Julian F. Miller scite author profile

The reservoir computing (RC) framework states that any nonlinear, input-driven dynamical system (the reservoir ) exhibiting properties such as a fading memory and input separability can be trained to perform computational tasks. This broad inclusion of systems has led to many new physical substrates for RC. Properties essential for reservoirs to compute are tuned through reconfiguration of the substrate, such as change in virtual topology or physical morphology. As a result, each substrate possesses a unique ‘quality’—obtained through reconfiguration—to realize different reservoirs for different tasks. Here we describe an experimental framework to characterize the quality of potentially any substrate for RC. Our framework reveals that a definition of quality is not only useful to compare substrates, but can help map the non-trivial relationship between properties and task performance. In the wider context, the framework offers a greater understanding as to what makes a dynamical system compute, helping improve the design of future substrates for RC.

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The Advantages of Landscape Neutrality in Digital Circuit Evolution

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2000

111

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A new crossover technique for Cartesian genetic programming

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Towards the automatic design of more efficient digital circuits

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Julian F. Miller

Evolution in materio: looking beyond the silicon box

A substrate-independent framework to characterize reservoir computers

The Advantages of Landscape Neutrality in Digital Circuit Evolution

A new crossover technique for Cartesian genetic programming

Towards the automatic design of more efficient digital circuits

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