<trid="row_0_"class="even"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1approx8_1_1_approx8_net.html"target="_self">gridfire::approx8::Approx8Net</a></td><tdclass="desc">Contains constants and arrays related to the nuclear network </td></tr>
<trid="row_1_"class="odd"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1solver_1_1dynamic_q_s_e_species_indices.html"target="_self">gridfire::solver::dynamicQSESpeciesIndices</a></td><tdclass="desc">Structure to hold indices of dynamic and QSE species </td></tr>
<trid="row_2_"class="even"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1solver_1_1_q_s_e_network_solver_1_1_eigen_functor.html"target="_self">gridfire::solver::QSENetworkSolver::EigenFunctor< T ></a></td><tdclass="desc">Functor for calculating the residual and Jacobian for the QSE species using Eigen </td></tr>
<trid="row_3_"class="odd"><tdclass="entry"><spanstyle="width:0px;display:inline-block;"> </span><spanid="arr_3_"class="arrow"onclick="dynsection.toggleFolder('3_')">▼</span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1_engine.html"target="_self">gridfire::Engine</a></td><tdclass="desc">Abstract base class for a reaction network engine </td></tr>
<trid="row_3_0_"class="even"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanid="arr_3_0_"class="arrow"onclick="dynsection.toggleFolder('3_0_')">▼</span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1_dynamic_engine.html"target="_self">gridfire::DynamicEngine</a></td><tdclass="desc">Abstract class for engines supporting Jacobian and stoichiometry operations </td></tr>
<trid="row_3_0_0_"class="odd"><tdclass="entry"><spanstyle="width:48px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1_adaptive_engine_view.html"target="_self">gridfire::AdaptiveEngineView</a></td><tdclass="desc">An engine view that dynamically adapts the reaction network based on runtime conditions </td></tr>
<trid="row_3_0_2_"class="odd"><tdclass="entry"><spanstyle="width:48px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1_graph_engine.html"target="_self">gridfire::GraphEngine</a></td><tdclass="desc">A reaction network engine that uses a graph-based representation </td></tr>
<trid="row_4_"class="even"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1_engine_view.html"target="_self">gridfire::EngineView< EngineT ></a></td><tdclass="desc">Abstract base class for a "view" of a reaction network engine </td></tr>
<trid="row_5_0_"class="even"><tdclass="entry"><spanstyle="width:32px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1_adaptive_engine_view.html"target="_self">gridfire::AdaptiveEngineView</a></td><tdclass="desc">An engine view that dynamically adapts the reaction network based on runtime conditions </td></tr>
<trid="row_9_"class="odd"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1approx8_1_1_jacobian.html"target="_self">gridfire::approx8::Jacobian</a></td><tdclass="desc">Functor to calculate the <aclass="el"href="structgridfire_1_1approx8_1_1_jacobian.html"title="Functor to calculate the Jacobian matrix for implicit solvers.">Jacobian</a> matrix for implicit solvers </td></tr>
<trid="row_10_"class="even"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1solver_1_1_direct_network_solver_1_1_jacobian_functor.html"target="_self">gridfire::solver::DirectNetworkSolver::JacobianFunctor</a></td><tdclass="desc">Functor for calculating the Jacobian matrix </td></tr>
<trid="row_11_"class="odd"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1solver_1_1_q_s_e_network_solver_1_1_jacobian_functor.html"target="_self">gridfire::solver::QSENetworkSolver::JacobianFunctor</a></td><tdclass="desc">Functor for calculating the Jacobian matrix of the ODEs for the dynamic species </td></tr>
<trid="row_14_0_"class="odd"><tdclass="entry"><spanstyle="width:32px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1approx8_1_1_approx8_network.html"target="_self">gridfire::approx8::Approx8Network</a></td><tdclass="desc">Class for the Approx8 nuclear reaction network </td></tr>
<trid="row_16_"class="odd"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1solver_1_1_network_solver_strategy.html"target="_self">gridfire::solver::NetworkSolverStrategy< EngineT ></a></td><tdclass="desc">Abstract base class for network solver strategies </td></tr>
<trid="row_17_0_"class="odd"><tdclass="entry"><spanstyle="width:32px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1solver_1_1_direct_network_solver.html"target="_self">gridfire::solver::DirectNetworkSolver</a></td><tdclass="desc">A network solver that directly integrates the reaction network ODEs </td></tr>
<trid="row_17_1_"class="even"><tdclass="entry"><spanstyle="width:32px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1solver_1_1_q_s_e_network_solver.html"target="_self">gridfire::solver::QSENetworkSolver</a></td><tdclass="desc">A network solver that uses a Quasi-Steady-State Equilibrium (QSE) approach </td></tr>
<trid="row_18_"class="odd"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1approx8_1_1_o_d_e.html"target="_self">gridfire::approx8::ODE</a></td><tdclass="desc">Functor to calculate the derivatives for the <aclass="el"href="structgridfire_1_1approx8_1_1_o_d_e.html"title="Functor to calculate the derivatives for the ODE solver.">ODE</a> solver </td></tr>
<trid="row_20_"class="odd"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1reaction_1_1_rate_coefficient_set.html"target="_self">gridfire::reaction::RateCoefficientSet</a></td><tdclass="desc">Holds the seven coefficients for the REACLIB rate equation </td></tr>
<trid="row_21_"class="even"><tdclass="entry"><spanstyle="width:0px;display:inline-block;"> </span><spanid="arr_21_"class="arrow"onclick="dynsection.toggleFolder('21_')">▼</span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1reaction_1_1_reaction.html"target="_self">gridfire::reaction::Reaction</a></td><tdclass="desc">Represents a single nuclear reaction from a specific data source </td></tr>
<trid="row_21_0_"class="odd"><tdclass="entry"><spanstyle="width:32px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="classgridfire_1_1reaction_1_1_logical_reaction.html"target="_self">gridfire::reaction::LogicalReaction</a></td><tdclass="desc">Represents a "logical" reaction that aggregates rates from multiple sources </td></tr>
<trid="row_22_"class="even"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1_adaptive_engine_view_1_1_reaction_flow.html"target="_self">gridfire::AdaptiveEngineView::ReactionFlow</a></td><tdclass="desc">A struct to hold a reaction and its flow rate </td></tr>
<trid="row_24_"class="even"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1solver_1_1_direct_network_solver_1_1_r_h_s_functor.html"target="_self">gridfire::solver::DirectNetworkSolver::RHSFunctor</a></td><tdclass="desc">Functor for calculating the right-hand side of the ODEs </td></tr>
<trid="row_25_"class="odd"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1solver_1_1_q_s_e_network_solver_1_1_r_h_s_functor.html"target="_self">gridfire::solver::QSENetworkSolver::RHSFunctor</a></td><tdclass="desc">Functor for calculating the right-hand side of the ODEs for the dynamic species </td></tr>
<trid="row_27_"class="odd"><tdclass="entry"><spanstyle="width:16px;display:inline-block;"> </span><spanclass="icona"><spanclass="icon">C</span></span><aclass="el"href="structgridfire_1_1_step_derivatives.html"target="_self">gridfire::StepDerivatives< T ></a></td><tdclass="desc">Structure holding derivatives and energy generation for a network step </td></tr>
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