In a  natural way, every Lie group  $G$ is contained  in its  holomorph Hol($G$) = $G \rtimes $ Aut($G$)

>Is Hol$(G)$ always a Lie group?

If the answer is yes our main questions:

>1.For a left invariant metric $g$ of Hol($G$), are there always two left invariant metrics $g_{1}$ and $g_{2}$ of $G$ and Aut($G$), respectively such that $g$ is conformal to the product of $g_{1}$ and $g_{2}$? (motivated by $G=\mathbb{R}$, as an example of this situation)

>2. For what type of  Lie  groups, $G$ is  a totally geodesic submanifold of its  holomorph? As we see,  $G=\mathbb{R}$ does not satisfies this property, but to what extent those Lie groups with this propery are studied?

And finally: can one write the lie  algebra of Hol($G$) in term of Lie algebras of $G$ and $Aut(G)$ and also the natural action of $Aut(G)$ on the Lie algebra of $G$?