Dynamic Cluster Based Control Plane Load Balancing in Large Scale vSDN-enabled 5G WAN

Abstract We present PeerFlow, a system to securely load balance client traffic in Tor. Security in Tor requires that no adversary handle too much traffic. However, Tor relays are run by volunteers who cannot be trusted to report the relay bandwidths, which Tor clients use for load balancing. We show that existing methods to determine the bandwidths of Tor relays allow an adversary with little bandwidth to attack large amounts of client traffic. These methods include Tor’s current bandwidth-scanning system, TorFlow, and the peer-measurement system EigenSpeed. We present an improved design called PeerFlow that uses a peer-measurement process both to limit an adversary’s ability to increase his measured bandwidth and to improve accuracy. We show our system to be secure, fast, and efficient. We implement PeerFlow in Tor and demonstrate its speed and accuracy in large-scale network simulations.

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Load Balancing in Software-Defined Networking using Controller Placement

10.21203/rs.3.rs-53407/v1 ◽

2020 ◽

Author(s):

Hamid Nejadnik ◽

Rasool Sadeghi ◽

Sayed Mahdi Faghih Imani

Keyword(s):

Load Balancing ◽

Software Defined Networking ◽

Network Simulator ◽

Control Plane ◽

Placement Problem ◽

Data Plane ◽

Controller Placement ◽

Controller Placement Problem ◽

Load Balancer

Abstract Software Defined Networking (SDN) is a novel architecture that separates the data plane from the control plane using an external controller. Similar to traditional networks, load balancing has a great impact on the performance and availability of SDN. Therefore, the Controller Placement Problem (CPP) in SDN influences on the load balancing solutions. In this paper, various topologies of CPP including different load balancer controllers are simulated and evaluated in the SDN using the OFSwitch13 module of ns-3 network simulator. The results provide a solid comparison of the proposed topologies in different network situations.

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Periodic hierarchical load balancing for large supercomputers

The International Journal of High Performance Computing Applications ◽

10.1177/1094342010394383 ◽

2011 ◽

Vol 25 (4) ◽

pp. 371-385 ◽

Cited By ~ 34

Author(s):

Gengbin Zheng ◽

Abhinav Bhatelé ◽

Esteban Meneses ◽

Laxmikant V. Kalé

Keyword(s):

Load Balancing ◽

Large Scale ◽

Parallel Machines ◽

National Laboratory ◽

Argonne National Laboratory ◽

Parallel Applications ◽

Scientific Application ◽

Computing Center ◽

Blue Gene ◽

Advanced Computing

Large parallel machines with hundreds of thousands of processors are becoming more prevalent. Ensuring good load balance is critical for scaling certain classes of parallel applications on even thousands of processors. Centralized load balancing algorithms suffer from scalability problems, especially on machines with a relatively small amount of memory. Fully distributed load balancing algorithms, on the other hand, tend to take longer to arrive at good solutions. In this paper, we present an automatic dynamic hierarchical load balancing method that overcomes the scalability challenges of centralized schemes and longer running times of traditional distributed schemes. Our solution overcomes these issues by creating multiple levels of load balancing domains which form a tree. This hierarchical method is demonstrated within a measurement-based load balancing framework in Charm++. We discuss techniques to deal with scalability challenges of load balancing at very large scale. We present performance data of the hierarchical load balancing method on up to 16,384 cores of Ranger (at the Texas Advanced Computing Center) and 65,536 cores of Intrepid (the Blue Gene/P at Argonne National Laboratory) for a synthetic benchmark. We also demonstrate the successful deployment of the method in a scientific application, NAMD, with results on Intrepid.

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A distributed load balancing algorithm for the control plane in software defined networking

2016 24th Mediterranean Conference on Control and Automation (MED) ◽

10.1109/med.2016.7535946 ◽

2016 ◽

Cited By ~ 13

Author(s):

Federico Cimorelli ◽

Francesco Delli Priscoli ◽

Antonio Pietrabissa ◽

Lorenzo Ricciardi Celsi ◽

Vincenzo Suraci ◽

...

