Our model of computation (theoretical machine) was designed for the analysis of analog Fourier optical processors, its basic data unit being a continuous image of unbounded resolution. In this paper, we demonstrate the universality of our machine by presenting a framework for arbitrary Turing machine simulation. Computational complexity benefits are also demonstrated by providing a O(log2n) algorithm for a search problem that has a lower bound of n - 1 on a Turing machine
AbstractThe purpose of this paper is to investigate models of computation from a realistic viewpoint...
Abstract: Contemporary computer theory is governed by the discretization of continuous problems. Cla...
Abstract. Are analog models of computations more powerful than classical models of computations? Fro...
Our model of computation (theoretical machine) was designed for the analysis of analog Fourier optic...
Our model of computation (theoretical machine) was designed for the analysis of analog Fourier optic...
We introduce a continuous-space model of computation. This original model is inspired by the theory ...
AbstractWe prove computability and complexity results for an original model of computation called th...
We prove computability and complexity results for an original model of computation called the contin...
Abstract. We introduce a continuous-space model of computation. This original model is inspired by t...
We introduce a continuous-space model of computation. This original model is inspired by the theory...
We investigate the computational complexity of an optically inspired model of computation. The model...
This work concerns the computational complexity of a model of computation that is inspired by optic...
We present a number of computational complexity results for an optical model of computation called ...
COMPUTATION A central dogma of com-puter science is that the Turing-machine model is the appropriate...
We present a novel and simple theoretical model of computation that captures what we believe are the...
AbstractThe purpose of this paper is to investigate models of computation from a realistic viewpoint...
Abstract: Contemporary computer theory is governed by the discretization of continuous problems. Cla...
Abstract. Are analog models of computations more powerful than classical models of computations? Fro...
Our model of computation (theoretical machine) was designed for the analysis of analog Fourier optic...
Our model of computation (theoretical machine) was designed for the analysis of analog Fourier optic...
We introduce a continuous-space model of computation. This original model is inspired by the theory ...
AbstractWe prove computability and complexity results for an original model of computation called th...
We prove computability and complexity results for an original model of computation called the contin...
Abstract. We introduce a continuous-space model of computation. This original model is inspired by t...
We introduce a continuous-space model of computation. This original model is inspired by the theory...
We investigate the computational complexity of an optically inspired model of computation. The model...
This work concerns the computational complexity of a model of computation that is inspired by optic...
We present a number of computational complexity results for an optical model of computation called ...
COMPUTATION A central dogma of com-puter science is that the Turing-machine model is the appropriate...
We present a novel and simple theoretical model of computation that captures what we believe are the...
AbstractThe purpose of this paper is to investigate models of computation from a realistic viewpoint...
Abstract: Contemporary computer theory is governed by the discretization of continuous problems. Cla...
Abstract. Are analog models of computations more powerful than classical models of computations? Fro...