High Energy Physics (HEP) needs a huge amount of computing resources. In
addition data acquisition, transfer, and analysis require a well developed
infrastructure too. In order to prove new physics disciplines it is required to
higher the luminosity of the accelerator facilities, which produce
more-and-more data in the experimental detectors. Both testing new theories and
detector R&D are based on complex simulations. Today have already reach that
level, the Monte Carlo detector simulation takes much more time than real data
collection. This is why speed up of the calculations and simulations became
important in the HEP community. The Geant Vector Prototype (GeantV) project
aims to optimize the most-used particle transport code applying parallel
computing and to exploit the capabilities of the modern CPU and GPU
architectures as well. With the maximized concurrency at multiple levels the
GeantV is intended to be the successor of the Geant4 particle transport code
that has been used since two decades successfully. Here we present our latest
result on the GeantV tests performances, comparing CPU/GPU based vectorized
GeantV geometrical code to the Geant4 version