InfiNET Data Management: The Future of Decentralized Universal Database Solutions by Infinite 8

Page 1

InfiNET Data Management

InfiNET Data Management: The Future of Decentralized Universal Database Solutions

Version 1.0.0

Abstract

This white paper introduces the InfiNET Network's innovative database solutions designed to facilitate decentralized data management. Leveraging blockchain technology and advanced cryptographic techniques, InfiNET Databases offer secure, transparent, and scalable solutions for a wide range of applications. This paper provides an overview of the key features, benefits, and use cases of the different databases offered by InfiNET, including Immutable Ledger Database, Distributed File Storage, Confidential Data Vault, Data Matrix, Data Dictionary, and Quantum Random Access Memory (QRAM).

----------------------------------------------------------------------------------------------------------------------------

ChatGPT3.5

June 1, 2023

Table of Contents: 1. Introduction 1.1 Motivation 1.2 Objectives 1.3 Overview 2. InfiNET Database Solutions 2.1 Immutable Ledger Database 2.2 Distributed File Storage 2.3 Confidential Data Vault 2.4 Data Matrix 2.5 Data Dictionary 2.6 Quantum Random Access Memory (QRAM) 2.7 Interoperability and Data Exchange 3. Key Features and Benefits 3.1 Data Security and Integrity ] 3.2 Transparency and Auditability 3.3 Scalability and Performance 3.4 Privacy and Confidentiality 3.5 Interconnectivity and Compatibility 4. Use Cases 4.1 Supply Chain Management 4.2 Healthcare Records Management 4.3 Financial Transactions and Settlements 4.4 Identity Management and Authentication 4.5 Decentralized Social Networks 5. Implementation and Integration 5.1 InfiNET Database APIs and SDKs 5.2 Integration with Existing Systems 5.3 Developer Tools and Documentation 6. Roadmap and Future Developments 6.1 Database Optimization and Performance Enhancements 6.2 Cross-Database Interoperability 6.3 Advanced Data Analytics and Insights 6.4 Community Expansion and Collaboration 7. Conclusion 8. References

Section 1: Introduction

It has been increasingly obvious in the world of Enterprise, that the massive amounts of data, various data types, and data storage constraints provide a challenging bottleneck, concerning the growth or entropy of the Internet. We have been inspired through our research into the Universal Flow Theory, concerning the optimal methods for data transfer, storage, and security.

One of the main issues regarding Big Data today, involves the many different types of data, local, national, and global data standards, and many other complex topics. This invariably complicates matters exponentially, concerning the Universal intercommunication and interoperability of data and data-based systems. We as humans believe that it is one of the paramount goals of humanity, to achieve universal understanding of the human tongue. Rather, a much more interesting question and challenge involves, “what would happen if all machines were able to understand and manipulate all and any data types without pre-processing or manipulating the data in anyway?” Machines use machine language that humans cannot understand to speak to one another. The ability for machines to use machine language to communicate with another another, while not being able to understand the data output by other machines, due to inoperable data types, presents a huge problem in the world of Big Data.

1.1 Motivation

For the efficiency of Universal systems, the Universe relies on very specific rules and axioms in regards to its order. Yet, when we study Black holes, they do not discriminate against the types of matter they ingest. Black holes readily accept matter with any property, with maximum efficiency. Likewise, we sought to create a Database system that would allow for structured, as well as unstructured data to be integrated into a Distributed Quantum Internet. It was also important for Web3based Data and structured to be inter-operable with our system, not requiring Network Administrators to adopt new Data Standards, nor manipulate or pre-process data they may be maintaining or revisioning.

1.2 Objectives

Our objects we seek to accomplish the creation of InfiNET’s novel Database Systems, involve 1) Providing our network with Structure and Unstructured Distributed Databases, 2) Provide secure access to Quantum Random Access Memory (QRAM), 3) Create Immutable Ledger and Databases, and 4) Allow for Intra-network and Extra-network Data interoperability.

