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Arcium: Parallelized Confidential Computing Network - Yannik Schrade
Manage episode 438563768 series 41400
In this day and age, privacy and confidentiality are more important than ever. Advancements in the cryptographic research of zero knowledge proofs (ZKPs), fully homomorphic encryption (FHE) and multi-party computation (MPC) paved the way for computational integrity and confidential computing. While FHE allows for computation to be performed on encrypted data without the need for prior decryption, it is MPC that enables compliance with regulations (e.g. AML). Arcium aims to build a global super computer for parallelised confidential computing, powered by custom MXEs (multi-party computation execution environments).
Topics covered in this episode:
- Yannik’s background
- Confidentiality & decentralised compliance
- Confidential computing
- TEEs (trusted execution environments) & side-channel attacks
- ZKP vs. MPC vs. FHE
- Arcium’s global super computer architecture
- How Arcium differentiates itself from other privacy protocols
- Use cases
- Censorship risks
- Ecosystem development
Episode links:
Sponsors:
- Gnosis: Gnosis builds decentralized infrastructure for the Ethereum ecosystem, since 2015. This year marks the launch of Gnosis Pay— the world's first Decentralized Payment Network. Get started today at - gnosis.io
- Chorus1: Chorus1 is one of the largest node operators worldwide, supporting more than 100,000 delegators, across 45 networks. The recently launched OPUS allows staking up to 8,000 ETH in a single transaction. Enjoy the highest yields and institutional grade security at - chorus.one
This episode is hosted by Sebastien Couture & Felix Lutsch.
848 jaksoa
Arcium: Parallelized Confidential Computing Network - Yannik Schrade
Epicenter - Learn about Crypto, Blockchain, Ethereum, Bitcoin and Distributed Technologies
Manage episode 438563768 series 41400
In this day and age, privacy and confidentiality are more important than ever. Advancements in the cryptographic research of zero knowledge proofs (ZKPs), fully homomorphic encryption (FHE) and multi-party computation (MPC) paved the way for computational integrity and confidential computing. While FHE allows for computation to be performed on encrypted data without the need for prior decryption, it is MPC that enables compliance with regulations (e.g. AML). Arcium aims to build a global super computer for parallelised confidential computing, powered by custom MXEs (multi-party computation execution environments).
Topics covered in this episode:
- Yannik’s background
- Confidentiality & decentralised compliance
- Confidential computing
- TEEs (trusted execution environments) & side-channel attacks
- ZKP vs. MPC vs. FHE
- Arcium’s global super computer architecture
- How Arcium differentiates itself from other privacy protocols
- Use cases
- Censorship risks
- Ecosystem development
Episode links:
Sponsors:
- Gnosis: Gnosis builds decentralized infrastructure for the Ethereum ecosystem, since 2015. This year marks the launch of Gnosis Pay— the world's first Decentralized Payment Network. Get started today at - gnosis.io
- Chorus1: Chorus1 is one of the largest node operators worldwide, supporting more than 100,000 delegators, across 45 networks. The recently launched OPUS allows staking up to 8,000 ETH in a single transaction. Enjoy the highest yields and institutional grade security at - chorus.one
This episode is hosted by Sebastien Couture & Felix Lutsch.
848 jaksoa
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