for Quantum Computing
10.2.1Standardized quantum computation tools
10.2.2Standardized quantum computation algorithms
10.2.5Examples of quantum machine learning
Part 4 Smart Network Field Theories
Chapter 11Model Field Theories: Neural Statistics and Spin Glass
11.1Summary of Statistical Neural Field Theory
11.2Neural Statistics: System Norm and Criticality
11.2.1Mean field theory describes stable equilibrium systems
11.2.2Statistical neural field theory describes system criticality
11.3Detailed Description of Statistical Neural Field Theory
11.3.1Master field equation for the neural system
11.3.2Markov random walk redefined as Markov random field
11.3.3Linear and nonlinear models of the system action
11.4Summary of the Spin-Glass Model
11.5Spin-Glass Model: System Norm and Criticality
11.6Detailed Description of the Spin-Glass Model
11.6.2Advanced model: p-Spherical spin glass
11.6.3Applications of the spin-glass model: Loss optimization
Chapter 12Smart Network Field Theory Specification and Examples
12.1Motivation for Smart Network Field Theory
12.2Minimal Elements of Smart Network Field Theory
12.3Smart Network System Definition
12.4Smart Network System Operation
12.4.3Scale-spanning portability
12.5Smart Network System Criticality
12.6Applications of Smart Network Field Theories
12.6.1Smart network service provisioning application layers
12.6.2Basic administrative services
Part 5 The AdS/CFT Correspondence and Holographic Codes
Chapter 13The AdS/CFT Correspondence
13.1History and Summary of the AdS/CFT Correspondence
13.2The AdS/CFT Correspondence: Basic Concepts
13.2.1The holographic principle
13.2.2Holographic principle formalized in the AdS/CFT correspondence
13.2.3Quantum error-correction code interpretation
13.3The AdS/CFT Correspondence is Information-Theoretic
13.3.1Black hole information paradox
13.3.2The information-theoretic view
13.4The AdS/CFT Correspondence as Quantum Error Correction
13.4.1The AdS/CFT correspondence: Emergent bulk locality
13.4.2Quantum error correction with the correspondence
13.4.3Emergent bulk structure through error correction