1.3 Overview

InfiNET’s novel Distributed Database solutions, seeks to revolutionize the way we interact and transport information across the internet. As the number of machines that continue to go online, current systems will fail to provide future adaptability to ingest the exponentially increasing amount of data produced. Well into the future, the InfiNET network will flex, adapt, and evolve as the needs of the world grow. It has been our pleasure to provide the world with such as Database solution inspired by Black hole physics.

Section 2: InfiNET Database Solutions

At InfiNET, we offer a comprehensive suite of database solutions designed to empower decentralized data management. Our database solutions are built on cutting-edge technologies, including blockchain,

quantum computing, and advanced cryptographic techniques. In this section, we will explore each of our database solutions in detail, highlighting their unique features and benefits.

2.1 Immutable Ledger Database

The Immutable Ledger Database serves as the cornerstone of our database ecosystem. Leveraging blockchain technology, this database ensures the integrity and transparency of data stored within the network. By utilizing consensus mechanisms and cryptographic hashes, the Immutable Ledger Database provides a tamper-proof and auditable record of transactions and data modifications. It enables participants in the network to have a shared source of truth, eliminating the need for trust in centralized authorities. The Immutable Ledger Database forms the foundation for secure and decentralized data management within InfiNET.

2.2 Distributed File Storage

InfiNET's Distributed File Storage solution addresses the challenges of storing large files in a decentralized manner. Traditional centralized file storage systems suffer from issues such as single points of failure and lack of data redundancy. Our Distributed File Storage overcomes these limitations by distributing files across multiple nodes in the network. This ensures data redundancy, high availability, and fault tolerance. By leveraging the power of decentralized storage, we provide a scalable and robust solution for file storage within InfiNET.

2.3 Confidential Data Vault

Confidentiality and data privacy are paramount in today's digital landscape. InfiNET's Confidential Data Vault is designed to address these concerns by providing a secure and private storage solution for sensitive information. The Confidential Data Vault allows users to retain full control over their data while ensuring its confidentiality. Advanced cryptographic techniques, such as zero-knowledge proofs and homomorphic encryption, are employed to protect data privacy within the vault. With our Confidential Data Vault, users can securely store and manage their sensitive data within the InfiNET network.

2.4 Data Matrix

Structured data management is a crucial aspect of any database solution. InfiNET's Data Matrix is specifically designed to handle structured data in a scalable and efficient manner. It provides a tabular format that enables organized storage and retrieval of information. The Data Matrix supports efficient indexing and querying, facilitating rapid data access for various applications. Whether it's financial transactions, sensor data, or user profiles, the Data Matrix offers a flexible and scalable solution for structured data management within the InfiNET ecosystem.

2.5 Data Dictionary

In addition to structured data, unstructured data also plays a vital role in many applications. InfiNET's Data Dictionary is tailored to handle unstructured data, allowing the storage and processing of diverse data types, including text, images, audio, and video. Leveraging advanced techniques such as natural language processing and computer vision, the Data Dictionary enables intelligent analysis and extraction of insights from unstructured data sources. This empowers businesses and organizations to

derive meaningful value from vast amounts of unstructured data, driving innovation and decisionmaking.

2.6 Quantum Random Access Memory (QRAM)

Quantum computing offers unique advantages in terms of data storage and processing. InfiNET incorporates Quantum Random Access Memory (QRAM) into its database solutions to enhance data processing speeds and enable faster access to quantum-based information. By leveraging the principles of quantum superposition and entanglement, QRAM enables efficient storage and retrieval of quantum data. It combines the advantages of classical data storage with quantum capabilities, enhancing the overall performance and efficiency of InfiNET's database ecosystem.

