QoS-aware Network Operating System for software defined networking with Generalized OpenFlows

• Published in: 2012 IEEE Network Operations and Management Symposium pp. 1167 - 1174
• Main Authors: Kwangtae Jeong, Jinwook Kim, Young-Tak Kim
• Format: Conference Proceeding
• Language: English
• Published: IEEE 01.04.2012
• Subjects: GMPLS; Internet; IP networks; Iron; Network Operating System; OpenFlow; Optical switches; Protocols; QoS; Software; Traffic Engineering
• ISBN: 1467302678; 9781467302678
• ISSN: 1542-1201
• DOI: 10.1109/NOMS.2012.6212044

OpenFlow switching and Network Operating System (NOX) have been proposed to support new conceptual networking trials for fine-grained control and visibility. The OpenFlow is expected to provide multi-layer networking with switching capability of Ethernet, MPLS, and IP routing. NOX provides logically centralized access to high-level network abstraction and exerts control over the network by installing flow entries in OpenFlow compatible switches. The NOX, however, is missing the necessary functions for QoS-guaranteed software defined networking (SDN) service provisioning on carrier grade provider Internet, such as QoS-aware virtual network embedding, end-to-end network QoS assessment, and collaborations among control elements in other domain network. In this paper, we propose a QoS-aware Network Operating System (QNOX) for SDN with Generalized OpenFlows. The functional modules and operations of QNOX for QoS-aware SDN service provisioning with the major components (e.g., service element (SE), control element (CE), management element (ME), and cognitive knowledge element (CKE)) are explained in detail. The current status of prototype implementation and performances are explained. The scalability of the QNOX is also analyzed to confirm that the proposed framework can be applied for carrier grade large scale provider Internet 1 .