Saved in:
Bibliographic Details
Main Authors: Dinh, Thien-Nam, Pattengale, Nicholas, Elliott, Steven
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2301.10733
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866910478267056128
author Dinh, Thien-Nam
Pattengale, Nicholas
Elliott, Steven
author_facet Dinh, Thien-Nam
Pattengale, Nicholas
Elliott, Steven
contents The Synchronic Web is a distributed network for securing data provenance on the World Wide Web. By enabling clients around the world to freely commit digital information into a single shared view of history, it provides a foundational basis of truth on which to build decentralized and scalable trust across the Internet. Its core cryptographical capability allows mutually distrusting parties to create and verify statements of the following form: "I commit to this information--and only this information--at this moment in time." The backbone of the Synchronic Web infrastructure is a simple, small, and semantic-free blockchain that is accessible to any Internet-enabled entity. The infrastructure is maintained by a permissioned network of well-known servers, called notaries, and accessed by a permissionless group of clients, called ledgers. Through an evolving stack of flexible and composable semantic specifications, the parties cooperate to generate synchronic commitments over arbitrary data. When integrated with existing infrastructures, adapted to diverse domains, and scaled across the breadth of cyberspace, the Synchronic Web provides a ubiquitous mechanism to lock the world's data into unique points in discrete time and digital space.
format Preprint
id arxiv_https___arxiv_org_abs_2301_10733
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle The Synchronic Web
Dinh, Thien-Nam
Pattengale, Nicholas
Elliott, Steven
Cryptography and Security
The Synchronic Web is a distributed network for securing data provenance on the World Wide Web. By enabling clients around the world to freely commit digital information into a single shared view of history, it provides a foundational basis of truth on which to build decentralized and scalable trust across the Internet. Its core cryptographical capability allows mutually distrusting parties to create and verify statements of the following form: "I commit to this information--and only this information--at this moment in time." The backbone of the Synchronic Web infrastructure is a simple, small, and semantic-free blockchain that is accessible to any Internet-enabled entity. The infrastructure is maintained by a permissioned network of well-known servers, called notaries, and accessed by a permissionless group of clients, called ledgers. Through an evolving stack of flexible and composable semantic specifications, the parties cooperate to generate synchronic commitments over arbitrary data. When integrated with existing infrastructures, adapted to diverse domains, and scaled across the breadth of cyberspace, the Synchronic Web provides a ubiquitous mechanism to lock the world's data into unique points in discrete time and digital space.
title The Synchronic Web
topic Cryptography and Security
url https://arxiv.org/abs/2301.10733