Sandro Brunner scite author profile

Sandro Brunner

3Publications

74Citation Statements Received

33Citation Statements Given

How they've been cited

163

How they cite others

Affiliations

ZHAW Zurich University of Applied Sciences

Publications

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An architecture for self-managing microservices

Toffetti

Brunner

Blöchlinger

et al. 2015

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Running applications in the cloud efficiently requires much more than deploying software in virtual machines. Cloud applications have to be continuously managed: 1) to adjust their resources to the incoming load and 2) to face transient failures replicating and restarting components to provide resiliency on unreliable infrastructure. Continuous management monitors application and infrastructural metrics to provide automated and responsive reactions to failures (health management) and changing environmental conditions (autoscaling) minimizing human intervention.In the current practice, management functionalities are provided as infrastructural or third party services.In both cases they are external to the application deployment. We claim that this approach has intrinsic limits, namely that separating management functionalities from the application prevents them from naturally scaling with the application and requires additional management code and human intervention. Moreover, using infrastructure provider services for management functionalities results in vendor lock-in effectively preventing cloud applications to adapt and run on the most effective cloud for the job.In this position paper we propose a novel architecture that enables scalable and resilient self-management of microservices applications on cloud.

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Self-managing cloud-native applications: Design, implementation, and experience

Toffetti

Brunner

Blöchlinger

et al. 2017

Future Generation Computer Systems

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Running applications in the cloud efficiently requires much more than deploying software in virtual machines. Cloud applications have to be continuously managed : 1) to adjust their resources to the incoming load and 2) to face transient failures replicating and restarting components to provide resiliency on unreliable infrastructure. Continuous management monitors application and infrastructural metrics to provide automated and responsive reactions to failures (health management) and changing environmental conditions (auto-scaling) minimizing human intervention.In the current practice, management functionalities are provided as infrastructural or third party services. In both cases they are external to the application deployment. We claim that this approach has intrinsic limits, namely that separating management functionalities from the application prevents them from naturally scaling with the application and requires additional management code and human intervention. Moreover, using infrastructure provider services for management functionalities results in vendor lock-in effectively preventing cloud applications to adapt and run on the most effective cloud for the job.In this paper we discuss the main characteristics of cloud native applications, propose a novel architecture that enables scalable and resilient selfmanaging applications in the cloud, and relate on our experience in porting a legacy application to the cloud applying cloud-native principles.

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Experimental Evaluation of the Cloud-Native Application Design

Brunner

Blöchlinger

Toffetti

et al. 2015

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Cloud-Native Applications (CNA) are designed to run on top of cloud computing infrastructure services with inherent support for self-management, scalability and resilience across clustered units of application logic. Their systematic design is promising especially for recent hybrid virtual machine and container environments for which no dominant application development model exists. In this paper, we present a case study on a business application running as CNA and demonstrate the advantages of the design experimentally. We also present Dynamite, an application auto-scaler designed for containerised CNA. Our experiments on a Vagrant host, on a private OpenStack installation and on a public Amazon EC2 testbed show that CNA require little additional engineering.

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Sandro Brunner

An architecture for self-managing microservices

Self-managing cloud-native applications: Design, implementation, and experience

Experimental Evaluation of the Cloud-Native Application Design

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