The Consumption and the Output Turnpike Theorems in a von Neumann Type of Model--A Finite Term Problem

AbstractIt is proved in this note, that a strongly continuous semigroup of (sub)positive contractions acting on an Lp-space, for 1 < p < ∞ p ≠ 2, can be dilated by a strongly continuous group of (sub)positive isometries in a manner analogous to the dilation M. A. Akçoglu and L. Sucheston constructed for a discrete semigroup of (sub)positive contractions. From this an improvement of a von Neumann type estimation, due to R. R.Coifman and G.Weiss, on the transfer map belonging to the semigroup is deduced.

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Current-induced crystallisation in Heusler alloy films for memory potentiation in neuromorphic computation

Scientific Reports ◽

10.1038/s41598-021-96706-9 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

William Frost ◽

Kelvin Elphick ◽

Marjan Samiepour ◽

Atsufumi Hirohata

Keyword(s):

Heusler Alloy ◽

Layer Growth ◽

Layer By Layer ◽

Half Metallic ◽

Alloy Films ◽

Von Neumann ◽

Alternative Technologies ◽

Artificial Synapse ◽

Neumann Type ◽

Area Product

AbstractThe current information technology has been developed based on von Neumann type computation. In order to sustain the rate of development, it is essential to investigate alternative technologies. In a next-generation computation, an important feature is memory potentiation, which has been overlooked to date. In this study, potentiation functionality is demonstrated in a giant magnetoresistive (GMR) junction consisting of a half-metallic Heusler alloy which can be a candidate of an artificial synapse while still achieving a low resistance-area product for low power consumption. Here the Heusler alloy films are grown on a (110) surface to promote layer-by-layer growth to reduce their crystallisation energy, which is comparable with Joule heating induced by a controlled current introduction. The current-induced crystallisation leads to the reduction in the corresponding resistivity, which acts as memory potentiation for an artificial GMR synaptic junction.

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Comment on "Functional inequalities associated with Jordan-von Neumann type additive functional equations"

Journal of Inequalities and Applications ◽

10.1186/1029-242x-2012-47 ◽

2012 ◽

Vol 2012 (1) ◽

Author(s):

Choonkil Park ◽

Jung Rye Lee

Keyword(s):

Functional Equations ◽

Additive Functional ◽

Functional Inequalities ◽

Von Neumann ◽

Neumann Type

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Embedded Half-Bound States for Potentials of Wigner-Von Neumann Type

Proceedings of the London Mathematical Society ◽

10.1112/plms/s3-62.3.607 ◽

1991 ◽

Vol s3-62 (3) ◽

pp. 607-646 ◽

Cited By ~ 8

Author(s):

D. B. Hinton ◽

M. Klaus ◽

J. K. Shaw

Keyword(s):

Bound States ◽

Von Neumann ◽

Neumann Type

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ENTANGLEMENT, HAAG-DUALITY AND TYPE PROPERTIES OF INFINITE QUANTUM SPIN CHAINS

Reviews in Mathematical Physics ◽

10.1142/s0129055x0600284x ◽

2006 ◽

Vol 18 (09) ◽

pp. 935-970 ◽

Cited By ~ 20

Author(s):

M. KEYL ◽

T. MATSUI ◽

D. SCHLINGEMANN ◽

R. F. WERNER

Keyword(s):

Hilbert Spaces ◽

Quantum Spin ◽

Xy Model ◽

Type I ◽

Quantum Spin Chains ◽

Haag Duality ◽

Von Neumann ◽

Neumann Type ◽

Left And Right ◽

Normal States

We consider an infinite spin chain as a bipartite system consisting of the left and right half-chains and analyze entanglement properties of pure states with respect to this splitting. In this context, we show that the amount of entanglement contained in a given state is deeply related to the von Neumann type of the observable algebras associated to the half-chains. Only the type I case belongs to the usual entanglement theory which deals with density operators on tensor product Hilbert spaces, and only in this situation separable normal states exist. In all other cases, the corresponding state is infinitely entangled in the sense that one copy of the system in such a state is sufficient to distill an infinite amount of maximally entangled qubit pairs. We apply this results to the critical XY model and show that its unique ground state φS provides a particular example for this type of entanglement.

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Projective algorithms for solving complementarity problems

International Journal of Mathematics and Mathematical Sciences ◽

10.1155/s0161171202007056 ◽

2002 ◽

Vol 29 (2) ◽

pp. 99-113

Author(s):

Caroline N. Haddad ◽

George J. Habetler

Keyword(s):

Linear Complementarity Problem ◽

Complementarity Problem ◽

Convex Sets ◽

Complementarity Problems ◽

Linear Complementarity ◽

Von Neumann ◽

Nonconvex Sets ◽

Neumann Type ◽

Successive Over Relaxation ◽

Projective Algorithms

We present robust projective algorithms of the von Neumann type for the linear complementarity problem and for the generalized linear complementarity problem. The methods, an extension of Projections Onto Convex Sets (POCS) are applied to a class of problems consisting of finding the intersection of closed nonconvex sets. We give conditions under which convergence occurs (always in2dimensions, and in practice, in higher dimensions) when the matrices areP-matrices (though not necessarily symmetric or positive definite). We provide numerical results with comparisons to Projective Successive Over Relaxation (PSOR).

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