DYNAMITE (DYNAmical Multi-planet Injection TEster) predicts the presence of unseen planets in multi-planet systems via population statistics. The code uses the specific (yet often incomplete) data on the orbital and physical parameters for the planets in any given system's architecture and combines it with detailed statistical population models and a dynamical stability criterion to predict the likelihood for the parameters of one additional planet in the system. DYNAMITE's predictions are given in the form of observable values (transit depth measurements, RV semi-amplitudes, or direct imaging separation and contrast), which can be tested by follow-up observations.

GPS (Genesis Population Synthesis) develops population synthesis models. The code suite uses the Genesis database of planet formation models for small exoplanets (super-Earths and Mini-Neptunes). Although the codebase focuses on the Genesis models, aother models can easily be integrated with GPS. It computes the bulk compositions of the planets and simulates atmospheric loss and evolution to find the final states of the planets that can be observationally verified. GPS also offers tools to process and analyze the data from recent observations of small exoplanets in order to compare them with the models.

Bioverse assesses the diagnostic power of a statistical exoplanet survey of the properties of nearby terrestrial exoplanets via direct imaging or transit spectroscopy. It combines Gaia-based stellar samples with Kepler-derived exoplanet demographics and a mission simulator that enables exploration of a variety of observing, follow-up, and characterization strategies. The code contains a versatile module for population-level hypothesis testing supporting trade studies and survey optimization. Bioverse supports direct imaging or transit missions, and its modularity makes it adaptable to any mission concept that makes measurements on a sample of exoplanets.