Designing reconfigurable systems that beneficially exploit the spatial and temporal domain is a cumbersome task hardly supported by current design methods. In particular, if we aim to bridge the gap between application and reconfigurable substrate, we require concrete concepts that allow for utilizing the inherent parallelism and adaptiveness of re- configurable devices. We propose algorithmic skeletons as sophisticated technique therefore. Algorithmic skeletons are programming templates for the parallel computing domain and therefore separate the structure of a computation from the computation itself. Hence, they offer a seminal means to extract temporal and spatial characteristics of an application, which can be used to make reconfigurability explicit. In this work, we show the conceptual background as well as a concrete implementation means of the method.