Advances in Unconventional Computing

<p>Nonuniversality in Computation: Fifteen Misconceptions Rectified.-&nbsp;What Is Computable? What Is Feasibly Computable? A Physicist’s Viewpoint.-&nbsp;The Ideal Energy of Classical Lattice Dynamics.-&nbsp;An Analogue-digital Model of Computation: Turing Machines with Physical&nbsp;Oracles.-&nbsp;Physical and Formal Aspects of Computation: Exploiting Physics for&nbsp;Computation and Exploiting Computation for Physical Purposes.-&nbsp;Computing in Perfect Euclidean Framework.-Unconventional Computers and Unconventional Complexity Measures.-&nbsp;Decreasing Complexity in Inductive Computations.-Asymptotic Intrinsic Universality and Natural Reprogrammability by Behavioural Emulation.-&nbsp;Two Small Universal Reversible Turing Machines.-&nbsp;Percolation Transition and Related Phenomena in Terms of Grossone Infinity Computations.-&nbsp;Spacetime Computing: Towards Algorithmic Causal Sets with Special-Relativistic&nbsp;Properties.-&nbsp;Interaction-based Programming in MGS.-&nbsp;Cellular&nbsp;Automata in Hyperbolic Spaces.-&nbsp;A Computation in a Cellular Automaton Collider Rule 110.-&nbsp;Quantum Queries Associated with Equi-Partitioning of States and Multipartite Relational Encoding Across Space-Time.-&nbsp;Solving the Broadcast Time Problem Using a D-Wave Quantum Computer.- The Group Zoo of Classical Reversible Computing and Quantum Computing.-&nbsp;Fault Models in Reversible and Quantum Circuits.-&nbsp;A Class of Non-optimum-time 3n-Step FSSP Algorithms.-&nbsp;Universality of Asynchronous Circuits Composed of Locally Reversible Elements.-&nbsp;Reservoir Computing as a Model for&nbsp;In-Materio&nbsp;Computing.-&nbsp;On Reservoir Computing: from Mathematical Foundations to Unconventional&nbsp;Applications.-&nbsp;Computational Properties of Cell Regulatory Pathways through Petri Nets.-&nbsp;Kernel P Systems and Stochastic P Systems for Modelling and Formal&nbsp;Verification of Genetic Logic Gates.-&nbsp;On Improving the Expressive Power of Chemical Computation.-&nbsp;Conventional and Unconventional Approaches to Swarm&nbsp;Logic.-&nbsp;On the Inverse Pattern Recognition Problem in the Context of the Time-Series Data Processing withMemristor Networks.-&nbsp;Self-Awareness in Digital Systems: Augmenting Self-Modification with&nbsp;Introspection to Create Adaptive, Responsive Circuitry.-&nbsp;Looking for Computers in the Biological Cell. After Twenty Years.-&nbsp;Unconventional Computing: A Brief Subjective History.</p><p></p><p></p><p></p><p></p>