System level modelling and design of hypergraph based wireless system area networks for multi-computer systems

This thesis deals with issues pertaining the wireless multicomputer interconnection networks namely topology and Medium Access Control (MAC). It argues that new channel assignment technique based on regular low-dimensional hypergraph networks, the dual radio wireless hypermesh, represents a promising alternative high-performance wireless interconnection network for the future multicomputers to shared communication medium networks and/or ordinary wireless mesh networks, which have been widely used in current wireless networks. The focus of this work is on improving the network throughput while maintaining a relatively low latency of a wireless network system. By means of a Carrier Sense Multiple Access (CSMA) based design of the MAC protocol and based on the desirable features of hypermesh network topology a relatively high performance network has been introduced. Compared to the CSMA shared communication channel model, which is currently the de facto MAC protocol for most of wireless networks, our design is shown to achieve a significant increase in network throughput with less average network latency for large number of communication nodes. SystemC model of the proposed wireless hypermesh, validated through mathematical models, are then introduced. The analysis has been incorporated in the proper SystemC design methodology which facilitates the integration of communication modelling into the design modelling at the early stages of the system development. Another important application of SystemC modelling techniques is to perform meaningful comparative studies of different protocols, or new implementations to determine which communication scenario performs better and the ability to modify models to test system sensitivity and tune performance. Effects of different design parameters (e.g., packet sizes, number of nodes) has been carried out throughout this work. The results shows that the proposed structure has out perform the existing shared medium network structure and it can support relatively high number of wireless connected computers than conventional networks

Measuring and optimising convergence and stability in terms of system construction in SystemC

The current SystemC modelling language lacks a standard framework that supports the modelling of wireless communication systems. This research investigates how wireless features can be incorporated into existing SystemC design methodology. The components to be investigated in order to achieve this target are divided into three parts: developing a system-level model of a digital wireless communication channel, creating a small library of dedicated elements at system level, and concluding with a case study on flocking behaviour system to validate the wireless extension methodology. In previous works, all these parts were successfully modelled and implemented. In this paper, the integration of communication modelling is introduced into design modelling during the early stages of system development. We use a flocking behaviour system to show how the stability of the system and converging point are measured and optimised in terms of system construction, using some important concepts of graph theory