Software Architecture in Golang: Resilience in HTTP Servers

Software Architecture in Golang: Resilience in HTTP Servers

AWS re:Invent 2023 - Resilience lifecycle: A mental model for resilience on AWS (ARC312)Подробнее

AWS re:Invent 2023 - Resilience lifecycle: A mental model for resilience on AWS (ARC312)

AWS re:Invent 2023 - Using zonal autoshift to automatically recover from an AZ impairment (ARC309)Подробнее

AWS re:Invent 2023 - Using zonal autoshift to automatically recover from an AZ impairment (ARC309)

AWS re:Invent 2023 - Best practices for creating multi-Region architectures on AWS (ARC308)Подробнее

AWS re:Invent 2023 - Best practices for creating multi-Region architectures on AWS (ARC308)

AWS re:Invent 2023 - Resilient architectures at scale: Real-world use cases from Amazon.com (ARC305)Подробнее

AWS re:Invent 2023 - Resilient architectures at scale: Real-world use cases from Amazon.com (ARC305)

AWS re:Invent 2023 - Amazon Aurora HA and DR design patterns for global resilience (DAT324)Подробнее

AWS re:Invent 2023 - Amazon Aurora HA and DR design patterns for global resilience (DAT324)

AWS re:Invent 2023 - SaaS deep dive: Inside a scalable, efficient multi-tenant architecture (SAS304)Подробнее

AWS re:Invent 2023 - SaaS deep dive: Inside a scalable, efficient multi-tenant architecture (SAS304)

AWS re:Invent 2022 - Build resilient architectures with Amazon EBS (STG219)Подробнее

AWS re:Invent 2022 - Build resilient architectures with Amazon EBS (STG219)

AWS re:Invent 2022 - Building confidence through chaos engineering on AWS (ARC307)Подробнее

AWS re:Invent 2022 - Building confidence through chaos engineering on AWS (ARC307)

AWS re:Invent 2022 - Beyond five 9s: Lessons from our highest available data planes (ARC310)Подробнее

AWS re:Invent 2022 - Beyond five 9s: Lessons from our highest available data planes (ARC310)

AWS re:Invent 2022 - Operating highly available Multi-AZ applications (ARC329)Подробнее

AWS re:Invent 2022 - Operating highly available Multi-AZ applications (ARC329)

AWS Summit ANZ 2022 - Build resilient microservices using fault-tolerant patterns (DEV5)Подробнее

AWS Summit ANZ 2022 - Build resilient microservices using fault-tolerant patterns (DEV5)

AWS Summit ANZ 2021 - Everything fails, all the time: Designing for resilienceПодробнее

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3 Ways to Increase System ResilienceПодробнее

3 Ways to Increase System Resilience

Software Architecture in Golang: Caching Pattern: Write-Through for ScalabilityПодробнее

Software Architecture in Golang: Caching Pattern: Write-Through for Scalability

AWS re:Invent 2020: AWS networking: A global network for your workloadПодробнее

AWS re:Invent 2020: AWS networking: A global network for your workload

Deconstructing Web frameworks for a more resilient code base - Hubert SablonnièreПодробнее

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Joseph Woodward - Improving System Resiliency via Chaos EngineeringПодробнее

Joseph Woodward - Improving System Resiliency via Chaos Engineering

Frontend Resilience - Ian Feather | DeltaV 2018Подробнее

Frontend Resilience - Ian Feather | DeltaV 2018

AWS re:Invent 2017: Building Resilient, Multi-Region Serverless Applications (SRV313)Подробнее

AWS re:Invent 2017: Building Resilient, Multi-Region Serverless Applications (SRV313)

Актуальное