Equivariant $H\underline{\mathbb{F}}_p$-modules are wild

Abstract: Let $k$ be an arbitrary field of characteristic $p$ and let $G$ be a finite group. We investigate the representation type, derived representation type, and singularity category of the $k$-linear (cohomological) Mackey algebra. We classify when the cohomological Mackey algebra is wild for $G$ a cyclic $p$-group. Furthermore, we show the cohomological Mackey algebra is derived wild whenever $G$ surjects onto a $p$-group of order more than two, and the Mackey algebra is derived wild whenever $G$ is a nontrivial $p$-group. Derived wildness has some immediate consequences in equivariant homotopy theory. In particular, for the constant Mackey functor $\underline{k}$, the classification of compact modules over the $G$-equivariant Eilenberg--MacLane spectrum $H\underline{k}$ is also wild whenever $G$ surjects onto a $p$-group of order more than two. Thus, in contrast to recent work at the prime $2$ by Dugger, Hazel, and the second author, no meaningful classification of compact $C_p$-equivariant $H\underline{\mathbb{F}}_p$-modules exists at odd primes. For the Burnside Mackey functor $\underline{A}_k$, there is no classification of compact $G$-equivariant $H\underline{A}_k$-modules whenever $G$ is a nontrivial $p$-group.