Add to ORKGIn this article we present the outline of a novel pro-cessor architecture aimed to the design of systems that more closely resemble, within the limitations imposed by the capabilities of conventional silicon, the general modus operandi of multi-cellular organisms. 1
Abstract. The space of bio-inspired hardware can be partitioned along three axes: phylogeny, ontogen...
Abstract. It is clear to all, after a moments thought, that nature has much we might be inspired by ...
In this article, we present the BioWall, a giant reconfigurable computing tissue developed to implem...
The structure and operation of multi-cellular organisms relies, among other things, on the specializ...
Abstract. The structure and operation of multi-cellular organisms relies, among other things, on the...
Concepts inspired by the developmental processes of living organisms can help address some of the is...
The growth and the operation of all living beings are directed through the interpretation, in each o...
This article describes an implementation of a basic multi-processor system that exhibits replication...
The application of evolutionary techniques to the design of custom processing elements bears a stron...
The implementation of bio-inspired systems in hardware has traditionally been more a matter of artis...
Embryological electronics or “Embryonics ” is a new paradigm for developing digital systems of any c...
Computer Science has lately looked for inspiration at Biological Sciences. All the multi-cellular bi...
Summary. Exploding growth in computational systems forces us to gradually re-place rigid design and ...
Abstract — If one considers life on Earth since its very be-ginning, three levels of organization ca...
A unique, scientific research instrument and art piece, the BioWall models bio-inspired electronic t...
Abstract. The space of bio-inspired hardware can be partitioned along three axes: phylogeny, ontogen...
Abstract. It is clear to all, after a moments thought, that nature has much we might be inspired by ...
In this article, we present the BioWall, a giant reconfigurable computing tissue developed to implem...
The structure and operation of multi-cellular organisms relies, among other things, on the specializ...
Abstract. The structure and operation of multi-cellular organisms relies, among other things, on the...
Concepts inspired by the developmental processes of living organisms can help address some of the is...
The growth and the operation of all living beings are directed through the interpretation, in each o...
This article describes an implementation of a basic multi-processor system that exhibits replication...
The application of evolutionary techniques to the design of custom processing elements bears a stron...
The implementation of bio-inspired systems in hardware has traditionally been more a matter of artis...
Embryological electronics or “Embryonics ” is a new paradigm for developing digital systems of any c...
Computer Science has lately looked for inspiration at Biological Sciences. All the multi-cellular bi...
Summary. Exploding growth in computational systems forces us to gradually re-place rigid design and ...
Abstract — If one considers life on Earth since its very be-ginning, three levels of organization ca...
A unique, scientific research instrument and art piece, the BioWall models bio-inspired electronic t...
Abstract. The space of bio-inspired hardware can be partitioned along three axes: phylogeny, ontogen...
Abstract. It is clear to all, after a moments thought, that nature has much we might be inspired by ...
In this article, we present the BioWall, a giant reconfigurable computing tissue developed to implem...