Webinar Announcement: Vaultree FHE
On Thursday, 18th July, at 10AM PST / 6 PM BST, Vaultree will be hosting an exclusive webinar wherein experts in the field of data security, cryptography, AI/ML and cybercrime will delve into and discuss Vaultree’s latest advancements in Fully Homomorphic Encryption (FHE).
Hosted by Vaultree Co-Founder and CEO Ryan Lasmaili, this event promises insightful discussions on the past, present and future of FHE and how Vaultree has cracked what others have deemed impossible up until now, implementing real-world applicable FHE for the very first time.
Click here to register:
https://share.hsforms.com/1BHktpol2S7uGC1Efrf4W7w524b2
Our Speakers
Be sure to tune in and hear from the experts:
- Ryan Lasmaili: CEO of Vaultree and expert in data-in-use encryption, seeking to change the world through data enablement.
- Rik Ferguson: Vice President of Security Intelligence at Forescout, renowned for his research on cybercrime and future technologies.
- Dr Jacob Mendel: Renowned cybersecurity expert with over two decades of experience in emerging businesses, specialising in Cybersecurity, Blockchain, AI/ML, and Crypto.
- Melissa Duke: Vaultree AI/ML lead, pursues, daily, the optimisation of complex systems through the analysis of algorithms, machine learning and automation.
- Anil Kumar Pradhan: Vaultree Cryptography Research Lead, a cryptography expert holding several patents in the field.
If you're interested in the future of data security, enablement and combating rising cybercrime, this webinar is a must-attend. Gain valuable insights on how Vaultree can empower your organisation to leverage data securely, overcoming previous limitations due to security and compliance issues. Discover how near real-time operations can become a reality, allowing you to push through barriers and achieve more with your data.
FHE Overview
Definition and Significance
The term "homomorphic" comes from the Greek words "homos" (meaning "same") and "morphe" (meaning "form" or "shape"). Homomorphic encryption is a form of encryption that enables computations on encrypted data without requiring decryption. This ensures data remains protected throughout its entire lifecycle, fundamentally changing how organisations approach data security and utility for the better.
Origins and Development
FHE was first theorised by Shafi Goldwasser, Silvio Micali, and Charles Rackoff in 1978, with practical implementation achieved by Craig Gentry in 2009. This breakthrough paved the way for real-world applications of FHE in data processing.
Recent Progressions:
- 2014: Google AI's bootstrapping approach made FHE more practical.
- 2015: Columbia University's Levelled FHE (L-FHE) allowed granular access control.
- 2016: University of Waterloo's predictive encryption scheme enabled condition-based computations.
- 2017: MIT's secure multi-party computation (SMC) facilitated computations on data held by multiple parties without data exposure.
- 2018: IBM's oblivious RAM (ORAM) allowed private computations on encrypted data in cloud environments.
Characteristics of FHE:
- Secure Data Sharing: Enables secure collaboration on sensitive data without revealing underlying information.
- Advanced Data Analytics: Allows extraction of actionable insights from encrypted data, enhancing utility while maintaining security.
- Zero-Knowledge Proofs: Ensures that the party performing computations gains no knowledge about the input data other than the output, adding an extra layer of security.
Vaultree's Contribution
Vaultree’s FHE technology has overcome previous limitations, allowing real-time encrypted data operations at speeds comparable to plaintext processing. This breakthrough ensures sensitive data remains protected throughout its lifecycle, eliminating the need for decryption and significantly reducing the risk of data breaches. Our achievements include:
- Enabling real-time encrypted data analysis and processing.
- Developing scalable and efficient encryption protocols.
- Maintaining compliance with global data protection standards like GDPR and HIPAA.
- Revolutionising data security for industries such as healthcare and finance.
Secure Enablement
With these achievements comes a new world of secure data enablement, allowing your organisation to:
- Real-Time Encrypted Data Operations: Allows for secure, near real-time processing and analysis of encrypted data without decryption.
- Enhanced Data Privacy: Ensures that data remains encrypted during all stages of its lifecycle, significantly reducing the risk of data breaches.
- Regulatory Compliance: Meets and exceeds global data protection standards such as GDPR and HIPAA.
- Scalable Solutions: Supports extensive data volumes and complex models, maintaining performance and security.
- Actionable Insights: Provides secure, advanced analytics on encrypted data, enabling actionable insights while preserving data integrity and confidentiality.
To find out more about Vaultree FHE and how we are changing the world through secure data enablement, register now and stay ahead of the ever-evolving landscape of cybersecurity.
https://share.hsforms.com/1BHktpol2S7uGC1Efrf4W7w524b2
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