The two sets are essentially the same: the map that sends every $f\in I^{\beta X}$ to its restriction is a bijection; the two topologies are, in general, not the same. The compact-open topology on $I^{\mathbb{N}}$ is the product topology, whereas the compact-open topology on $I^{\beta\mathbb{N}}$ is the topology induced by the uniform metric.
In fact: on $I^{\beta X}$ the compact-open topology is the uniform topology (this only needs compactness of the domain space. On the other hand, the compact-open topology on $I^X$ is strictly weaker that the uniform topology (if $X$ is not compact): the set $U=\lbrace f:\sup_x|f(x)|<\frac12\rbrace$ is open in the uniform topology but not in the compact-open topology: if $O$ is a basic open set determined by compact sets $K_1,\ldots,K_n$ and open sets $U_1,\ldots,U_n$ then one can take a point $x$ outside $\bigcup_{i=1}^nK_i$ and construct an $f$ in $O$ that satisfies $f(x)=1$.