Cutting Throughput with the Edge: App-Aware Placement in Fog Computing
Title | Cutting Throughput with the Edge: App-Aware Placement in Fog Computing |
Publication Type | Conference Paper |
Year of Publication | 2019 |
Authors | Faticanti, Francescomaria, De Pellegrini, Francesco, Siracusa, Domenico, Santoro, Daniele, Cretti, Silvio |
Conference Name | 2019 6th IEEE International Conference on Cyber Security and Cloud Computing (CSCloud)/ 2019 5th IEEE International Conference on Edge Computing and Scalable Cloud (EdgeCom) |
Date Published | jun |
Keywords | app-aware placement, Bandwidth, central cloud, cloud computing, cloud computing technology, cloud module, communication demands, Computation offloading, Containers, delays, dynamic computation, edge computing, edge devices, fog application, Fog Computing, Fog Computing and Security, fog computing platform, fog module, FogAtlas, generation IoT-based services, greedy algorithm, greedy algorithms, integer programming, Internet of Things, IoT, IoT applications, location awareness, mixed integer nonlinear optimisation, mobile computing, nonlinear programming, Optimization, placement, pubcrawl, raw data transfers, Resiliency, resource allocation, Scalability |
Abstract | Fog computing extends cloud computing technology to the edge of the infrastructure to support dynamic computation for IoT applications. Reduced latency and location awareness in objects' data access is attained by displacing workloads from the central cloud to edge devices. Doing so, it reduces raw data transfers from target objects to the central cloud, thus overcoming communication bottlenecks. This is a key step towards the pervasive uptake of next generation IoT-based services. In this work we study efficient orchestration of applications in fog computing, where a fog application is the cascade of a cloud module and a fog module. The problem results into a mixed integer non linear optimisation. It involves multiple constraints due to computation and communication demands of fog applications, available infrastructure resources and it accounts also the location of target IoT objects. We show that it is possible to reduce the complexity of the original problem with a related placement formulation, which is further solved using a greedy algorithm. This algorithm is the core placement logic of FogAtlas, a fog computing platform based on existing virtualization technologies. Extensive numerical results validate the model and the scalability of the proposed algorithm, showing performance close to the optimal solution with respect to the number of served applications. |
DOI | 10.1109/CSCloud/EdgeCom.2019.00026 |
Citation Key | faticanti_cutting_2019 |
- mobile computing
- generation IoT-based services
- greedy algorithm
- greedy algorithms
- integer programming
- Internet of Things
- IoT
- IoT applications
- location awareness
- mixed integer nonlinear optimisation
- FogAtlas
- nonlinear programming
- optimization
- placement
- pubcrawl
- raw data transfers
- Resiliency
- resource allocation
- Scalability
- delays
- Bandwidth
- central cloud
- Cloud Computing
- cloud computing technology
- cloud module
- communication demands
- Computation offloading
- Containers
- app-aware placement
- dynamic computation
- edge computing
- edge devices
- fog application
- Fog computing
- Fog Computing and Security
- fog computing platform
- fog module