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Fix: the per-page resource search box with maturity tag-pills stopped appearing after navigation.instant was enabled (DOMContentLoaded fires only on first SPA load). Reworked v2_filter.js to init via Material's document$ observable with a DOMContentLoaded fallback, guard double-injection, bind the clickable-tag delegation once, and add a no-results state. Cache-bust ?v=2.9.12. Change: removed the duplicated Markdown "## Table of Contents" from all 156 V2 content pages and from v2_optimizer.py — it forced hundreds of links of scroll on large pages. Replaced by Material's native sticky "On this page" TOC (removed toc.integrate, added toc.follow). tags.md keeps its TOC (it is an index). Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
51 lines
6.7 KiB
Markdown
51 lines
6.7 KiB
Markdown
# Customer Success Stories. Cloud Native Projects
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!!! tip "Nubenetes V2 Elite Portal"
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You are browsing the AI-Curated V2 Elite Edition. Looking for the exhaustive list of references? Check out the [**V1 Historical Archive**](/v1/customer/).
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!!! info "Architectural Context"
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Detailed reference for Customer Success Stories. Cloud Native Projects in the context of Architectural Foundations.
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## Cloud Platform
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### Bioinformatics
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#### High-Performance Computing
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- **(2022)** [==aws.amazon.com: AstraZeneca’s Drug Design Program Built using AWS wins Innovation Award==](https://aws.amazon.com/blogs/industries/astrazenecas-drug-design-program-built-using-aws-wins-innovation-award) <span class='md-tag md-tag--critical'>[ADVANCED LEVEL]</span> 🌟🌟🌟🌟🌟 <span class='md-tag md-tag--secondary'>[CASE STUDY]</span> <span class='md-tag md-tag--success'>[DE FACTO STANDARD]</span> — Analyzes AstraZeneca's cloud-native molecular drug design framework, which earned an AWS Innovation Award. The architecture leverages AWS high-performance computing (HPC) and serverless batch processing to run massive, parallel virtual screenings and machine learning models. This scalable platform drastically reduces the time needed to evaluate candidate compounds, showcasing cloud infrastructure as a force multiplier in pharmaceutical research.
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### Healthcare Tech
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#### Medical Imaging Platforms
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- **(2023)** [**aws.amazon.com: Accelerating radiology imaging workflows with relevant clinical context on AWS**](https://aws.amazon.com/blogs/industries/accelerating-radiology-imaging-workflows-with-relevant-clinical-context-on-aws) <span class='md-tag md-tag--critical'>[ADVANCED LEVEL]</span> 🌟🌟🌟🌟 <span class='md-tag md-tag--success'>[ENTERPRISE-STABLE]</span> — Focuses on accelerating radiology imaging workflows using serverless AWS services to contextualize clinical data. The architecture integrates Picture Archiving and Communication Systems (PACS) with Electronic Health Records (EHR) through serverless APIs and machine learning processing, delivering contextualized, real-time insights to radiologists. This reduces latency in diagnostics while maintaining compliance with HIPAA standards.
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## Infrastructure Orchestration
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### Cloud Security
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#### Runtime Security
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- **(2022)** [==falco.org/about/case-studies/incepto-medical: Protect shared clusters for medical imaging==](https://falco.org/about/case-studies/incepto-medical) <span class='md-tag md-tag--critical'>[ADVANCED LEVEL]</span> 🌟🌟🌟🌟🌟 <span class='md-tag md-tag--secondary'>[CASE STUDY]</span> <span class='md-tag md-tag--success'>[DE FACTO STANDARD]</span> — Shows how Incepto Medical leverages Falco to secure multi-tenant Kubernetes clusters processing highly-sensitive patient medical imaging. Falco detects anomalous runtime container activity, raw system calls, and unauthorized namespace access in real-time. This runtime instrumentation enables compliance with stringent medical data privacy regulations (e.g., GDPR, HIPAA) without introducing heavy performance overhead to GPU-intensive AI inference workloads.
