Asteroid Discovery Analysis and Mapping (ADAM)
Developed by B612 Foundation's Asteroid Institute, ADAM brings open-source algorithms and scalable compute together to discover, map, and analyze asteroids at planetary scale. Use the console and APIs to run high-fidelity computations on demand, share results, and reproduce analyses.

Trajectory Optimizer
Spacecraft transfer trajectories
Interactive porkchop plots and Lambert solutions for mission planning.
Earth to Mars
Classic interplanetary mission with 9.22 km²/s² optimal C3
Earth to Jupiter
Complex outer planet mission with 91.56 km²/s² optimal C3
Earth to 2024 YR4
Asteroid rendezvous mission with 73.61 km²/s² optimal C3
Bennu to Ryugu
Asteroid-to-asteroid transfer mission between two NEAs
Ceres to Pallas
Main belt asteroid transfer between two large bodies

Precovery Service
Historical observation recovery
Search historical telescope data for previously unidentified observations of known objects.
2016 SA2
Near-Earth Asteroid - 6 historical observation matches across multiple surveys
1I/'Oumuamua
Interstellar Object - 3 historical matches for the first known interstellar visitor
2024 YR4
Recent Discovery - 35 precovery observations found across ATLAS survey data
2018 RB2
Risk List Asteroid - 9 historical matches demonstrating high-speed sky motion recovery
C/2014 UN271
Comet Bernardinelli-Bernstein - 1,085 historical matches revealing extensive observational history

Impact Probability
Earth impact risk analysis
Monte Carlo simulations and virtual impactor analysis for potentially hazardous asteroids.
Ready to Run Your Own Analysis?
These demos show the power of ADAM's computational services using real results. Create an account to submit your own jobs with custom parameters and access the full platform.