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Modern Storage Meets Cyber Resilience: The Rubrik and Pure Storage Solution Architecture for Unstructured Data

Pure Storage

Pure Storage and Rubrik are expanding their partnership to offer a holistic and secure reference architecture that tackles the challenges of managing and securing unstructured data at scale. It ensures high availability with advanced data recovery and protection features, preventing performance bottlenecks.

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Considerations for Disaster Recovery – Part 2: Compute

Zerto

Let’s dive in and ensure your DR environment is as resilient and reliable as it needs to be. Being able to choose between different compute architectures, such as Intel and AMD, is essential for maintaining flexibility in your DR strategy. You must maintain your freedom of choice.

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Journey to Adopt Cloud-Native Architecture Series: #3 – Improved Resilience and Standardized Observability

AWS Disaster Recovery

In this blog, we talk about architecture patterns to improve system resiliency, why observability matters, and how to build a holistic observability solution. Increase resiliency. In the following sections, we show you the steps we took to improve system resiliency for our example company. Predictive scaling for EC2.

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FlashBlade//EXA Has Arrived – The Data Storage Platform to Transform Large-scale AI and HPC

Pure Storage

Traditional high-performance storage architectures have been built on parallel file systems and were designed and optimized for traditional, dedicated high-performance computing (HPC) environments. Traditional architectures, built for sequential access, cant keep up.

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IT Resilience Within AWS Cloud, Part II: Architecture and Patterns

AWS Disaster Recovery

In Part I of this two-part blog , we outlined best practices to consider when building resilient applications in hybrid on-premises/cloud environments. In Part II, we’ll provide technical considerations related to architecture and patterns for resilience in AWS Cloud. Considerations on architecture and patterns.

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Using Route 53 Private Hosted Zones for Cross-account Multi-region Architectures

AWS Disaster Recovery

Route 53 Private Hosted Zones (PHZs) and Resolver endpoints on AWS create an architecture best practice for centralized DNS in hybrid cloud environment. This blog presents an architecture that provides a unified view of the DNS while allowing different AWS accounts to manage subdomains. Architecture Overview.

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Unlocking the Secrets of Uninterrupted IT Operations: Demystifying High Availability and Disaster Recovery

Zerto

In the challenging landscape of keeping your IT operations online all the time, understanding the contrasting methodologies of high availability (HA) and disaster recovery (DR) is paramount. Here, we delve into HA and DR, the dynamic duo of application resilience. What Is High Availability?