Given $G:\{0,1\}^s \rightarrow \{0, 1\}^n$ a secure PRG, how can one prove that $G'(k_1, k_2) = G(k_1) \cdot G(k_2)$ is secure ($\cdot$ means concatenation).

So if it's true we can show that if there is a distinguisher for $G'$ then this implies that there exists a distinguisher for $G$. So could this distinguisher be:

$A(x) = round(\sum_{y \in \{0^n,\dots,1^n\}} A(y \cdot x) / n)$

??