What is the automorphism group of direct sum of dihedral group of order $8$, $D_4$?
For example, $\mathrm{Aut}(D_4)$ is isomorphic to $D_4$. How about $\mathrm{Aut}(D_4\times D_4)$, $\mathrm{Aut}(D_4\times D_4\times D_4)$, and $\mathrm{Aut}(D_4\times D_4 \times D_4 \times D_4)$?
The following papers are relevant:
[1] J. N. S. Bidwell, M. J. Curran, and D. J. McCaughan, Automorphisms of direct products of finite groups, Arch. Math. 86, 481 – 489 (2006).
[2] J. N. S. Bidwell, Automorphisms of direct products of finite groups II, Arch. Math. 91, 111–121 (2008).
For your question you want to look at [2]. This paper describes the automorphism group of $G = H^n = H \times \cdots \times H$ where $H$ is an indecomposable non-abelian group. In this case $\operatorname{Aut}(G)$ has a normal subgroup $\mathscr{A}$ isomorphic to the group formed by the matrices $$\left\{ \begin{pmatrix} \alpha_{11} & \cdots & \alpha_{1n} \\ \vdots & \ddots & \vdots \\ \alpha_{n1} & \cdots & \alpha_{nn}\end{pmatrix} : \begin{align}\alpha_{ii} &\in \operatorname{Aut}(H) \text{ for all } 1 \leq i \leq n \\ \alpha_{ij} &\in \operatorname{Hom}(H, Z(H)) \text{ for all i $\neq$ j} \end{align}\right\}.$$
(The group operation is matrix multiplication, with multiplication defined by composition and addition defined by $(\alpha+\beta)(x) = \alpha(x)\beta(x)$.)
Theorem 3.1 of [2] states that $\operatorname{Aut}(G) = \mathscr{A} \rtimes S_n$, where $S_n$ is the symmetric group acting on $G$ by permuting the direct factors. Thus $|\operatorname{Aut}(G)| = |\operatorname{Aut}(H)|^n |\operatorname{Hom}(H, Z(H))|^{n^2-n} n!$
In your case $\operatorname{Aut}(H) \cong D_4$ and $\operatorname{Hom}(H, Z(H)) \cong C_2 \times C_2$, so $|\operatorname{Aut}(G)| = 2^{2n^2+n} n!$.
Mikko Korhonen has already given a good answer. -- But as you asked for explicit generators for the automorphism groups -- you can obtain such by GAP as follows (you see that 4 generators suffice):
gap> D4 := Group((1,2,3,4),(1,3));
Group([ (1,2,3,4), (1,3) ])
gap> A1 := AutomorphismGroup(D4);
<group of size 8 with 3 generators>
gap> SmallGeneratingSet(A1);
[ [ (2,4), (1,4)(2,3) ] -> [ (1,2)(3,4), (2,4) ],
[ (2,4), (1,4)(2,3) ] -> [ (2,4), (1,2)(3,4) ] ]
gap> A2 := AutomorphismGroup(DirectProduct(D4,D4));
<group of size 2048 with 11 generators>
gap> SmallGeneratingSet(A2);
[ [ (1,3)(2,4)(6,8), (2,4)(5,7)(6,8), (1,2)(3,4), (1,4)(2,3)(5,7)(6,8),
