Macy J. Huston, Alison L. Crisp, Marz Newman, Riley Patlak, Matthew T. Penny, Jonas Kluter, Peter McGill, Leigh C. Smith, Victor Karkour, Natasha S. Abrams, B. Scott Gaudi, Casey Y. Lam, Jessica R. Lu, Sebastiano Calchi Novati, Keivan G. Stassun, Sean K. Terry, Farzaneh Zohrabi

The optimization and interpretation of microlensing surveys depends on having an accurate model of the Milky Way. However, existing Galactic modeling tools often perform poorly in replicating the stellar contents of the inner Galactic bulge region and reproducing microlensing survey results. We present an updated Galactic model implementation within the \synthpop framework that has been tuned for simulating the upcoming Nancy Grace Roman Space Telescope's Galactic Bulge Time Domain Survey (RGBTDS). We evaluate the model against stellar catalogs and kinematics from optical and infrared surveys toward the Galactic bulge, finding good agreement in much of the bulge, including the RGBTDS' contiguous lower bulge fields. However, within Galactic latitudes of $b\lesssim0.5^\circ$ of the Galactic plane, some inconsistencies arise which may impact projections for the RGBTDS' Galactic center field. In a following paper, we will examine RGBTDS simulations with this updated model in detail. Roman's GBTDS and Galactic Plane Survey will be instrumental in resolving the remaining model inconsistencies and improving our understanding of the structure of the central few degrees of our Galaxy.