2.7 Interoperability and Data Exchange

InfiNET recognizes the importance of interoperability and data exchange between different database solutions. We have implemented standardized protocols and interfaces to enable seamless data interoperability across our various databases. This allows for efficient sharing and synchronization of data between different applications and use cases within the InfiNET network. By facilitating interoperability, we enable the creation of a connected and collaborative ecosystem of data-driven applications.

By offering a range of database solutions, including the Immutable Ledger Database, Distributed File Storage, Confidential Data Vault, Data Matrix, Data Dictionary, and Quantum Random Access Memory (QRAM), InfiNET provides a comprehensive framework for decentralized data management. These solutions are designed to address the unique needs and challenges of modern data-driven applications, offering enhanced security, transparency, scalability, and privacy. With InfiNET's database solutions, organizations can unlock the full potential of decentralized data management and drive innovation in their respective domains.

Section 3: The Importance of Decentralized Data Management

In the era of rapidly advancing technology and increasing data reliance, the significance of decentralized data management cannot be overstated. As an author deeply involved in the development of InfiNET's database solutions, I understand the critical role that decentralized data management plays in ensuring data security, privacy, and accessibility. In this section, we will explore the importance of decentralized data management and its implications for businesses, individuals, and society as a whole.

3.1 Data Security and Integrity

One of the primary concerns in the centralized data management paradigm is the vulnerability of data to breaches, hacking attempts, and unauthorized access. By decentralizing data through distributed database solutions like those offered by InfiNET, we mitigate the risk of a single point of failure and reduce the likelihood of data breaches. The use of cryptographic techniques, such as blockchain technology, ensures the integrity and immutability of data stored within the network, making it resistant to tampering and unauthorized modifications. Decentralized data management provides a robust security framework, instilling trust and confidence in data storage and access.

3.2 Privacy and Confidentiality

With the proliferation of digital platforms and the increasing collection of personal information, privacy has become a paramount concern. Centralized data management often requires individuals and organizations to entrust their data to third-party entities, raising concerns about data misuse and unauthorized access. In contrast, decentralized data management empowers individuals and organizations to retain control over their data. Through techniques like encryption and zero-knowledge proofs, decentralized databases like those offered by InfiNET ensure that sensitive information remains confidential and accessible only to authorized parties. Privacy and confidentiality are safeguarded, preserving individual rights and fostering a more transparent and ethical data ecosystem.

3.3 Data Accessibility and Interoperability

In today's interconnected world, the seamless exchange and accessibility of data across applications and systems are essential for innovation and collaboration. Traditional centralized data management often leads to data silos, where data is locked within closed systems and inaccessible to external parties. Decentralized data management solutions break down these barriers by facilitating interoperability and data exchange. InfiNET's database solutions, with their standardized protocols and interfaces, enable efficient sharing and synchronization of data across diverse applications, fostering collaboration, innovation, and enhanced data-driven decision-making.

3.4 Scalability and Performance

As the volume and complexity of data continue to grow exponentially, scalability and performance become critical considerations for database solutions. Decentralized data management offers inherent scalability, as the load is distributed across multiple nodes in the network. This distribution ensures that data storage and processing can scale seamlessly, accommodating increasing demands without sacrificing performance. By leveraging advanced technologies like quantum computing, InfiNET's database solutions further enhance scalability and performance, enabling efficient storage, retrieval, and processing of data in real-time.

3.5 Empowering Individuals and Society

Beyond the technical considerations, decentralized data management has broader societal implications. By placing data ownership and control in the hands of individuals and organizations, decentralized databases empower them to actively participate in the data economy. This shift from centralized authorities to decentralized networks fosters a more inclusive and democratic data ecosystem, where individuals have greater agency over their data and can share in the benefits derived from its use. Furthermore, decentralized data management promotes transparency, accountability, and ethical data practices, ensuring that data is used in a manner that aligns with societal values and interests.

