var group__hesv__comp__grp =
[
    [ "— full, rook v1 —", "dc/d47/group__hesv__comp__v1.html", null ],
    [ "{he,sy}con:     condition number estimate", "d3/dea/group__hecon.html", "d3/dea/group__hecon" ],
    [ "{he,sy}trf:     triangular factor", "d8/d0e/group__hetrf.html", "d8/d0e/group__hetrf" ],
    [ "la{he,sy}f:     step in hetrf", "db/d65/group__lahef.html", "db/d65/group__lahef" ],
    [ "{he,sy}tf2:     triangular factor, level 2", "db/d8d/group__hetf2.html", "db/d8d/group__hetf2" ],
    [ "{he,sy}trs:     triangular solve using factor", "d4/d30/group__hetrs.html", "d4/d30/group__hetrs" ],
    [ "{he,sy}tri:     triangular inverse", "da/dfa/group__hetri.html", "da/dfa/group__hetri" ],
    [ "{he,sy}rfs:     iterative refinement", "da/d50/group__herfs.html", "da/d50/group__herfs" ],
    [ "{he,sy}rfsx:    iterative refinement, expert", "d1/d36/group__herfsx.html", "d1/d36/group__herfsx" ],
    [ "{he,sy}equb:    equilibration, power of 2", "d7/d32/group__heequb.html", "d7/d32/group__heequb" ],
    [ "syconv:         convert to/from L and D from hetrf", "de/df4/group__syconv.html", "de/df4/group__syconv" ],
    [ "{he,sy}con_3:   condition number estimate", "d2/d85/group__hecon__3.html", "d2/d85/group__hecon__3" ],
    [ "{he,sy}tri2:    inverse", "d6/d0a/group__hetri2.html", "d6/d0a/group__hetri2" ],
    [ "{he,sy}tri2x:   inverse", "d9/dee/group__hetri2x.html", "d9/dee/group__hetri2x" ],
    [ "{he,sy}tri_3:   inverse", "d1/d5a/group__hetri__3.html", "d1/d5a/group__hetri__3" ],
    [ "{he,sy}tri_3x:  inverse", "d6/de5/group__hetri__3x.html", "d6/de5/group__hetri__3x" ],
    [ "{he,sy}trs2:    solve using factor", "d2/d85/group__hetrs2.html", "d2/d85/group__hetrs2" ],
    [ "{he,sy}trs_3:   solve using factor", "d2/d94/group__hetrs__3.html", "d2/d94/group__hetrs__3" ],
    [ "{he,sy}swapr:         apply 2-sided permutation", "de/d9e/group__heswapr.html", "de/d9e/group__heswapr" ],
    [ "la_hercond:           Skeel condition number estimate", "df/d8c/group__la__hercond.html", "df/d8c/group__la__hercond" ],
    [ "la_herfsx_extended:   step in herfsx", "d3/df7/group__la__herfsx__extended.html", "d3/df7/group__la__herfsx__extended" ],
    [ "la_herpvgrw:          reciprocal pivot growth", "d5/da6/group__la__herpvgrw.html", "d5/da6/group__la__herpvgrw" ],
    [ "— packed, rook v1 —", "d2/d7a/group__hpsv__comp.html", null ],
    [ "{hp,sp}con:     condition number estimate", "dc/de9/group__hpcon.html", "dc/de9/group__hpcon" ],
    [ "{hp,sp}trf:     triangular factor", "d8/d08/group__hptrf.html", "d8/d08/group__hptrf" ],
    [ "{hp,sp}trs:     triangular solve using factor", "d3/dbd/group__hptrs.html", "d3/dbd/group__hptrs" ],
    [ "{hp,sp}tri:     triangular inverse", "d3/d43/group__hptri.html", "d3/d43/group__hptri" ],
    [ "{hp,sp}rfs:     iterative refinement", "d8/d75/group__hprfs.html", "d8/d75/group__hprfs" ],
    [ "— full, rook v2 —", "d5/d24/group__hesv__comp__v2.html", null ],
    [ "{he,sy}con_rook:  condition number estimate", "dc/d1f/group__hecon__rook.html", "dc/d1f/group__hecon__rook" ],
    [ "{he,sy}trf_rook:  triangular factor", "d0/d4f/group__hetrf__rook.html", "d0/d4f/group__hetrf__rook" ],
    [ "la{he,sy}f_rook:  triangular factor step", "d9/de6/group__lahef__rook.html", "d9/de6/group__lahef__rook" ],
    [ "{he,sy}tf2_rook:  triangular factor, level 2", "d2/d09/group__hetf2__rook.html", "d2/d09/group__hetf2__rook" ],
    [ "{he,sy}trs_rook:  triangular solve using factor", "de/d9a/group__hetrs__rook.html", "de/d9a/group__hetrs__rook" ],
    [ "{he,sy}tri_rook:  triangular inverse", "d5/d87/group__hetri__rook.html", "d5/d87/group__hetri__rook" ],
    [ "— full, rook v3 —", "dd/d9b/group__hesv__comp__v3.html", null ],
    [ "{he,sy}trf_rk:  triangular factor", "d2/d52/group__hetrf__rk.html", "d2/d52/group__hetrf__rk" ],
    [ "la{he,sy}f_rk:  triangular factor step", "d3/dd9/group__lahef__rk.html", "d3/dd9/group__lahef__rk" ],
    [ "{he,sy}tf2_rk:  triangular factor, level 2", "d0/d22/group__hetf2__rk.html", "d0/d22/group__hetf2__rk" ],
    [ "syconvf:        convert to/from hetrf      to hetrf_rk format", "d4/dca/group__syconvf.html", "d4/dca/group__syconvf" ],
    [ "syconvf_rook:   convert to/from hetrf_rook to hetrf_rk format", "d8/d6a/group__syconvf__rook.html", "d8/d6a/group__syconvf__rook" ],
    [ "— full, Aasen —", "d7/df4/group__hesv__comp__aasen.html", null ],
    [ "{he,sy}trf_aa:  triangular factor", "dd/d0f/group__hetrf__aa.html", "dd/d0f/group__hetrf__aa" ],
    [ "la{he,sy}f_aa:  triangular factor partial factor", "d1/ded/group__lahef__aa.html", "d1/ded/group__lahef__aa" ],
    [ "{he,sy}trs_aa:  triangular solve using factor", "d4/dcb/group__hetrs__aa.html", "d4/dcb/group__hetrs__aa" ],
    [ "— full, Aasen, blocked 2-stage —", "d2/d22/group__hesv__comp__aasen2.html", null ],
    [ "{he,sy}trf_aa_2stage:  triangular factor", "d8/d0d/group__hetrf__aa__2stage.html", "d8/d0d/group__hetrf__aa__2stage" ],
    [ "{he,sy}trs_aa_2stage:  triangular solve using factor", "d7/d03/group__hetrs__aa__2stage.html", "d7/d03/group__hetrs__aa__2stage" ]
];
.