Abstract—We introduce the notion of universal memcomputing machines (UMMs): a class of brain-inspired general-purpose computing machines based on systems with memory, whereby processing and storing of information occur on the same physical location. We analytically prove that the memory properties of UMMs endow them with universal computing power—they are Turing-complete—, intrinsic parallelism, functional polymorphism, and information overhead, namely their collective states can support exponential data compression directly in memory. We also demonstrate that a UMM has the same computational power as a non-deterministic Turing machine, namely it can solve NP– complete problems in polynomial time. However, by virtue of its information overh...
In the 1960s Gisbert Hasenjaeger built Turing Machines from electromechanical relays and uniselector...
Memristive technologies are attractive candidates to replace conventional memory technologies and ca...
In the 1960s Gisbert Hasenjaeger built Turing Machines from electromechanical relays and uniselector...
Memcomputing is a novel non-Turing paradigm of computation that uses interacting memory cells (mempr...
Abstract. The present von Neumann computing paradigm involves a significant amount of information tr...
AbstractLet UTM(m, n) be the class of universal Turing machine with m states and n symbols. Universa...
This dissertation aims to address the dual goals of (1) proposing practical computing devices that m...
In this Review, memristors are examined from the frameworks of both von Neumann and neuromorphic com...
A computer is classically formalised as a universal Turing machine or a similar device. However over...
We discuss the implementation of a novel approach to computing named memcomputing using memelements ...
This dissertation will review and compile several advancements in the development of digital memcomp...
This book considers the design and development of nanoelectronic computing circuits, systems and arc...
Like sentinels guarding a secret treasure, computationally difficult problems define the edge of wha...
We argue that post-Moore’s Law computing technology will require the exploitation of new physical pr...
Memcomputing is a novel computing paradigm that employs time non-local dynamical systems to compute ...
In the 1960s Gisbert Hasenjaeger built Turing Machines from electromechanical relays and uniselector...
Memristive technologies are attractive candidates to replace conventional memory technologies and ca...
In the 1960s Gisbert Hasenjaeger built Turing Machines from electromechanical relays and uniselector...
Memcomputing is a novel non-Turing paradigm of computation that uses interacting memory cells (mempr...
Abstract. The present von Neumann computing paradigm involves a significant amount of information tr...
AbstractLet UTM(m, n) be the class of universal Turing machine with m states and n symbols. Universa...
This dissertation aims to address the dual goals of (1) proposing practical computing devices that m...
In this Review, memristors are examined from the frameworks of both von Neumann and neuromorphic com...
A computer is classically formalised as a universal Turing machine or a similar device. However over...
We discuss the implementation of a novel approach to computing named memcomputing using memelements ...
This dissertation will review and compile several advancements in the development of digital memcomp...
This book considers the design and development of nanoelectronic computing circuits, systems and arc...
Like sentinels guarding a secret treasure, computationally difficult problems define the edge of wha...
We argue that post-Moore’s Law computing technology will require the exploitation of new physical pr...
Memcomputing is a novel computing paradigm that employs time non-local dynamical systems to compute ...
In the 1960s Gisbert Hasenjaeger built Turing Machines from electromechanical relays and uniselector...
Memristive technologies are attractive candidates to replace conventional memory technologies and ca...
In the 1960s Gisbert Hasenjaeger built Turing Machines from electromechanical relays and uniselector...