The TAP approach to intensive and extensive connectivity systems

Yoshiyuki Kabashima; David Saad

The TAP approach to intensive and extensive connectivity systems

Yoshiyuki Kabashima, David Saad

Research output: Chapter in Book/Published conference output › Chapter

Abstract

The Thouless-Anderson-Palmer (TAP) approach was originally developed for analysing the Sherrington-Kirkpatrick model in the study of spin glass models and has been employed since then mainly in the context of extensively connected systems whereby each dynamical variable interacts weakly with the others. Recently, we extended this method for handling general intensively connected systems where each variable has only O(1) connections characterised by strong couplings. However, the new formulation looks quite different with respect to existing analyses and it is only natural to question whether it actually reproduces known results for systems of extensive connectivity. In this chapter, we apply our formulation of the TAP approach to an extensively connected system, the Hopfield associative memory model, showing that it produces identical results to those obtained by the conventional formulation.

Original language	English
Title of host publication	Advanced mean field methods: Theory and practice
Editors	Manfred Opper, David Saad
Place of Publication	Cambridge, US
Publisher	MIT
Pages	51-65
Number of pages	15
ISBN (Print)	0262150549
Publication status	Published - Feb 2001

Publication series

Name	Neural Information Processing
Publisher	Massachusetts Institute of Technology Press (MIT Press)

Bibliographical note

Copyright of the Massachusetts Institute of Technology Press (MIT Press) Partially available on Google Books

Keywords

Thouless-Anderson-Palmer
Sherrington-Kirkpatrick
general intensively connected systems
Hopfield associative memory model

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NCRG_2001_004.pdf
Copyright of the Massachusetts Institute of Technology Press (MIT Press) Partially available on Google Books
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Cite this

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title = "The TAP approach to intensive and extensive connectivity systems",

abstract = "The Thouless-Anderson-Palmer (TAP) approach was originally developed for analysing the Sherrington-Kirkpatrick model in the study of spin glass models and has been employed since then mainly in the context of extensively connected systems whereby each dynamical variable interacts weakly with the others. Recently, we extended this method for handling general intensively connected systems where each variable has only O(1) connections characterised by strong couplings. However, the new formulation looks quite different with respect to existing analyses and it is only natural to question whether it actually reproduces known results for systems of extensive connectivity. In this chapter, we apply our formulation of the TAP approach to an extensively connected system, the Hopfield associative memory model, showing that it produces identical results to those obtained by the conventional formulation.",

keywords = "Thouless-Anderson-Palmer, Sherrington-Kirkpatrick, general intensively connected systems, Hopfield associative memory model",

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AU - Kabashima, Yoshiyuki

AU - Saad, David

N1 - Copyright of the Massachusetts Institute of Technology Press (MIT Press) Partially available on Google Books

PY - 2001/2

Y1 - 2001/2

N2 - The Thouless-Anderson-Palmer (TAP) approach was originally developed for analysing the Sherrington-Kirkpatrick model in the study of spin glass models and has been employed since then mainly in the context of extensively connected systems whereby each dynamical variable interacts weakly with the others. Recently, we extended this method for handling general intensively connected systems where each variable has only O(1) connections characterised by strong couplings. However, the new formulation looks quite different with respect to existing analyses and it is only natural to question whether it actually reproduces known results for systems of extensive connectivity. In this chapter, we apply our formulation of the TAP approach to an extensively connected system, the Hopfield associative memory model, showing that it produces identical results to those obtained by the conventional formulation.

AB - The Thouless-Anderson-Palmer (TAP) approach was originally developed for analysing the Sherrington-Kirkpatrick model in the study of spin glass models and has been employed since then mainly in the context of extensively connected systems whereby each dynamical variable interacts weakly with the others. Recently, we extended this method for handling general intensively connected systems where each variable has only O(1) connections characterised by strong couplings. However, the new formulation looks quite different with respect to existing analyses and it is only natural to question whether it actually reproduces known results for systems of extensive connectivity. In this chapter, we apply our formulation of the TAP approach to an extensively connected system, the Hopfield associative memory model, showing that it produces identical results to those obtained by the conventional formulation.

KW - Thouless-Anderson-Palmer

KW - Sherrington-Kirkpatrick

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KW - Hopfield associative memory model

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M3 - Chapter

SN - 0262150549

T3 - Neural Information Processing

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EP - 65

BT - Advanced mean field methods: Theory and practice

A2 - Opper, Manfred

A2 - Saad, David

PB - MIT

CY - Cambridge, US

ER -

The TAP approach to intensive and extensive connectivity systems

Abstract

Publication series

Bibliographical note

Keywords

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Advanced mean field methods: theory and practice

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