Keyword(s):

Load Balancing ◽

Software Defined Networking ◽

Control Plane ◽

Distributed Load ◽

Load Balancing Algorithm

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The first experimental demonstration of a DREAM-based large-scale optical transport network with 1000 control plane nodes

Optics Express ◽

10.1364/oe.19.00b746 ◽

2011 ◽

Vol 19 (26) ◽

pp. B746 ◽

Cited By ~ 9

Author(s):

Jie Zhang ◽

Yongli Zhao ◽

Xue Chen ◽

Yuefeng Ji ◽

Min Zhang ◽

...

Keyword(s):

Large Scale ◽

Transport Network ◽

Experimental Demonstration ◽

Control Plane ◽

Optical Transport Network ◽

Optical Transport

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Load Balancing to Increase the Consistency of Replicas in Data Grids

Technology Integration Advancements in Distributed Systems and Computing ◽

10.4018/978-1-4666-0906-8.ch003 ◽

2012 ◽

pp. 42-57

Author(s):

Ghalem Belalem ◽

Naima Belayachi ◽

Radjaa Behidji ◽

Belabbes Yagoubi

Keyword(s):

Load Balancing ◽

Large Scale ◽

Data Grids ◽

Distributed Resources ◽

Data Set ◽

Large Scale Systems ◽

Consistency Management ◽

Geographically Distributed ◽

Replication Technique ◽

Improve Service Quality

Data grids are current solutions to the needs of large scale systems and provide a set of different geographically distributed resources. Their goal is to offer an important capacity of parallel calculation, ensure a data effective and rapid access, improve the availability, and tolerate the breakdowns. In such systems, however, these advantages are possible only by using the replication technique. The use of this technique raises the problem of maintaining consistency of replicas of the same data set. In order to guarantee replica set reliability, it is necessary to have high coherence. This fact, however, penalizes performance. In this paper, the authors propose studying balancing influence on replica quality. For this reason, a service of hybrid consistency management is developed, which combines the pessimistic and optimistic approaches and is extended by a load balancing service to improve service quality. This service is articulated on a hierarchical model with two levels.

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Peer-to-Peer Service Discovery for Grid Computing

Grid and Cloud Computing ◽

10.4018/978-1-4666-0879-5.ch111 ◽

2012 ◽

pp. 232-259

Author(s):

Eddy Caron ◽

Frédéric Desprez ◽

Franck Petit ◽

Cédric Tedeschi

Keyword(s):

Fault Tolerance ◽

Load Balancing ◽

Service Discovery ◽

Large Scale ◽

Dynamic Networks ◽

Peer To Peer ◽

Indexing System ◽

Key Points ◽

Computing Platforms ◽

Traditional Approaches

Within distributed computing platforms, some computing abilities (or services) are offered to clients. To build dynamic applications using such services as basic blocks, a critical prerequisite is to discover those services. Traditional approaches to the service discovery problem have historically relied upon centralized solutions, unable to scale well in large unreliable platforms. In this chapter, we will first give an overview of the state of the art of service discovery solutions based on peer-to-peer (P2P) technologies that allow such a functionality to remain efficient at large scale. We then focus on one of these approaches: the Distributed Lexicographic Placement Table (DLPT) architecture, that provide particular mechanisms for load balancing and fault-tolerance. This solution centers around three key points. First, it calls upon an indexing system structured as a prefix tree, allowing multi-attribute range queries. Second, it allows the mapping of such structures onto heterogeneous and dynamic networks and proposes some load balancing heuristics for it. Third, as our target platform is dynamic and unreliable, we describe its powerful fault-tolerance mechanisms, based on self-stabilization. Finally, we present the software prototype of this architecture and its early experiments.

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