So we know that given a Riemannian manifold $(M,g)$ we can calculate its Riemannian curvature $R$. This covariant $4$-tensor field then satisfies some important symmetries
\begin{gather*}
R_{ijkl} = - R_{ijlk},\quad R_{ijkl} = R_{jikl},\quad R_{ijkl} = R_{klij}, \\
R_{ijkl} + R_{iklj} + R_{iljk} = 0.
\end{gather*}

The main question of global existence of a metric was already explained by [Robert Bryant](https://mathoverflow.net/questions/202211/equations-satisfied-by-the-riemann-curvature-tensor) (thank you to @Deane Yang for the summary). However, this answer only provides a reasoning as to why such a curvature much exist. Hence, I'd like to know whether there is a concrete example of a curvature that is not generated by a metric.