(1,3)(2,4)(5,8)(6,7) ] -> [ (1,3)(2,4)(6,8), (2,4)(5,7)(6,8),
(1,2)(3,4)(5,7)(6,8), (1,4)(2,3), (1,3)(2,4)(5,8)(6,7) ],
[ (1,3)(2,4)(6,8), (2,4)(5,7)(6,8), (1,2)(3,4), (1,4)(2,3)(5,7)(6,8),
(1,3)(2,4)(5,8)(6,7) ] -> [ (1,3)(2,4)(6,8), (2,4)(5,7)(6,8),
(1,4)(2,3), (1,2)(3,4)(5,7)(6,8), (1,3)(2,4)(5,8)(6,7) ],
[ (1,3)(2,4)(6,8), (2,4)(5,7)(6,8), (1,2)(3,4), (1,4)(2,3)(5,7)(6,8),
(1,3)(2,4)(5,8)(6,7) ] -> [ (1,2)(3,4)(5,7)(6,8), (1,3)(2,4)(6,8),
(5,6)(7,8), (1,3)(2,4)(5,8)(6,7), (2,4)(5,7)(6,8) ],
[ (1,3)(2,4)(6,8), (2,4)(5,7)(6,8), (1,2)(3,4), (1,4)(2,3)(5,7)(6,8),
(1,3)(2,4)(5,8)(6,7) ] -> [ (1,3)(2,4)(5,6)(7,8), (2,4)(5,7)(6,8),
(1,2)(3,4), (1,4)(2,3)(5,7)(6,8), (1,3)(2,4)(6,8) ] ]
gap> A3 := AutomorphismGroup(DirectProduct(D4,D4,D4));
<group of size 12582912 with 23 generators>
gap> SmallGeneratingSet(A3);
[ [ (1,2)(3,4)(6,8)(9,11), (1,2,3,4)(5,6)(7,8)(9,10)(11,12),
(1,2)(3,4)(5,6)(7,8)(10,12), (1,3)(5,6)(7,8)(9,10)(11,12),
(1,4)(2,3)(6,8)(9,12)(10,11), (1,2)(3,4)(5,8)(6,7)(9,10,11,12) ] ->
[ (2,4)(5,6)(7,8)(10,12), (1,4)(2,3)(5,6,7,8)(9,10)(11,12),
(1,2)(3,4)(5,6)(7,8)(10,12), (1,4)(2,3)(6,8)(9,12)(10,11),
(1,3)(5,6)(7,8)(9,10)(11,12), (1,4)(2,3)(5,6)(7,8)(9,12,11,10) ],
[ (1,2)(3,4)(6,8)(9,11), (1,2,3,4)(5,6)(7,8)(9,10)(11,12),
(1,2)(3,4)(5,6)(7,8)(10,12), (1,3)(5,6)(7,8)(9,10)(11,12),
(1,4)(2,3)(6,8)(9,12)(10,11), (1,2)(3,4)(5,8)(6,7)(9,10,11,12) ] ->
[ (1,3)(5,8)(6,7)(9,10)(11,12), (1,2,3,4)(6,8)(9,11),
(2,4)(6,8)(9,10)(11,12), (1,2)(3,4)(5,7)(10,12), (2,4)(5,8)(6,7)(9,11),
(2,4)(5,7)(9,10,11,12) ],
[ (1,2)(3,4)(6,8)(9,11), (1,2,3,4)(5,6)(7,8)(9,10)(11,12),
(1,2)(3,4)(5,6)(7,8)(10,12), (1,3)(5,6)(7,8)(9,10)(11,12),
(1,4)(2,3)(6,8)(9,12)(10,11), (1,2)(3,4)(5,8)(6,7)(9,10,11,12) ] ->
[ (2,4)(5,8)(6,7)(9,11), (1,4)(2,3)(5,6,7,8)(9,10)(11,12),
(2,4)(5,8)(6,7)(9,10)(11,12), (1,4)(2,3)(6,8)(9,10)(11,12),
(1,2)(3,4)(5,8)(6,7)(10,12), (1,2,3,4)(5,6)(7,8)(9,12)(10,11) ],
[ (1,2)(3,4)(6,8)(9,11), (1,2,3,4)(5,6)(7,8)(9,10)(11,12),
(1,2)(3,4)(5,6)(7,8)(10,12), (1,3)(5,6)(7,8)(9,10)(11,12),
(1,4)(2,3)(6,8)(9,12)(10,11), (1,2)(3,4)(5,8)(6,7)(9,10,11,12) ] ->
[ (1,3)(5,7)(9,10)(11,12), (1,4,3,2)(5,8)(6,7)(10,12),
(1,3)(5,6)(7,8)(9,10)(11,12), (1,2)(3,4)(5,6)(7,8)(9,11),
(1,3)(5,7)(9,11), (1,3)(5,6)(7,8)(9,12,11,10) ] ]
gap> A4 := AutomorphismGroup(DirectProduct(D4,D4,D4,D4));
<group of size 1649267441664 with 40 generators>
gap> SmallGeneratingSet(A4);
