noe {} end :== analysis=current|taverage|raverage --{Define which distances are used for analysis with the print statement.} assign --{1st-set 2nd-set distance dminus dplus.} asymptote --{Slope of asymptote.} averaging --{Method of distance averaging. Default=r-6} bhig --{Height of barrier for high-dimension.} ceiling= --{Ceiling value for energy constants.} class= --{Partition noe table, applies to all following assignment entries until another class entry is issued.} countviol --{Count violations and store smallest.} cv= --{Select partition number for cross-validation.} distribute --{Distribute between two classes: class-1 < r < class-2.} ensemble end --{} monomers --{Number of monomers for average=sum.} ncount --{Number of assignment statements for high-dimension.} nrestraints= --{Required parameter that specifies the maximum expected number of noe-restraints. This has to be greater than or equal to the actual number of restraints.} partition= --{Number of partitions for complete cross-validation.} potential biharmonic|square|softsquare|symmetry|high|3dpo --{Form of restraint potential.} predict end --{} print threshold= --{Print noe violations greater than specified value.} raverage end --{} reset --{Delete all previous noe restraints.} rswitch --{Rswitch between square and asymptote.} scale --{s scales restraints class.} soexponent --{Exponent value for softsquare potential.} sqconstant --{Force constant for square well potential.} sqexponent --{Exponent for square well potential.} sqoffset --{Offset for square well potential.} taverage end --{} temperature= --{for biharmonic potential.} --{Wildcards are allowed in the specification of classes. If no class statement is issued the class defaults to nil.}