Today,scientific research is increasingly becoming data-centric and compute-intensive,relying on data and models across distributed sources.However,challenges still exist in the traditional cooperation mode,given the ...Today,scientific research is increasingly becoming data-centric and compute-intensive,relying on data and models across distributed sources.However,challenges still exist in the traditional cooperation mode,given the high storage and computing costs,geolocation barriers,and local cofidentiality regulations.The Jupyter environment has recently emerged and evolved into a vital virtual research environment for scientific computing,which researchers can use to scale computational analyses up to larger datasets and high-performance computing resources.Nevertheless,existing approaches lack robust support of a decentralized cooperation mode to unlock the full potential of decentralized collaborative scientific research,e.g.,seamlessly secure data sharing.In this work,we change the basic structure and legacy norms of current research environments via the seamless integration of Jupyter with Ethereum blockchain capabilities.As such,it creates a Decentralized Virtual Research Environment(D-VRE)from private computational notebooks to a decentralized collaborative research ecosystem.We propose a novel architecture for the D-VRE and prototype some essential D-VRE elements for enabling secure data sharing with decentralized identity,user-centric agreement-making,membership,and research asset management.To validate our method,we conduct an experimental study to test all functionalities of D-VRE smart contracts and their gas consumption.In addition,we deploy the D-VRE prototype on a test net of the Ethereum blockchain for demonstration.The feedback from the studies showcases the current prototype’s usability,ease of use,and potential,and suggests further improvements.展开更多
文摘Today,scientific research is increasingly becoming data-centric and compute-intensive,relying on data and models across distributed sources.However,challenges still exist in the traditional cooperation mode,given the high storage and computing costs,geolocation barriers,and local cofidentiality regulations.The Jupyter environment has recently emerged and evolved into a vital virtual research environment for scientific computing,which researchers can use to scale computational analyses up to larger datasets and high-performance computing resources.Nevertheless,existing approaches lack robust support of a decentralized cooperation mode to unlock the full potential of decentralized collaborative scientific research,e.g.,seamlessly secure data sharing.In this work,we change the basic structure and legacy norms of current research environments via the seamless integration of Jupyter with Ethereum blockchain capabilities.As such,it creates a Decentralized Virtual Research Environment(D-VRE)from private computational notebooks to a decentralized collaborative research ecosystem.We propose a novel architecture for the D-VRE and prototype some essential D-VRE elements for enabling secure data sharing with decentralized identity,user-centric agreement-making,membership,and research asset management.To validate our method,we conduct an experimental study to test all functionalities of D-VRE smart contracts and their gas consumption.In addition,we deploy the D-VRE prototype on a test net of the Ethereum blockchain for demonstration.The feedback from the studies showcases the current prototype’s usability,ease of use,and potential,and suggests further improvements.
