Test Post (Medium)

by Max Tesla
Test Post (Medium)

We've made a research

Design a generalized state channels implementation that preserves privacy, is built using modular components, has support for multiple parallel operations inside a single channel, and allows users to upgrade channel designs without any on-chain operations.

Make it easy for developers to utilize state channels by providing a framework and standard modular components for building secure, performant applications.

Our paper (pdf) describes a state channels design that places as little on-chain as possible while still remaining secure. We believe it will become a standard reference for building secure and optimized state channels, something long-needed by the ethereum community.

Why have we made a research

Design a generalized state channels implementation that preserves privacy, is built using modular components, has support for multiple parallel operations inside a single channel, and allows users to upgrade channel designs without any on-chain operations.

Make it easy for developers to utilize state channels by providing a framework and standard modular components for building secure, performant applications.

Our paper (pdf) describes a state channels design that places as little on-chain as possible while still remaining secure. We believe it will become a standard reference for building secure and optimized state channels, something long-needed by the ethereum community.

What should business (companies) obtain from this research in future

Design a generalized state channels implementation that preserves privacy, is built using modular components, has support for multiple parallel operations inside a single channel, and allows users to upgrade channel designs without any on-chain operations.

Make it easy for developers to utilize state channels by providing a framework and standard modular components for building secure, performant applications.

Our paper (pdf) describes a state channels design that places as little on-chain as possible while still remaining secure. We believe it will become a standard reference for building secure and optimized state channels, something long-needed by the ethereum community.

How DAO.Casino helped us to conduct this research

Design a generalized state channels implementation that preserves privacy, is built using modular components, has support for multiple parallel operations inside a single channel, and allows users to upgrade channel designs without any on-chain operations.

Make it easy for developers to utilize state channels by providing a framework and standard modular components for building secure, performant applications.

Our paper (pdf) describes a state channels design that places as little on-chain as possible while still remaining secure. We believe it will become a standard reference for building secure and optimized state channels, something long-needed by the ethereum community.

Quotations from the MIT guy

Our paper (pdf) describes a state channels design that places as little on-chain as possible while still remaining secure. We believe it will become a standard reference for building secure and optimized state channels, something long-needed by the ethereum community.

Conclusion

Our paper (pdf) describes a state channels design that places as little on-chain as possible while still remaining secure. We believe it will become a standard reference for building secure and optimized state channels, something long-needed by the ethereum community.

November 19, 2018
by Max Tesla