In conclusion, decentralized data management is of paramount importance in today's digital landscape. It provides enhanced data security, privacy, accessibility, scalability, and performance, revolutionizing the way data is stored, managed, and utilized. Through the development and implementation of innovative database solutions like those offered by InfiNET, we aim to drive the adoption of decentralized data management practices and empower individuals, businesses, and society as a whole to harness the full potential of data-driven innovation.

Section 4: Use Cases of InfiNET's Decentralized Database Solutions

In this section, we will explore the practical applications and use cases of InfiNET's decentralized database solutions. By leveraging the unique features and capabilities of our databases, businesses and industries can unlock new opportunities, improve operational efficiency, and drive innovation in various domains. Let's delve into some of the key use cases where InfiNET's decentralized database solutions excel:

4.1 Supply Chain Management

Supply chain management is a complex process involving multiple stakeholders, transactions, and data points. InfiNET's decentralized databases offer a secure and transparent platform for managing supply chain information, including product origins, certifications, and transaction records. By leveraging the Immutable Ledger Database, businesses can create an immutable audit trail of every step in the supply chain, ensuring transparency and traceability. Smart contracts and automated workflows can streamline processes, reducing delays and errors. With InfiNET's database solutions, supply chain participants can collaborate effectively, verify authenticity, and mitigate risks such as counterfeiting or fraud.

4.2 Healthcare Records Management

The healthcare industry is highly data-intensive, with a need for secure and interoperable management of patient records, medical histories, and sensitive healthcare information. InfiNET's decentralized databases provide a robust solution for healthcare records management, ensuring privacy, data integrity, and accessibility. The Immutable Ledger Database, coupled with the Data Matrix and Data Dictionary, enables efficient storage, retrieval, and sharing of structured and unstructured healthcare data. Interoperability between healthcare providers, insurers, and patients is enhanced, leading to improved care coordination, research collaboration, and data-driven insights for better patient outcomes.

4.3 Financial Transactions and Settlements

Decentralized finance (DeFi) is revolutionizing the traditional financial landscape, offering increased transparency, accessibility, and efficiency. InfiNET's decentralized databases are well-suited for managing financial transactions and settlements securely. The Immutable Ledger Database ensures the integrity and auditability of financial transactions, while the Quantum Random Access Memory (QRAM) enhances the speed and efficiency of data processing. With InfiNET's databases, decentralized applications (dApps) can be built to facilitate peer-to-peer transactions, smart contractbased agreements, and decentralized asset management, reducing the reliance on intermediaries and enabling a more inclusive financial ecosystem.

4.4 Identity Management and Authentication

Identity management and authentication are critical in today's digital world, where privacy and security concerns are paramount. InfiNET's decentralized databases provide a secure and decentralized platform for managing digital identities. By leveraging cryptographic techniques and distributed storage, individuals can retain control over their personal data while securely accessing various services and platforms. The Immutable Ledger Database, combined with advanced authentication mechanisms, ensures the integrity and privacy of identity-related information. InfiNET's decentralized database solutions offer a trustless environment where individuals can manage their identities, protect against identity theft, and seamlessly authenticate themselves across different applications.

4.5 Decentralized Social Networks

Traditional social networks are centralized platforms that collect and monetize user data, often raising concerns about privacy and data ownership. InfiNET's decentralized database solutions offer a new paradigm for social networking, empowering users with greater control over their data. The Immutable Ledger Database, along with the Data Dictionary, enables users to store and share their social data securely, without relying on centralized authorities. Users can define their privacy settings, determine data sharing permissions, and participate in a more transparent and user-centric social network. InfiNET's decentralized databases facilitate the creation of decentralized social media platforms that prioritize user privacy, data ownership, and community governance.

In summary, InfiNET's decentralized database solutions have wide-ranging applications across industries and domains. Whether it's enhancing supply chain transparency, revolutionizing healthcare records management, enabling decentralized finance, strengthening identity management, or empowering decentralized social networks, InfiNET provides the robust infrastructure needed for secure, transparent, and scalable data management. These use cases are just a glimpse of the possibilities offered by InfiNET's database solutions, and we look forward to exploring further applications and innovations in the decentralized data management space.

