The LINEARTRANSIT runtype has to be specified. Additional specifications are optional.
GEOMETRY
Branch Old
LinearTransit {NPoints}
end
NPoints
The number of LT
points for which an optimization will be carried out
If no value is supplied the default takes effect: 5.
There are a few obvious differences between a single optimization and a LT run. Most important is that the coordinate(s) that describe the LT path, the LT parameters, cannot be optimized: at each of the LT points they are frozen. This implies that technically speaking at each LT point a constrained optimization is carried out. One of the consequences is that the atoms coordinate type - Cartesian or Z-matrix - must also be the optimization coordinate type. The LT parameters themselves must be defined with the key GEOVAR, see below.
It is possible to freeze all coordinates so that the LT run is similar to a sequence of Single Point runs. However, energy gradients will be computed at each step, so that more CPU time is spent at each LT point than for just a Single Point calculation.
The number of LT points by which the path is traced is defined by the npoints argument to the subkey LinearTransit. It is possible to execute only a subset of these points, usually with the purpose to complete the calculation by using the restart facility of ADF. In this way you can break down a very large calculation into several smaller ones, or have the opportunity to check how things have been going for the first few LT points before deciding whether a continuation is useful. This may be achieved of course by simply defining different start- and end-values for the LT parameters in a related series of calculations, but it is more comfortable to specify the complete path once and just execute parts of it at a time. This is accomplished by giving a second value to the iterations subkey in the geometry block.
...
iterations Niter Niter2
...
Niter
The first argument of the subkey iterations in the GEOMETRY block, controlling the maximum number of iterations allowed to reach convergence, applies now for each LT point separately.
Niter2
The second argument specifies the maximum number of LT points to calculate in this run.
If omitted (default) the whole LT scan is completed. Doing only part of
the scan may be combined with the restart feature, so that the remainder can be
done in a continuation run. See the restart key.
A too large value of LT points is
automatically adjusted: no more LT
points are computed than required to complete the LT path as defined by the lineartransit subkey.
A negative or zero value is not accepted and internally reset to one (1).
WARNING: if you use the QMMM functionality in combination with a Linear Transit, then only the coordinates of the true QM atoms can be used as LT parameters, no MM atoms must be involved in the LT parameter set.
