Abstract. Over the last century, linear algebra theory and matrix computations became irreplaceable, not only for high-tech industries, but also in every corner of our computerised society. Most of the time, any given problem (linear or not) is reduced to finding the solution of a linear system. Thus, the possibility of solving large linear systems in a reasonable amount of time using parallel algorithms has cast a shadow on any other kind of computing approach. However, physical problems are not linear in general: they often represent strongly coupled phenomena which inherently resist software parallelisation. Devising ways to overcome or circumvent computational difficulties has been the research core of the Qualitative Computing (QC) gro...