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Quick reference

NDIM Problem dimension

IPS Problem type; 0=AE, 1=FP(ODEs), -1=FP(maps), 2=PO, -2=IVP,

4=BVP, 7=BVP with Floquet multipliers, 5=algebraic optimization

problem, 15=optimization of periodic solutions

IRS Start solution label

ILP Fold detection; 1=on, 0=off

NICP Continuation parameters

NTST # mesh intervals

NCOL # collocation points

IAD Mesh adaption every IAD steps; 0=off

ISP Bifurcation detection; 0=off, 1=BP(FP), 3=BP(PO,BVP), 2=all

ISW Branch switching; 1=normal, -1=switch branch (BP, HB, PD),

2=switch to two-parameter continuation (LP, HB, TR)

IPLT Select principal solution measure

NBC # boundary conditions

NINT # integral conditions

NMX Maximum number of steps

RL0, RL1 Parameter interval $RL0 \leq \lambda \leq RL1$

A0, A1 Interval of principal solution measure $A0 \leq \Vert\cdot\Vert \leq A1$

NPR Print and save restart data every NPR steps

MXBF Automatic branch switching for the first MXBF bifurcation

points if IPS=0, 1

IID Control diagnostic output; 1=little, 2=normal, 4=extensive

ITMX Maximum # of iterations for locating special solutions/points

ITNW Maximum # of correction steps

NWTN Corrector uses full newton for NWTN steps

JAC User defines derivatives; 0=no, 1=yes

EPSL Convergence criterion for equation parameters

EPSU Convergence criterion for solution components

EPSS Convergence criterion for special solutions/points

DS Start step size

DSMIN, DSMAX Step size interval $DSMIN \leq h \leq DSMAX$

IADS Step size adaption every IADS steps; 0=off

NTHL, NTHU list of parameter and solution weights

NUZR list of values for user defined output

Next: Notes on Using AUTO. Up: Description of AUTO-Constants. Previous: NUZR Contents

Gabriel Lord 2007-11-19

`NDIM`	Problem dimension
`IPS`	Problem type; 0=AE, 1=FP(ODEs), -1=FP(maps), 2=PO, -2=IVP,
	4=BVP, 7=BVP with Floquet multipliers, 5=algebraic optimization
	problem, 15=optimization of periodic solutions
`IRS`	Start solution label
`ILP`	Fold detection; 1=on, 0=off
`NICP`	Continuation parameters
`NTST`	# mesh intervals
`NCOL`	# collocation points
`IAD`	Mesh adaption every IAD steps; 0=off
`ISP`	Bifurcation detection; 0=off, 1=BP(FP), 3=BP(PO,BVP), 2=all
`ISW`	Branch switching; 1=normal, -1=switch branch (BP, HB, PD),
	2=switch to two-parameter continuation (LP, HB, TR)
`IPLT`	Select principal solution measure
`NBC`	# boundary conditions
`NINT`	# integral conditions
`NMX`	Maximum number of steps
`RL0, RL1`	Parameter interval $RL0 \leq \lambda \leq RL1$
`A0, A1`	Interval of principal solution measure $A0 \leq \Vert\cdot\Vert \leq A1$
`NPR`	Print and save restart data every NPR steps
`MXBF`	Automatic branch switching for the first MXBF bifurcation
	points if IPS=0, 1
`IID`	Control diagnostic output; 1=little, 2=normal, 4=extensive
`ITMX`	Maximum # of iterations for locating special solutions/points
`ITNW`	Maximum # of correction steps
`NWTN`	Corrector uses full newton for NWTN steps
`JAC`	User defines derivatives; 0=no, 1=yes
`EPSL`	Convergence criterion for equation parameters
`EPSU`	Convergence criterion for solution components
`EPSS`	Convergence criterion for special solutions/points
`DS`	Start step size
`DSMIN, DSMAX`	Step size interval $DSMIN \leq h \leq DSMAX$
`IADS`	Step size adaption every IADS steps; 0=off
`NTHL, NTHU`	list of parameter and solution weights
`NUZR`	list of values for user defined output