Section 5: Implementation and Integration of InfiNET's Database Solutions

In this section, we will discuss the practical aspects of implementing and integrating InfiNET's decentralized database solutions. While the potential benefits of decentralized data management are clear, it is important to address the practical considerations of adopting and integrating these solutions into existing systems and workflows. Let's explore the key aspects of implementation and integration:

5.1 InfiNET Database APIs and SDKs

To facilitate seamless integration with existing applications and systems, InfiNET provides a comprehensive set of Application Programming Interfaces (APIs) and Software Development Kits (SDKs). These development tools enable developers to interact with InfiNET's databases, perform data operations, and integrate the decentralized data management capabilities into their own applications. The APIs and SDKs are designed to be developer-friendly, offering clear documentation, sample code, and robust support to accelerate the development process.

5.2 Integration with Existing Systems

InfiNET's decentralized database solutions are designed to be flexible and compatible with existing systems and infrastructure. Whether you have legacy databases, enterprise resource planning (ERP) systems, or custom applications, InfiNET's databases can be seamlessly integrated into your existing ecosystem. By leveraging the provided APIs and SDKs, data can be securely transferred between different databases, allowing for a gradual migration or integration process without disrupting existing operations. InfiNET's compatibility with standard protocols and interfaces ensures interoperability and ease of integration.

5.3 Developer Tools and Documentation

To support developers and system integrators, InfiNET provides comprehensive developer tools and documentation. These resources include detailed technical guides, best practices, code samples, and troubleshooting documentation. Developers can access these resources to gain a deeper understanding

of InfiNET's database solutions, learn how to optimize performance, and troubleshoot any issues that may arise during the implementation and integration process. Additionally, regular updates and enhancements to the developer tools and documentation are provided to ensure that developers have access to the latest features and improvements.

By providing robust developer tools, comprehensive documentation, and support, InfiNET aims to empower developers and system integrators to leverage the full potential of its decentralized database solutions. The goal is to simplify the implementation and integration process, reduce time-to-market, and enable organizations to harness the benefits of decentralized data management quickly and efficiently.

In summary, implementing and integrating InfiNET's decentralized database solutions requires a systematic approach that considers the specific needs and requirements of the organization. By leveraging the provided APIs, SDKs, and developer tools, businesses can seamlessly integrate InfiNET's databases into their existing systems and workflows, ensuring compatibility and interoperability. The comprehensive documentation and support further facilitate a smooth implementation process, enabling organizations to unlock the benefits of decentralized data management and drive innovation in their respective domains.

Section 6: Roadmap and Future Developments

InfiNET is committed to continuous innovation and improvement of its decentralized database solutions. This section outlines the roadmap and future developments that will shape the evolution of InfiNET's database ecosystem. By staying at the forefront of technological advancements and addressing emerging challenges, InfiNET aims to provide cutting-edge solutions that meet the evolving needs of businesses and industries. Let's explore the key areas of focus in the roadmap:

6.1 Database Optimization and Performance Enhancements

One of the primary areas of focus in the roadmap is optimizing the performance of InfiNET's decentralized databases. InfiNET recognizes the importance of scalability, efficiency, and responsiveness in handling large volumes of data and complex operations. Ongoing research and development efforts are dedicated to enhancing database performance through innovative algorithms, data structures, and optimization techniques. By leveraging the power of distributed computing and advanced caching mechanisms, InfiNET aims to deliver databases that offer unparalleled performance and responsiveness.

6.2 Cross-Database Interoperability

Interoperability is a critical aspect of decentralized data management, and InfiNET is actively working on enabling seamless communication and data exchange between different databases within its ecosystem. The roadmap includes the development of standardized protocols, interfaces, and data formats that facilitate cross-database interoperability. This will allow organizations to leverage the strengths of multiple databases and seamlessly transfer and synchronize data across different systems. The vision is to create an interconnected and collaborative ecosystem where data can flow freely while maintaining security and integrity.

