Ada is the first large-scale neuromorphic system of its kind. Many of the technologies employed have never been integrated in a common system. The software on which Ada is based not only simplifies the developing of neural networks, but also the integration of external devices, like cameras, loudspeakers, microphones etc. In addition, it is possible to study the neural networks in real time, that is, being able to simultaneously record and evaluate data and display the results with no time lag.

Neural networks are information processing systems that are able to learn. Based on preceding examples, they can learn to choose the best possible solution for a particular situation and continue to refine it accordingly. Like a brain, a technical neural network is a complex system of autonomous parts, so-called neurons or units, whose local interactions yield global patterns of activity («answers»). The dynamics of the brain is not centrally directed by programs as with computers, but is capable of organising itself. Like brains, technical neural networks are flexible and able to learn, tolerating deviations from the norm and making use of parallel signal processing.

The neural networks developed for Ada are based on models that reflect the way real brains function. There are countless models explaining how the nerve cells in specific regions of the brain communicate with one another. All such models make assumptions as to how a specific brain region exchanges information with other regions of the brain. Yet today we are still far from fully understanding how the various regions of the brain all work together. Even less is known about how to link together the various available models so the whole can function as a unit. Ada represents a first step in this direction.