Paul Castro scite author profile

Serverless computing has emerged as a new compelling paradigm for the deployment of applications and services. It represents an evolution of cloud programming models, abstractions, and platforms, and is a testament to the maturity and wide adoption of cloud technologies. In this chapter, we survey existing serverless platforms from industry, academia, and open source projects, identify key characteristics and use cases, and describe technical challenges and open problems.

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Characterizing mobility and network usage in a corporate wireless local-area network

Balazinska¹,

Castro²

2003

390

310

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Wireless local-area networks are becoming increasingly popular. They are commonplace on university campuses and inside corporations, and they have started to appear in public areas [17]. It is thus becoming increasingly important to understand user mobility patterns and network usage characteristics on wireless networks. Such an understanding would guide the design of applications geared toward mobile environments (e.g., pervasive computing applications), would help improve simulation tools by providing a more representative workload and better user mobility models, and could result in a more effective deployment of wireless network components.Several studies have recently been performed on wireless university campus networks and public networks. In this paper, we complement previous research by presenting results from a four week trace collected in a large corporate environment. We study user mobility patterns and introduce new metrics to model user mobility. We also analyze user and load distribution across access points. We compare our results with those from previous studies to extract and explain several network usage and mobility characteristics.We find that average user transfer-rates follow a power law. Load is unevenly distributed across access points and is influenced more by which users are present than by the number of users. We model user mobility with persistence and prevalence. Persistence reflects session durations whereas prevalence reflects the frequency with which users visit various locations. We find that the probability distributions of both measures follow power laws.

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A Probabilistic Room Location Service for Wireless Networked Environments

Castro¹,

Chiu

Kremenek³

et al. 2001

322

256

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Community Discovery via Metagraph Factorization

Lin

Sun

Sundaram

et al. 2011

ACM Trans. Knowl. Discov. Data

118

166

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This work aims at discovering community structure in rich media social networks through analysis of timevarying, multirelational data. Community structure represents the latent social context of user actions. It has important applications such as search and recommendation. The problem is particularly useful in the enterprise domain, where extracting emergent community structure on enterprise social media can help in forming new collaborative teams, in expertise discovery, and in the long term reorganization of enterprises based on collaboration patterns. There are several unique challenges: (a) In social media, the context of user actions is constantly changing and coevolving; hence the social context contains time-evolving multidimensional relations. (b) The social context is determined by the available system features and is unique in each social media platform; hence the analysis of such data needs to flexibly incorporate various system features. In this article we propose MetaFac (MetaGraph Factorization), a framework that extracts community structures from dynamic, multidimensional social contexts and interactions. Our work has three key contributions: (1) metagraph, a novel relational hypergraph representation for modeling multirelational and multidimensional social data; (2) an efficient multirelational factorization method for community extraction on a given metagraph; (3) an online method to handle time-varying relations through incremental metagraph factorization. Extensive experiments on real-world social data collected from an enterprise and the public Digg social media Web site suggest that our technique is scalable and is able to extract meaningful communities from social media contexts. We illustrate the usefulness of our framework through two prediction tasks: (1) in the enterprise dataset, the task is to predict users' future interests on tag usage, and (2) in the Digg dataset, the task is to predict users' future interests in voting and commenting on Digg stories. Our prediction significantly outperforms baseline methods (including aspect model and tensor analysis), indicating the promising direction of using metagraphs for handling time-varying social relational contexts.

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The rise of serverless computing

et al. 2019

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The server is dead, long live the server. BY PAUL CASTRO, VATCHE ISHAKIAN, VINOD MUTHUSAMY, AND ALEKSANDER SLOMINSKI key insights ˽ Serverless computing takes the original promises of cloud computing and delivers true pay only for resources used with almost infinite scalability while hiding the details of how servers are used and maintained. ˽ Serverless computing is a new cloud computing paradigm with enormous economic growth potential. ˽ Serverless computing allows the developer to focus on developing business logic and gives the cloud provider additional control over optimizing resources. ˽ There are many technical challenges and opportunities for research.

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Paul Castro

Serverless Computing: Current Trends and Open Problems

Characterizing mobility and network usage in a corporate wireless local-area network

A Probabilistic Room Location Service for Wireless Networked Environments

Community Discovery via Metagraph Factorization

The rise of serverless computing

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