6.3 Advanced Data Analytics and Insights

InfiNET recognizes the importance of deriving actionable insights from the vast amounts of data stored in its databases. As part of the roadmap, InfiNET is focusing on advancing data analytics capabilities within its ecosystem. By integrating advanced data analysis algorithms, machine learning techniques, and artificial intelligence models, InfiNET aims to empower businesses with powerful analytics tools. These tools will enable organizations to gain valuable insights, identify patterns, make data-driven decisions, and unlock new opportunities for growth and innovation.

6.4 Community Expansion and Collaboration

InfiNET acknowledges the significance of collaboration and community participation in driving the evolution of decentralized data management. As part of its roadmap, InfiNET plans to foster community expansion and collaboration initiatives. This includes engaging with developers, researchers, and industry experts to gather feedback, identify potential use cases, and explore new possibilities. InfiNET also aims to establish partnerships and collaborations with organizations that share a common vision of decentralized data management. By building a vibrant and collaborative community, InfiNET strives to create a thriving ecosystem that fosters innovation and drives the adoption of decentralized database solutions.

In conclusion, InfiNET's roadmap outlines its commitment to continuous improvement, innovation, and collaboration in the field of decentralized database solutions. Through database optimization, crossdatabase interoperability, advanced data analytics, and community expansion, InfiNET aims to deliver robust, scalable, and secure databases that empower businesses to unlock the full potential of their data. By staying at the forefront of technological advancements and addressing the evolving needs of its users, InfiNET seeks to shape the future of decentralized data management and revolutionize the way organizations handle, analyze, and leverage data.

Section 7: Conclusion

Decentralized data management is becoming increasingly critical in today's digital landscape, and InfiNET's innovative database solutions offer a compelling alternative to traditional centralized databases. Throughout this white paper, we have explored the various database solutions offered by InfiNET, including the Immutable Ledger Database, Distributed File Storage, Confidential Data Vault, Data Matrix, Data Dictionary, and Quantum Random Access Memory (QRAM). These solutions provide secure, transparent, scalable, and privacy-enhanced options for businesses and organizations seeking decentralized data management capabilities.

By leveraging blockchain technology, advanced cryptographic techniques, and quantum computing principles, InfiNET's databases address the challenges of data security, integrity, transparency, scalability, and privacy. The Immutable Ledger Database ensures tamper-proof and auditable data storage, while the Tensor-Based Ledger harnesses the power of quantum circuits for enhanced security and computational capabilities. The Data Matrix and Data Dictionary cater to structured and unstructured data, respectively, enabling efficient storage, retrieval, and analysis. The inclusion of Quantum Random Access Memory (QRAM) further enhances the speed and efficiency of data processing.

The key features and benefits of InfiNET's database solutions have been highlighted, including data security, transparency, scalability, performance, privacy, and interoperability. These features empower businesses to manage and utilize their data effectively, derive valuable insights, and make informed decisions. Furthermore, the diverse use cases presented, such as supply chain management, healthcare

records management, financial transactions, identity management, and decentralized social networks, demonstrate the versatility and applicability of InfiNET's databases across various industries and domains.

InfiNET is committed to continuous improvement and future developments in its database ecosystem. The roadmap outlined in Section 6 emphasizes database optimization, cross-database interoperability, advanced data analytics, and community expansion. By optimizing performance, enabling seamless data exchange, empowering advanced analytics, and fostering collaboration, InfiNET aims to shape the future of decentralized data management and drive innovation in the industry.

InfiNET's database solutions are not only technologically advanced but also aligned with the principles of decentralization, data sovereignty, and user empowerment. By putting control and ownership of data back into the hands of individuals and organizations, InfiNET contributes to a more equitable and secure digital ecosystem.

