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<center><b>
[ <a href="module-tree.html">Module Hierarchy</a>
| <a href="class-tree.html">Class Hierarchy</a> ]
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<h1 class="epydoc">Class Hierarchy</h1>
<ul class="nomargin-top">
<li> <strong class="uidlink">object</strong>:
<em class="summary">The most base type</em>
<ul>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.BVSVDMethod-class.html">slepc4py.SLEPc.BVSVDMethod</a></strong>:
<em class="summary">BV methods for computing the SVD</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.Balance-class.html">slepc4py.SLEPc.EPS.Balance</a></strong>:
<em class="summary">EPS type of balancing used for non-Hermitian problems</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.Basis-class.html">slepc4py.SLEPc.PEP.Basis</a></strong>:
<em class="summary">PEP basis type for the representation of the polynomial</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.BV.BlockType-class.html">slepc4py.SLEPc.BV.BlockType</a></strong>:
<em class="summary">BV block-orthogonalization types</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.CISSExtraction-class.html">slepc4py.SLEPc.EPS.CISSExtraction</a></strong>:
<em class="summary">EPS CISS extraction technique</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.NEP.CISSExtraction-class.html">slepc4py.SLEPc.NEP.CISSExtraction</a></strong>:
<em class="summary">NEP CISS extraction technique</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.CISSExtraction-class.html">slepc4py.SLEPc.PEP.CISSExtraction</a></strong>:
<em class="summary">PEP CISS extraction technique</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.CISSQuadRule-class.html">slepc4py.SLEPc.EPS.CISSQuadRule</a></strong>:
<em class="summary">EPS CISS quadrature rule</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.FN.CombineType-class.html">slepc4py.SLEPc.FN.CombineType</a></strong>:
<em class="summary">FN type of combination of child functions</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.Conv-class.html">slepc4py.SLEPc.EPS.Conv</a></strong>:
<em class="summary">EPS convergence test</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.NEP.Conv-class.html">slepc4py.SLEPc.NEP.Conv</a></strong>:
<em class="summary">NEP convergence test</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.Conv-class.html">slepc4py.SLEPc.PEP.Conv</a></strong>:
<em class="summary">PEP convergence test</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.SVD.Conv-class.html">slepc4py.SLEPc.SVD.Conv</a></strong>:
<em class="summary">SVD convergence test</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.ConvergedReason-class.html">slepc4py.SLEPc.EPS.ConvergedReason</a></strong>:
<em class="summary">EPS convergence reasons</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.MFN.ConvergedReason-class.html">slepc4py.SLEPc.MFN.ConvergedReason</a></strong>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.NEP.ConvergedReason-class.html">slepc4py.SLEPc.NEP.ConvergedReason</a></strong>:
<em class="summary">NEP convergence reasons</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.ConvergedReason-class.html">slepc4py.SLEPc.PEP.ConvergedReason</a></strong>:
<em class="summary">PEP convergence reasons</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.SVD.ConvergedReason-class.html">slepc4py.SLEPc.SVD.ConvergedReason</a></strong>:
<em class="summary">SVD convergence reasons</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.ErrorType-class.html">slepc4py.SLEPc.EPS.ErrorType</a></strong>:
<em class="summary">EPS error type to assess accuracy of computed solutions</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.NEP.ErrorType-class.html">slepc4py.SLEPc.NEP.ErrorType</a></strong>:
<em class="summary">NEP error type to assess accuracy of computed solutions</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.ErrorType-class.html">slepc4py.SLEPc.PEP.ErrorType</a></strong>:
<em class="summary">PEP error type to assess accuracy of computed solutions</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.SVD.ErrorType-class.html">slepc4py.SLEPc.SVD.ErrorType</a></strong>:
<em class="summary">SVD error type to assess accuracy of computed solutions</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.Extract-class.html">slepc4py.SLEPc.PEP.Extract</a></strong>:
<em class="summary">PEP extraction strategy used to obtain eigenvectors of the PEP from the
eigenvectors of the linearization</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.Extraction-class.html">slepc4py.SLEPc.EPS.Extraction</a></strong>:
<em class="summary">EPS extraction technique</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.JDProjection-class.html">slepc4py.SLEPc.PEP.JDProjection</a></strong>:
<em class="summary">PEP type of projection to be used in the Jacobi-Davidson solver</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.LanczosReorthogType-class.html">slepc4py.SLEPc.EPS.LanczosReorthogType</a></strong>:
<em class="summary">EPS Lanczos reorthogonalization type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.ST.MatMode-class.html">slepc4py.SLEPc.ST.MatMode</a></strong>:
<em class="summary">ST matrix mode</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.BV.MatMultType-class.html">slepc4py.SLEPc.BV.MatMultType</a></strong>:
<em class="summary">BV mat-mult types</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.DS.MatType-class.html">slepc4py.SLEPc.DS.MatType</a></strong>:
<em class="summary">To refer to one of the matrices stored internally in DS</em>
</li>
<li> <strong class="uidlink">petsc4py.PETSc.Object</strong>
<ul>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.BV-class.html">slepc4py.SLEPc.BV</a></strong>:
<em class="summary">BV</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.DS-class.html">slepc4py.SLEPc.DS</a></strong>:
<em class="summary">DS</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS-class.html">slepc4py.SLEPc.EPS</a></strong>:
<em class="summary">EPS</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.FN-class.html">slepc4py.SLEPc.FN</a></strong>:
<em class="summary">FN</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.MFN-class.html">slepc4py.SLEPc.MFN</a></strong>:
<em class="summary">MFN</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.NEP-class.html">slepc4py.SLEPc.NEP</a></strong>:
