# General Solver for Ordinary Differential Equations and compiled functions to be used in NLME, this version just use default function. The future version will provide buildin methods such as "lsoda", "lsode", "lsodes", "lsodar", "vode", "daspk", "euler", "rk4", "ode23", "ode45", "radau", "bdf", "bdf_d", "adams", "impAdams", "impAdams_d".

### Description

Generate functions for NLME Solves using a system of ordinary differential equations; a wrapper around the implemented ODE solvers

### Usage

1 |

### Arguments

`model ` |
either an |

`data ` |
nlme GroupedData format. |

`LogParms ` |
transform parameters into log scale |

`JAC ` |
A JAC set FALSE. This time we can implement this parts. |

`SEQ ` |
A SEQ set FALSE. |

`rtol ` |
relative error tolerance, either a scalar or an array as
long as |

`atol ` |
absolute error tolerance, either a scalar or an array as
long as |

`tcrit ` |
if not |

`dllname ` |
a string giving the name of the shared library
(without extension) that contains all the compiled function or
subroutine definitions refered to in |

`hmin ` |
an optional minimum value of the integration stepsize. In
special situations this parameter may speed up computations with the
cost of precision. Don't use |

`hmax ` |
an optional maximum value of the integration stepsize. If
not specified, |

### Examples

1 2 3 4 | ```
#######################################################
#use c code
#see example cfLSODA
#######################################################
``` |