[ [ (2,4)(5,6)(7,8)(9,11)(10,12)(13,16)(14,15),
(5,6)(7,8)(9,11)(13,16)(14,15), (1,2)(3,4)(6,8)(9,10)(11,12)(13,15)(14,
16), (1,3)(5,8)(6,7)(9,11)(10,12)(13,15), (2,4)(6,8)(10,12),
(1,3)(2,4)(5,6)(7,8)(9,12)(10,11)(14,16), (2,4)(5,8)(6,7)(9,10)(11,12),
(1,3)(5,7)(6,8)(10,12)(13,14)(15,16) ] ->
[ (2,4)(5,6)(7,8)(9,12)(10,11)(13,15)(14,16),
(5,6)(7,8)(9,12)(10,11)(13,15), (1,2)(3,4)(6,8)(9,11)(10,12)(13,14)(15,
16), (1,3)(5,8)(6,7)(9,11)(13,15)(14,16), (2,4)(6,8)(14,16),
(1,3)(2,4)(5,6)(7,8)(10,12)(13,16)(14,15),
(2,4)(5,8)(6,7)(13,14)(15,16), (1,3)(5,7)(6,8)(9,10)(11,12)(14,16) ],
[ (2,4)(5,6)(7,8)(9,11)(10,12)(13,16)(14,15),
(5,6)(7,8)(9,11)(13,16)(14,15), (1,2)(3,4)(6,8)(9,10)(11,12)(13,15)(14,
16), (1,3)(5,8)(6,7)(9,11)(10,12)(13,15), (2,4)(6,8)(10,12),
(1,3)(2,4)(5,6)(7,8)(9,12)(10,11)(14,16), (2,4)(5,8)(6,7)(9,10)(11,12),
(1,3)(5,7)(6,8)(10,12)(13,14)(15,16) ] ->
[ (1,3)(5,7)(6,8)(9,10)(11,12)(13,14)(15,16), (1,3)(5,7)(9,10)(11,12),
(1,3)(2,4)(5,6)(7,8)(10,12)(14,16),
(1,2)(3,4)(5,7)(6,8)(9,12)(10,11)(13,16)(14,15),
(6,8)(10,12)(13,14)(15,16), (1,4)(2,3)(5,8)(6,7)(9,10)(11,12)(13,15)(14,
16), (5,6)(7,8)(9,12)(10,11)(13,14)(15,16),
(2,4)(6,8)(9,11)(10,12)(13,16)(14,15) ],
[ (2,4)(5,6)(7,8)(9,11)(10,12)(13,16)(14,15),
(5,6)(7,8)(9,11)(13,16)(14,15), (1,2)(3,4)(6,8)(9,10)(11,12)(13,15)(14,
16), (1,3)(5,8)(6,7)(9,11)(10,12)(13,15), (2,4)(6,8)(10,12),
(1,3)(2,4)(5,6)(7,8)(9,12)(10,11)(14,16), (2,4)(5,8)(6,7)(9,10)(11,12),
(1,3)(5,7)(6,8)(10,12)(13,14)(15,16) ] ->
[ (1,4)(2,3)(5,6)(7,8)(9,11)(10,12)(13,14)(15,16),
(5,6)(7,8)(9,11)(13,14)(15,16), (2,4)(6,8)(9,10)(11,12)(13,15)(14,16),
(1,2)(3,4)(5,8)(6,7)(9,11)(10,12)(14,16), (1,4)(2,3)(6,8)(10,12),
(1,3)(2,4)(5,6)(7,8)(9,12)(10,11)(13,15),
(1,4)(2,3)(5,8)(6,7)(9,10)(11,12),
(1,2)(3,4)(5,7)(6,8)(10,12)(13,16)(14,15) ],
[ (2,4)(5,6)(7,8)(9,11)(10,12)(13,16)(14,15),
(5,6)(7,8)(9,11)(13,16)(14,15), (1,2)(3,4)(6,8)(9,10)(11,12)(13,15)(14,
16), (1,3)(5,8)(6,7)(9,11)(10,12)(13,15), (2,4)(6,8)(10,12),
(1,3)(2,4)(5,6)(7,8)(9,12)(10,11)(14,16), (2,4)(5,8)(6,7)(9,10)(11,12),
(1,3)(5,7)(6,8)(10,12)(13,14)(15,16) ] ->
[ (1,3)(2,4)(5,6)(7,8)(9,12)(10,11)(13,14)(15,16),
(1,2)(3,4)(5,8)(6,7)(9,10)(11,12), (1,3)(5,7)(9,11)(10,12)(14,16),
(1,3)(2,4)(5,8)(6,7)(9,11)(13,16)(14,15),
(1,2)(3,4)(5,7)(9,11)(10,12)(13,16)(14,15),
(1,3)(5,6)(7,8)(10,12)(13,15)(14,16), (2,4)(5,8)(6,7)(13,14)(15,16),
(1,4)(2,3)(9,12)(10,11)(13,16)(14,15) ] ]
