The Large Hadron Collider is providing our first clear view
of the Terascale and is confronting our most cherished theories with data, in
particular Supersymmetry. Supersymmetry is a symmetry allowed by nature that
extends the Poincare group and offers attractive solutions to many outstanding
questions - if it exists at the Terascale - such as the dark matter puzzle, the
weak hierarchy problem, and grand unification of the forces. Most importantly,
Terascale Supersymmetry yields testable predictions. So far, LHC searches for Supersymmetry have
come up short, and the newly discovered Higgs boson is surprisingly difficult
to accommodate within the simplest Supersymmetry models. I will review the
implications of the data for Supersymmetric models and offer a view towards
their potential discovery at the forthcoming LHC run at design energy beginning
in Spring 2015. In particular, I will show that a region of parameter space
within the phenomenological Minimal Supersymmetric Standard Model easily accommodates
current data and has a promising discovery opportunity in the upcoming run, providing
Nature has chosen this route.