ma86_static::Float64 = 0.
  • ma86_u::Float64 = 1e-8
  • ma86_umax::Float64 = 1e-4

Ma97 (requires MadNLPHSL)

  • ma97_num_threads::Int = 1
  • ma97_print_level::Int = -1
  • ma97_nemin::Int = 8
  • ma97_order::Ma97.Ordering = Ma97.METIS
  • ma97_scaling::Ma97.Scaling = Ma97.SCALING_NONE
  • ma97_small::Float64 = 1e-20
  • ma97_u::Float64 = 1e-8
  • ma97_umax::Float64 = 1e-4

Mumps (requires MadNLPMumps)

  • mumps_dep_tol::Float64 = 0.
  • mumps_mem_percent::Int = 1000
  • mumps_permuting_scaling::Int = 7
  • mumps_pivot_order::Int = 7
  • mumps_pivtol::Float64 = 1e-6
  • mumps_pivtolmax::Float64 = .1
  • mumps_scaling::Int = 77

Umfpack (requires MadNLPUmfpack)

  • umfpack_pivtol::Float64 = 1e-4
  • umfpack_pivtolmax::Float64 = 1e-1
  • umfpack_sym_pivtol::Float64 = 1e-3
  • umfpack_block_size::Float64 = 16
  • umfpack_strategy::Float64 = 2.

Pardiso (requires MadNLPPardiso)

  • pardiso_matching_strategy::Pardiso.MatchingStrategy = COMPLETE2x2
  • pardiso_max_inner_refinement_steps::Int = 1
  • pardiso_msglvl::Int = 0
  • pardiso_order::Int = 2

PardisoMKL

  • pardisomkl_num_threads::Int = 1
  • pardiso_matching_strategy::PardisoMKL.MatchingStrategy = COMPLETE2x2
  • pardisomkl_max_iterative_refinement_steps::Int = 1
  • pardisomkl_msglvl::Int = 0
  • pardisomkl_order::Int = 2

LapackGPU (requires MadNLPGPU)

  • lapackgpu_algorithm::LapackGPU.Algorithms = BUNCHKAUFMAN

LapackCPU

  • lapackcpu_algorithm::LapackCPU.Algorithms = BUNCHKAUFMAN

Iterator Options

Richardson

  • richardson_max_iter::Int = 10
    Maximum number of Richardson iteration steps. Valid range is $[1,\infty)$.
  • richardson_tol::Float64 = 1e-10
    Convergence tolerance of Richardson iteration. Valid range is $(0,\infty)$.
  • richardson_acceptable_tol::Float64 = 1e-5
    Acceptable convergence tolerance of Richardson iteration. If the Richardson iteration counter exceeds richardson_max_iter without satisfying the convergence criteria set with richardson_tol, the Richardson solver checks whether the acceptable convergence criteria set with richardson_acceptable_tol is satisfied; if the acceptable convergence criteria is satisfied, the computed step is used; otherwise, the augmented system is treated to be singular. Valid range is $(0,\infty)$.

Krylov (requires MadNLPIterative)

  • krylov_max_iter::Int = 10
    Maximum number of Krylov iteration steps. Valid range is $[1,\infty)$.
  • krylov_tol::Float64 = 1e-10
    Convergence tolerance of Krylov iteration. Valid range is $(0,\infty)$.
  • krylov_acceptable_tol::Float64 = 1e-5
    Acceptable convergence tolerance of Krylov iteration. If the Krylov iteration counter exceeds krylov_max_iter without satisfying the convergence criteria set with krylov_tol, the Krylov solver checks whether the acceptable convergence criteria set with krylov_acceptable_tol is satisfied; if the acceptable convergence criteria is satisfied, the computed step is used; otherwise, the augmented system is treated to be singular. Valid range is $(0,\infty)$.
  • krylov_restart::Int = 5
    Maximum Krylov iteration before restarting. Valid range is $[1,\infty)$.

Reference

[Bunch, 1977]: J R Bunch and L Kaufman, Some stable methods for calculating inertia and solving symmetric linear systems, Mathematics of Computation 31:137 (1977), 163-179.

[Greif, 2014]: Greif, Chen, Erin Moulding, and Dominique Orban. "Bounds on eigenvalues of matrices arising from interior-point methods." SIAM Journal on Optimization 24.1 (2014): 49-83.

[Wächter, 2006]: Wächter, Andreas, and Lorenz T. Biegler. "On the implementation of an interior-point filter line-search algorithm for large-scale nonlinear programming." Mathematical programming 106.1 (2006): 25-57.

[Chiang, 2016]: Chiang, Nai-Yuan, and Victor M. Zavala. "An inertia-free filter line-search algorithm for large-scale nonlinear programming." Computational Optimization and Applications 64.2 (2016): 327-354.