Abstract

It was proposed that Blockchain networks would serve some of Contemporary societies’ most important functions. If used in such capacity, blockchain network failures include catastrophes stretching beyond citizens, organizations and nations. As such, the highest levels of analytic and scientific validation for blockchain network protocols must be performed prior to widespread implementation subject to key protection, trust and efficiency. Though, the size of blockchain open-access systems in their imagined scale preclude the likelihood of exact reprocessing and replication in a laboratory setting when conducting analytical evaluations. Instead, it is important to consider abstract operating models – simulators – of proposed technologies. Such simulators must be verified by the scientific community, be highly transparent and reusable to ensure that concept concepts are applied and comparable easily and reliably as instruments for the research industry. We say it will help resolve this need by developing paradigms in information technology, including model-driven creation and product lineages. We define our efforts to build an efficiency and efficient derived domain meta-model and object-focused architecture for the advanced blockchain network modules.