Melanie Swan

Quantum Computing


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Methods: The AdS/CFT Correspondence

       13.5.1The correspondence as a complexity technology

       13.5.2Strongly coupled systems: AdS/CMT correspondence

       13.5.3Strongly coupled plasmas

       References

       Chapter 14Holographic Quantum Error-Correcting Codes

       14.1Holographic Quantum Error-Correcting Codes

       14.1.1Quantum error correction

       14.1.2Tensor networks and MERA tensor networks

       14.1.3AdS/CFT holographic quantum error-correcting codes

       14.2Other Holographic Quantum Error-Correcting Codes

       14.2.1.Emergent bulk geometry from boundary entanglement

       14.2.2Ryu–Takayanagi quantum error correction codes

       14.2.3Extending MERA tensor network models

       14.2.4Bosonic error-correction codes

       14.3Quantum Coding Theory

       14.4Technophysics: AdS/Deep Learning Correspondence

       14.4.1Novel uses of quantum error-correction architecture

       References

       Part 6 Quantum Smart Networks

       Chapter 15AdS/Smart Network Correspondence and Conclusion

       15.1Smart Network Quantum Field Theory

       15.1.1AdS/CFT correspondence-motivated SNQFT

       15.1.2Minimal elements of smart network quantum field theory

       15.1.3Nature’s quantum security features

       15.1.4Random tensors: A graph is a field

       15.2The AdS/CFT Correspondence Generalized to the SNQFT

       15.2.1Bidirectional: Bulk–boundary linkage

       15.2.2Unidirectional: Interrogate complexity with simplicity

       15.3Adding Dynamics to the AdS/CFT Correspondence

       15.3.1Spin glass interpretation of the AdS/CFT correspondence

       15.3.2Holographic geometry is free

       15.4Quantum Information/SNQFT Correspondence

       15.4.1Strategy: Solve any theory as a field theory in one fewer dimensions

       15.4.2Macroscale reality is the boundary to the quantum mechanical bulk

       15.5The SNFT is the Boundary CFT to the Bulk Quantum Information Domain

       15.5.1The internet as a quantum computer

       15.5.2Computing particle-many systems with the quantum internet

       15.6Risks and Limitations

       15.7Conclusion

       15.7.1From probability to correspondence

       15.7.2Farther consequences: Quantum computing eras

       References

       Glossary

       Index

       List of Figures

       Figure 1.1.Model of computational reality

       Figure 2.1.Eras of network computing: Simple networks and smart networks

       Figure 3.1.Potential states of bit and qubit

       Figure 15.1.Model of computational reality with moderating variables

       List of Tables

       Table 2.1.Early smart networks (Smart Networks 1.0)

       Table 2.2.Robust self-operating smart networks (Smart Networks 2.0)

       Table 2.3.Quantum smart networks (Future-class Smart Networks 3.0)

       Table 2.4.Smart networks by operational focus

       Table 2.5.Steps in articulating an effective field theory

       Table 3.1.Quantum computing hardware platforms

       Table