![]() The project extends commonly used authoritative nameserver software with native support for authenticated DNSSEC bootstrapping (draft-ietf-dnsop-dnssec-bootstrapping). ![]() It is largely due to this "DNSSEC bootstrapping problem" that only about 6% of the Top 1M domains are securely delegated (Tranco, 06/2022). The second step has long posed a problem, as it requires (often manual) transfer of information from the domain's operator to the parent (usually the top-level domain). Turning on DNSSEC for a domain involves (1) signing the domain's DNS zone content and (2) adding the signature public key to the chain of trust. > Read more about Atomic Data Authenticated DNSSEC bootstrapping - Secure in-band announcements of DNSSEC parameters We'll add functionality, improve stability and testing, improve documentation and create materials that help developers to get started. In this project, we'll work on the MIT licensed atomic-server and atomic-data-browser, which are a graph database server and a modular web-gui that enable users to model, share and edit atomic data. It is type-safe linked data (a strict subset of RDF), which is also fully compatible with regular JSON. It is designed to be highly extensible, easy to use, and to make the process of domain specific standardization as simple as possible. Atomic Data is especially suitable for knowledge graphs, distributed datasets, semantic data, p2p applications, decentralized apps and linked open data. It uses links to connect pieces of data, and therefore makes it easier to connect datasets to each other - even when these datasets exist on separate machines. > Read more about 0KNOW Atomic Data - Typesafe handling of LinkedDataĪtomic Data is a modular specification for sharing, modifying and modeling graph data. In 0KNOW, we will focus on NP group-theoretic problems and design GT-ZKP by finding an appropriate platform group based on the selected difficult problem considering its applicability in the post-quantum era and we will develop an open-source implementation of GT-ZKP. GT-ZKP can be seen as a reusable building block for making the future internet trustworthy and secure. They are widely used to preserve confidentiality and ownership of data. The overall goal of 0KNOW is to develop a lightweight group-theoretic zero-knowledge proof (GT-ZKP) system that can be employed as a cryptographic primitive in many security protocols such as identification, authentication, or credential ownership. Zero-knowledge proof (ZKP) systems help principals verify the veracity of a piece of information without sharing the data. 0KNOW - Group Theoretic Zero-knowledge Proofs (0KNOW) Applications are still open, you can apply today.
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