Andres Quiroz scite author profile

Clouds have evolved as the next generation platform that facilitates creation of widearea on-demand renting of computing or storage services for hosting application services that experience highly variable workloads and requires high availability and performance. Inter-connecting Cloud computing system components (servers, VMs, application services) through peer-to-peer routing and information dissemination structure is essential to avoid the problems of provisioning efficiency bottleneck and single point of failure that are predominantly associated with traditional centralized or hierarchical approaches. These limitations can be overcome by connecting Cloud system components using a structured peer-to-peer network model (such as Distributed Hash Tables (DHTs)). DHTs offer deterministic information/query routing and discovery with close to logarithmic bounds with regards to network message complexity. By maintaining a small routing state of O (log n) per VM, a DHT structure guarantees deterministic look ups in a completely decentralized and distributed manner. This chapter presents: (i) a layered peer-to-peer Cloud provisioning architecture; (ii) a summary of the current state-of-the-art in Cloud provisioning with particular emphasis on service discovery and load-balancing; (iii) a classification of the existing peer-to-peer network management model with focus on extending the DHTs for indexing and managing complex provisioning information; and (iv) the design and implementation of novel, extensible software fabric (Cloud peer) that combines public/private clouds, overlay networking and structured peer-to-peer indexing techniques for supporting scalable and self-managing service discovery and load-balancing in Cloud computing environments. Finally, an experimental evaluation is presented that demonstrates the feasibility of building next generation Cloud provisioning systems based on peer-to-peer network management and information dissemination models. The experimental test-bed has been deployed on a public cloud computing platform, Amazon EC2, which demonstrates the effectiveness of the proposed peer-to-peer Cloud provisioning software fabric.

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Energy-efficient application-aware online provisioning for virtualized clouds and data centers

Rodero

Jaramillo

Quiroz

et al. 2010

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Robust clustering analysis for the management of self-monitoring distributed systems

et al. 2008

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We present a decentralized algorithm for online clustering analysis used for anomaly detection in selfmonitoring distributed systems. In particular, we demonstrate the monitoring of a network of printing devices that can perform the analysis without the use of external computing resources (i.e. in-network analysis). We also show how to ensure the robustness of the algorithm, in terms of anomaly detection accuracy, in the face of failures of the network infrastructure on which the algorithm runs. Further, we evaluate the tradeoff in terms of overhead necessary for ensuring this robustness and present a method to reduce this overhead while maintaining the detection accuracy of the algorithm.

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Design and evaluation of decentralized online clustering

Quiroz

Parashar

Gnanasambandam

et al. 2012

ACM Trans. Auton. Adapt. Syst.

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Ensuring the efficient and robust operation of distributed computational infrastructures is critical, given that their scale and overall complexity is growing at an alarming rate and that their management is rapidly exceeding human capability. Clustering analysis can be used to find patterns and trends in system operational data, as well as highlight deviations from these patterns. Such analysis can be essential for verifying the correctness and efficiency of the operation of the system, as well as for discovering specific situations of interest, such as anomalies or faults, that require appropriate management actions.This work analyzes the automated application of clustering for online system management, from the point of view of the suitability of different clustering approaches for the online analysis of system data in a distributed environment, with minimal prior knowledge and within a timeframe that allows the timely interpretation of and response to clustering results. For this purpose, we evaluate DOC (Decentralized Online Clustering), a clustering algorithm designed to support data analysis for autonomic management, and compare it to existing and widely used clustering algorithms. The comparative evaluations will show that DOC achieves a good balance in the trade-offs inherent in the challenges for this type of online management.

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Andres Quiroz

Towards autonomic workload provisioning for enterprise Grids and clouds

Peer-to-Peer Cloud Provisioning: Service Discovery and Load-Balancing

Energy-efficient application-aware online provisioning for virtualized clouds and data centers

Robust clustering analysis for the management of self-monitoring distributed systems

Design and evaluation of decentralized online clustering

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