Evolution-in-Materio is a computational paradigm in which an algorithm reconfigures a material’s properties to achieve a specific computational function. This paper addresses the question of how successful and well performing Evolution-in-Materio processors can be designed through the selection of nanomaterials and an evolutionary algorithm for a target application. A physical model of a nanomaterial network is developed which allows for both randomness, and the possibility of Ohmic and non- Ohmic conduction, that are characteristic of such materials. These differing networks are then exploited by differential evolution, which optimises several configuration parameters (e.g., configuration voltages, weights, etc.), to solve differen...
This paper presents results of computations based on threshold logic performed by a thin solid film,...
Evolution-in-Materio in the context of unconventional computing is the practice of using artificial ...
We describe several techniques for using bulk matter for special purpose computation. In each case i...
Recently published experimental work on evolution-in-materio applied to nanoscale materials shows pr...
Natural evolution has been manipulating the properties of proteins for billions of years. This ‘desi...
The potential of Evolution in Materio (EiM) for machine learning problems is explored here. This tec...
Evolution-in-Materio uses evolutionary algorithms (EA) to exploit the physical properties of unconfi...
The potential of Evolution in Materio (EiM) for machine learning problems is explored here. This tec...
Evolution In Materio (EIM) is concerned with solving computational problems by exploiting the physic...
Natural computers exploit the emergent properties and massive parallelism of interconnected networks...
Evolution-in-Materio uses evolutionary algorithms (EA) to exploit the physical properties of unconfi...
This thesis illustrates the use of Single Walled Carbon Nanotube based materials for the solution of...
Recent work has shown that computational substrates made from carbon nanotube/polymer mixtures can f...
Recently published experimental work on evolution-in-materio applied to nanoscale materials shows pr...
Evolution-in-materio concerns the computer controlled manipulation of material systems using externa...
This paper presents results of computations based on threshold logic performed by a thin solid film,...
Evolution-in-Materio in the context of unconventional computing is the practice of using artificial ...
We describe several techniques for using bulk matter for special purpose computation. In each case i...
Recently published experimental work on evolution-in-materio applied to nanoscale materials shows pr...
Natural evolution has been manipulating the properties of proteins for billions of years. This ‘desi...
The potential of Evolution in Materio (EiM) for machine learning problems is explored here. This tec...
Evolution-in-Materio uses evolutionary algorithms (EA) to exploit the physical properties of unconfi...
The potential of Evolution in Materio (EiM) for machine learning problems is explored here. This tec...
Evolution In Materio (EIM) is concerned with solving computational problems by exploiting the physic...
Natural computers exploit the emergent properties and massive parallelism of interconnected networks...
Evolution-in-Materio uses evolutionary algorithms (EA) to exploit the physical properties of unconfi...
This thesis illustrates the use of Single Walled Carbon Nanotube based materials for the solution of...
Recent work has shown that computational substrates made from carbon nanotube/polymer mixtures can f...
Recently published experimental work on evolution-in-materio applied to nanoscale materials shows pr...
Evolution-in-materio concerns the computer controlled manipulation of material systems using externa...
This paper presents results of computations based on threshold logic performed by a thin solid film,...
Evolution-in-Materio in the context of unconventional computing is the practice of using artificial ...
We describe several techniques for using bulk matter for special purpose computation. In each case i...