Nikos Diamantopoulos scite author profile

Nikos Diamantopoulos

4Publications

16Citation Statements Received

31Citation Statements Given

How they've been cited

How they cite others

Affiliations

Netflix (United States), National Infrastructures for Research and Technology - GRNET S.A, Technological Educational Institute of Athens

Publications

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Engineering for a science-centric experimentation platform

Diamantopoulos

Wong

Mattos

et al. 2020

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Netflix is an internet entertainment service that routinely employs experimentation to guide strategy around product innovations. As Netflix grew, it had the opportunity to explore increasingly specialized improvements to its service, which generated demand for deeper analyses supported by richer metrics and powered by more diverse statistical methodologies. To facilitate this, and more fully harness the skill sets of both engineering and data science, Netflix engineers created a science-centric experimentation platform that leverages the expertise of scientists from a wide range of backgrounds working on data science tasks by allowing them to make direct code contributions in the languages used by them (Python and R). Moreover, the same code that runs in production is able to be run locally, making it straightforward to explore and graduate both metrics and causal inference methodologies directly into production services.In this paper, we provide two main contributions. Firstly, we report on the architecture of this platform, with a special emphasis on its novel aspects: how it supports science-centric end-to-end workflows without compromising engineering requirements. Secondly, we describe its approach to causal inference, which leverages the potential outcomes conceptual framework to provide a unified abstraction layer for arbitrary statistical models and methodologies.

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Developing a Metadata Application Profile for Sharing Agricultural Scientific and Scholarly Research Resources

Diamantopoulos

Sgouropoulou

Kastrantas³

et al. 2011

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Abstract. This article describes the development of the VOA 3 R Metadata Application Profile to facilitate the description, dissemination and reuse of research results in the fields of Agriculture and Aquaculture within a federation of open access repositories. VOA 3 R is a research project aspiring to deploy an advanced, community-focused integrated platform for the retrieval of relevant open content and data that supports explicit models of the scholarly lifecycle and the practical tasks targeted by applied research. The article details the phased implementation of the core VOA 3 R application profile relating to the description of scholarly resources. The development process has been based upon the methodology and components of the Singapore Framework for Dublin Core Application Profiles: functional requirements, domain model, description set profile, usage guidelines and data format. Maximum interoperability, reuse of existing mature metadata standards, long-term quality control and extensibility for addressing further community needs, constitute the main benefits of this approach.

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GLT: Edge Gateway ELT for Data-Driven Intelligence Placement

Theodorou

Diamantopoulos

2019

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Engineering for a Science-Centric Experimentation Platform

Diamantopoulos¹,

Wong²,

Mattos³

et al. 2019

Preprint

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Netflix is an internet entertainment service that routinely employs experimentation to guide strategy around product innovations. As Netflix grew, it had the opportunity to explore increasingly specialized improvements to its service, which generated demand for deeper analyses supported by richer metrics and powered by more diverse statistical methodologies. To facilitate this, and more fully harness the skill sets of both engineering and data science, Netflix engineers created a science-centric experimentation platform that leverages the expertise of data scientists from a wide range of backgrounds by allowing them to make direct code contributions in the languages used by scientists (Python and R). Moreover, the same code that runs in production is able to be run locally, making it straightforward to explore and graduate both metrics and causal inference methodologies directly into production services.In this paper, we utilize a case-study research method to provide two main contributions. Firstly, we report on the architecture of this platform, with a special emphasis on its novel aspects: how it supports science-centric end-to-end workflows without compromising engineering requirements. Secondly, we describe its approach to causal inference, which leverages the potential outcomes conceptual framework to provide a unified abstraction layer for arbitrary statistical models and methodologies.

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