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## Organizational Culture
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### Migration Journeys
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#### BMW Group
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- **(2021)** [linkedin.com/pulse: How BMW uses Redhat OpenShift?](https://www.linkedin.com/pulse/how-bmw-uses-redhat-openshift-bobby-singh) <span class='md-tag md-tag--warning'>[N/A CONTENT]</span> <span class='md-tag md-tag--info'>[COMMUNITY-TOOL]</span> — Curator Insight outlines the functional details of how BMW Group integrated Red Hat OpenShift to power their connected car ecosystem. Live Grounding verifies that OpenShift clusters serve as the backbones for real-time telemetry processing, enabling secure, low-latency API interactions with vehicles globally.
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- **(2020)** [Red Hat OpenShift Container Platform Takes Digital Innovation into the Fast Lane with Major European Automaker](https://www.redhat.com/es/about/press-releases/red-hat-openshift-container-platform-takes-digital-innovation-fast-lane-major-european-automaker) <span class='md-tag md-tag--warning'>[SPANISH CONTENT]</span> <span class='md-tag md-tag--info'>[COMMUNITY-TOOL]</span> — Curator Insight documents a major European automaker (BMW Group) adopting Red Hat OpenShift to streamline application delivery. Live Grounding confirms this as a milestone enterprise container deployment, using OpenShift to drive autonomous driving workloads and predictive maintenance across dynamic multi-cloud environments.
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- **(2020)** [BMW takes digital innovation into the fast lane with Red Hat Openshift Container Platform](https://www.linkedin.com/pulse/bmw-takes-digital-innovation-fast-lane-red-hat-openshift-mendus) <span class='md-tag md-tag--warning'>[N/A CONTENT]</span> <span class='md-tag md-tag--info'>[COMMUNITY-TOOL]</span> — Curator Insight highlights the strategic cloud-native alignment of BMW with Red Hat OpenShift to run critical manufacturing systems. Live Grounding outlines how hybrid cloud infrastructure allows the enterprise to standardize edge environments at assembly plants while maintaining dynamic cloud scalability.
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- **(2018)** [Youtube: BMW enables the BMW Group to deliver the continuous service that today's consumers expect (video starts at 1:29:00)](https://www.youtube.com/watch?time_continue=5340&v=FUu4kMc0PL8) <span class='md-tag md-tag--warning'>[N/A CONTENT]</span> <span class='md-tag md-tag--critical'>[LEGACY]</span> — Curator Insight shares a keynote detailing how OpenShift and cloud-native design enabled BMW to execute zero-downtime microservice updates. Live Grounding validates this transformation as a key paradigm shift, proving that legacy automotive giants can achieve fast, continuous release cycles safely.
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## System Architecture
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### Messaging Systems
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#### Event-Driven Microservices
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- **(2023)** [==quarkus.io: VCStream: a new messaging platform for DECATHLON’s Value Chain, built on Quarkus==](https://quarkus.io/blog/decathlon-user-story) <span class='md-tag md-tag--critical'>[ADVANCED LEVEL]</span> 🌟🌟🌟🌟🌟 <span class='md-tag md-tag--secondary'>[CASE STUDY]</span> <span class='md-tag md-tag--success'>[DE FACTO STANDARD]</span> — Outlines Decathlon's development of VCStream, a high-throughput messaging platform built on Quarkus to optimize its global supply and value chain. Quarkus's sub-atomic, reactive execution model allowed Decathlon to dramatically reduce memory footprint and startup times compared to traditional Spring Boot setups. The architecture utilizes reactive streams and Kafka integrations to deliver real-time data synchronization at scale.
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---
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💡 **Explore Related:** [About](./about.md) | [Demos](./demos.md) | [Kubernetes](./kubernetes.md)
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🔗 **See Also:** [Postman](./postman.md) | [Angular](./angular.md)
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