Continuum computer architecture (CCA) is a non-von Neumann architecture that offers an alternative to conventional structures as digital technology evolves towards nano-scale and the ultimate flat-lining of Moore's law. Coincidentally, it also defines a model of architecture particularly well suited to logic classes that exhibit ultra-high clock rates (> 100 GHz) such as rapid single flux quantum (RSFQ) gates. CCA eliminates the concept of the "CPU" that has dominated computer architecture since its inception more than half a century ago and establishes a new local element that merges the properties of state storage, state transfer, and state operation. A CCA system architecture is a simple multidimensional organization of these elemental b...
As CMOS technology continues its monotonic shrink, computing with quantum dots remains a goal in nan...
International audienceCurrent processor and multiprocessor architectures are almost all based on the...
In last decades exponential reduction of integrated circuits feature size and increase in operating ...
The end of Moore's Law is a cliche that none the less is a hard barrier to future scaling of high pe...
The anticipated advent of practical nanoscale technology sometime in the next decade with likely exp...
The ultimate computers in our long-term future will deliver exaflops-scale performance (or greater) ...
The article discusses the emerging non-von Neumann computer architectures and their integration in t...
Abstract—The quantum-dot cellular automata (QCA) paradigm is a revolutionary approach to molecular-s...
Quantum-dot cellular automata (QCA) is a low-power, non-von-Neumann, general-purpose paradigm for cl...
Abstract—The paper presents a comparison between two future nanotechnologies that are suitable for a...
Quantum computers can (in theory) solve certain problems far faster than a classical computer runnin...
The traditional digital technologies are reaching their performance limits, and the desired growth o...
The quantum cellular automata (QCA) is currently being investigated as an alternative to CMOS VLSI. ...
Many efforts have been done about designing nano-based devices till today. One of these devices is Q...
Developing energy-efficient parallel information processing systems beyond von Neumann architecture ...
As CMOS technology continues its monotonic shrink, computing with quantum dots remains a goal in nan...
International audienceCurrent processor and multiprocessor architectures are almost all based on the...
In last decades exponential reduction of integrated circuits feature size and increase in operating ...
The end of Moore's Law is a cliche that none the less is a hard barrier to future scaling of high pe...
The anticipated advent of practical nanoscale technology sometime in the next decade with likely exp...
The ultimate computers in our long-term future will deliver exaflops-scale performance (or greater) ...
The article discusses the emerging non-von Neumann computer architectures and their integration in t...
Abstract—The quantum-dot cellular automata (QCA) paradigm is a revolutionary approach to molecular-s...
Quantum-dot cellular automata (QCA) is a low-power, non-von-Neumann, general-purpose paradigm for cl...
Abstract—The paper presents a comparison between two future nanotechnologies that are suitable for a...
Quantum computers can (in theory) solve certain problems far faster than a classical computer runnin...
The traditional digital technologies are reaching their performance limits, and the desired growth o...
The quantum cellular automata (QCA) is currently being investigated as an alternative to CMOS VLSI. ...
Many efforts have been done about designing nano-based devices till today. One of these devices is Q...
Developing energy-efficient parallel information processing systems beyond von Neumann architecture ...
As CMOS technology continues its monotonic shrink, computing with quantum dots remains a goal in nan...
International audienceCurrent processor and multiprocessor architectures are almost all based on the...
In last decades exponential reduction of integrated circuits feature size and increase in operating ...