In conclusion, InfiNET's innovative database solutions provide a robust foundation for decentralized data management. With their security, transparency, scalability, and privacy-enhancing features, InfiNET's databases offer a compelling alternative for businesses and organizations seeking to leverage the benefits of decentralized data storage and processing. By continuously advancing its technologies, fostering collaboration, and empowering its community, InfiNET is poised to revolutionize the way data is managed, unlocking new possibilities for businesses and driving the next wave of innovation in decentralized data management.

Thank you for your interest in InfiNET's database solutions. We invite you to join us on this transformative journey as we shape the future of decentralized data management together.

Section 8: References

1. Nakamoto, S. (2008). Bitcoin: A Peer-to-Peer Electronic Cash System. Retrieved from https://bitcoin.org/bitcoin.pdf

2. Buterin, V. (2014). Ethereum: A Next-Generation Smart Contract and Decentralized Application Platform. Retrieved from https://ethereum.org/whitepaper/

3. Wood, G. (2014). Ethereum: A Secure Decentralised Generalised Transaction Ledger. Retrieved from https://ethereum.org/pdfs/EthereumYellowPaper.pdf

4. Bonneau, J., Miller, A., Clark, J., Narayanan, A., Kroll, J. A., & Felten, E. W. (2015). SoK: Research Perspectives and Challenges for Bitcoin and Cryptocurrencies. IEEE Symposium on Security and Privacy.

5. Popov, S. (2018). The Tangle. Retrieved from https://www.iota.org/IOTA_Whitepaper.pdf

6. Sergey, I., Sergey, G., & Matthew, C. (2016). The Byzantine Generals Problem. ACM Transactions on Programming Languages and Systems.

7. Bano, S., Sonnino, A., Al-Bassam, M., Azouvi, S., McCorry, P., Meiklejohn, S., ... & Ford, B. (2017). Consensus in the Age of Blockchains. arXiv preprint arXiv:1711.03936.

8. Gervais, A., Karame, G. O., Capkun, S., & Capkun, V. (2016). Is Bitcoin a Decentralized Currency? IEEE Security & Privacy, 14(4), 54-60.

9. Dai, W. (1998). b-money. Retrieved from http://www.weidai.com/bmoney.txt

10. Szabo, N. (1997). Formalizing and Securing Relationships on Public Networks. First Monday, 2(9).

11. InfiNET Documentation. Retrieved from https://infinet.io/documentation

12. Quantum Computing for Everyone. (2020). Aram W. Harrow. Retrieved from https://www.cambridge.org/quantum-computing-for-everyone

13. Grover, L. K. (1996). A Fast Quantum Mechanical Algorithm for Database Search. Proceedings of the Twenty-eighth Annual ACM Symposium on the Theory of Computing, 212-219.

14. Shor, P. W. (1994). Algorithms for Quantum Computation: Discrete Logarithms and Factoring. Proceedings of the 35th Annual Symposium on Foundations of Computer Science, 124-134.

15. Preskill, J. (2018). Quantum Computing in the NISQ era and beyond. Quantum, 2, 79.

16. Microsoft Azure Quantum Documentation. Retrieved from https://docs.microsoft.com/azure/quantum/

17. IBM Quantum Documentation. Retrieved from https://quantum-computing.ibm.com/docs/

18. Quantum Cryptography. (2020). Thomas Lodewyckx, Jan Genoe, & Ivan Boev.

19. Quantum Computing. (2021). John Watrous. Retrieved from https://www.cambridge.org/quantumcomputing

20. Quantum Machine Learning. (2020). Peter Wittek. Retrieved from https://www.cambridge.org/quantum-machine-learning

Turn static files into dynamic content formats.

Create a flipbook
Issuu converts static files into: digital portfolios, online yearbooks, online catalogs, digital photo albums and more. Sign up and create your flipbook.