<em class="summary">NEP</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP-class.html">slepc4py.SLEPc.PEP</a></strong>:
<em class="summary">PEP</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.RG-class.html">slepc4py.SLEPc.RG</a></strong>:
<em class="summary">RG</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.ST-class.html">slepc4py.SLEPc.ST</a></strong>:
<em class="summary">ST</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.SVD-class.html">slepc4py.SLEPc.SVD</a></strong>:
<em class="summary">SVD</em>
</li>
</ul>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.BV.OrthogType-class.html">slepc4py.SLEPc.BV.OrthogType</a></strong>:
<em class="summary">BV orthogonalization types</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.DS.ParallelType-class.html">slepc4py.SLEPc.DS.ParallelType</a></strong>:
<em class="summary">DS parallel types</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.FN.ParallelType-class.html">slepc4py.SLEPc.FN.ParallelType</a></strong>:
<em class="summary">FN parallel types</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.PowerShiftType-class.html">slepc4py.SLEPc.EPS.PowerShiftType</a></strong>:
<em class="summary">EPS Power shift type.</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.ProblemType-class.html">slepc4py.SLEPc.EPS.ProblemType</a></strong>:
<em class="summary">EPS problem type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.NEP.ProblemType-class.html">slepc4py.SLEPc.NEP.ProblemType</a></strong>:
<em class="summary">NEP problem type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.ProblemType-class.html">slepc4py.SLEPc.PEP.ProblemType</a></strong>:
<em class="summary">PEP problem type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.SVD.ProblemType-class.html">slepc4py.SLEPc.SVD.ProblemType</a></strong>:
<em class="summary">SVD problem type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.RG.QuadRule-class.html">slepc4py.SLEPc.RG.QuadRule</a></strong>:
<em class="summary">RG quadrature rule for contour integral methods</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.NEP.Refine-class.html">slepc4py.SLEPc.NEP.Refine</a></strong>:
<em class="summary">NEP refinement strategy</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.Refine-class.html">slepc4py.SLEPc.PEP.Refine</a></strong>:
<em class="summary">PEP refinement strategy</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.NEP.RefineScheme-class.html">slepc4py.SLEPc.NEP.RefineScheme</a></strong>:
<em class="summary">NEP scheme for solving linear systems during iterative refinement</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.RefineScheme-class.html">slepc4py.SLEPc.PEP.RefineScheme</a></strong>:
<em class="summary">PEP scheme for solving linear systems during iterative refinement</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.BV.RefineType-class.html">slepc4py.SLEPc.BV.RefineType</a></strong>:
<em class="summary">BV orthogonalization refinement types</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.Scale-class.html">slepc4py.SLEPc.PEP.Scale</a></strong>:
<em class="summary">PEP scaling strategy</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.DS.StateType-class.html">slepc4py.SLEPc.DS.StateType</a></strong>:
<em class="summary">DS state types</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.Stop-class.html">slepc4py.SLEPc.EPS.Stop</a></strong>:
<em class="summary">EPS stopping test</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.NEP.Stop-class.html">slepc4py.SLEPc.NEP.Stop</a></strong>:
<em class="summary">NEP stopping test</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.Stop-class.html">slepc4py.SLEPc.PEP.Stop</a></strong>:
<em class="summary">PEP stopping test</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.SVD.Stop-class.html">slepc4py.SLEPc.SVD.Stop</a></strong>:
<em class="summary">SVD stopping test</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.Sys-class.html">slepc4py.SLEPc.Sys</a></strong>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.SVD.TRLanczosGBidiag-class.html">slepc4py.SLEPc.SVD.TRLanczosGBidiag</a></strong>:
<em class="summary">SVD TRLanczos bidiagonalization choices for the GSVD case</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.BV.Type-class.html">slepc4py.SLEPc.BV.Type</a></strong>:
<em class="summary">BV type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.DS.Type-class.html">slepc4py.SLEPc.DS.Type</a></strong>:
<em class="summary">DS type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.Type-class.html">slepc4py.SLEPc.EPS.Type</a></strong>:
<em class="summary">EPS type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.FN.Type-class.html">slepc4py.SLEPc.FN.Type</a></strong>:
<em class="summary">FN type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.MFN.Type-class.html">slepc4py.SLEPc.MFN.Type</a></strong>:
<em class="summary">MFN type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.NEP.Type-class.html">slepc4py.SLEPc.NEP.Type</a></strong>:
<em class="summary">NEP type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.Type-class.html">slepc4py.SLEPc.PEP.Type</a></strong>:
<em class="summary">PEP type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.RG.Type-class.html">slepc4py.SLEPc.RG.Type</a></strong>:
<em class="summary">RG type</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.ST.Type-class.html">slepc4py.SLEPc.ST.Type</a></strong>:
<em class="summary">ST types</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.SVD.Type-class.html">slepc4py.SLEPc.SVD.Type</a></strong>:
<em class="summary">SVD types</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.EPS.Which-class.html">slepc4py.SLEPc.EPS.Which</a></strong>:
<em class="summary">EPS desired part of spectrum</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.NEP.Which-class.html">slepc4py.SLEPc.NEP.Which</a></strong>:
<em class="summary">NEP desired part of spectrum</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.PEP.Which-class.html">slepc4py.SLEPc.PEP.Which</a></strong>:
<em class="summary">PEP desired part of spectrum</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc.SVD.Which-class.html">slepc4py.SLEPc.SVD.Which</a></strong>:
<em class="summary">SVD desired part of spectrum</em>
</li>
<li> <strong class="uidlink"><a href="slepc4py.SLEPc._p_mem-class.html" onclick="show_private();">slepc4py.SLEPc._p_mem</a></strong>
</li>
</ul>
</li>
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