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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Leveraging virtualization technologies for resource partitioning in mixed criticality systems

Li, Ye 28 November 2015 (has links)
Multi- and many-core processors are becoming increasingly popular in embedded systems. Many of these processors now feature hardware virtualization capabilities, such as the ARM Cortex A15, and x86 processors with Intel VT-x or AMD-V support. Hardware virtualization offers opportunities to partition physical resources, including processor cores, memory and I/O devices amongst guest virtual machines. Mixed criticality systems and services can then co-exist on the same platform in separate virtual machines. However, traditional virtual machine systems are too expensive because of the costs of trapping into hypervisors to multiplex and manage machine physical resources on behalf of separate guests. For example, hypervisors are needed to schedule separate VMs on physical processor cores. Additionally, traditional hypervisors have memory footprints that are often too large for many embedded computing systems. This dissertation presents the design of the Quest-V separation kernel, which partitions services of different criticality levels across separate virtual machines, or sandboxes. Each sandbox encapsulates a subset of machine physical resources that it manages without requiring intervention of a hypervisor. In Quest-V, a hypervisor is not needed for normal operation, except to bootstrap the system and establish communication channels between sandboxes. This approach not only reduces the memory footprint of the most privileged protection domain, it removes it from the control path during normal system operation, thereby heightening security.
2

Non-intrusive Logging and Monitoring System of a Parameterized Hardware-in-the-loop Real-Time Simulator / Icke-påträngande loggnings och övervakningssystem för en parametrerad hårdvara-in-the-loop realtidsimulator

Andung Muntaha, Muhamad January 2019 (has links)
Electronic Control Unit (ECU) is a crucial component in today’s vehicle. In a complete vehicle, there are many ECUs installed. Each of these controls a single function of the vehicle. During the development cycle of an ECU, its functionality needs to be validated against the requirement specification. The Hardware-in-the-loop (HIL) method is commonly used to do this by testing the ECU in a virtual representation of its controlled system. One crucial part of the HIL testing method is an intermediary component that acts as a bridge between the simulation computer and the ECU under test. This component runs a parameterized real-time system that translates messages from the simulation computer to the ECU under test and vice versa. It has a strict real-time requirement for each of its tasks to complete.A logging and monitoring system is needed to ensure that the intermediary component is functioning correctly. This functionality is implemented in the form of low priority additional tasks that run concurrently with the high priority message translation tasks. The implementation of these tasks, alongside with a distributed system to support the logging and monitoring functionality, is presented in this thesis work.Several execution time measurements are carried out to get the information on how the parameters of a task affect its execution time. Then, the linear regression analysis is used to model the execution time estimation of the parameterized tasks. Finally, the time demand analysis is utilized to provide a guarantee that the system is schedulable. / Elektronisk styrenhet (ECU) är en viktig del i dagens fordon. I ett komplett fordon finns det många ECU installerade. Var och en av dessa kontrollerar en enda funktion hos fordonet. Under en utvecklingscykel för en ecu måste dess funktionalitet valideras mot kravspecifikationen. HIL-metoden (Hardware-in-the-loop) används vanligtvis för att göra detta genom att testa ECU i en virtuell representation av sitt styrda system. En viktig del av HIL-testmetoden är en mellanliggande komponent som fungerar som en bro mellan simuleringsdatorn och den ecu som testas. Denna komponent driver ett parametrerat realtidssystem som översätter meddelanden från simuleringsdatorn till ECU som testas och vice versa. Det har en strikt realtidskrav för att alla uppgifter ska kunna slutföras.Ett loggnings och övervakningssystem behövs för att den mellanliggande komponenten ska fungera korrekt. Denna funktionalitet är implementerad i form av extraordinära uppgifter med låg prioritet som körs samtidigt med de högsta prioritetsuppgifterna för översättningstjänster. Genomförandet av dessa uppgifter, tillsammans med ett distribuerat system för att stödja loggnings och övervakningsfunktionaliteten, presenteras i detta avhandlingararbete.Flera utförandetidsmätningar utförs för att få information om hur parametrarna för en uppgift påverkar dess körtid. Därefter används den linjära regressionsanalysen för att modellera exekveringstidestimeringen av de parametrerade uppgifterna. Slutligen används tidsanalysanalysen för att garantera att systemet är schemaläggbart.
3

Inter-Core Interference Mitigation in a Mixed Criticality System

Hinton, Michael Glenn 04 August 2020 (has links)
In this thesis, we evaluate how well isolation can be achieved between two virtual machines within a mixed criticality system on a multi-core processor. We achieve this isolation with Jailhouse, an open-source, minimalist hypervisor. We then enhance Jailhouse with core throttling, a technique we use to minimize inter-core interference between VMs. Then, we run workloads with and without core throttling to determine the effect throttling has on interference between a non-real time VM and a real-time VM. We find that Jailhouse provides excellent isolation between VMs even without throttling, and that core throttling suppresses the remaining inter-core interference to a large extent.
4

Analysis and coordination of mixed-criticality cyber-physical systems

Maurer, Simon January 2018 (has links)
A Cyber-physical System (CPS) can be described as a network of interlinked, concurrent computational components that interact with the physical world. Such a system is usually of reactive nature and must satisfy strict timing requirements to guarantee a correct behaviour. The components can be of mixed-criticality which implies different progress models and communication models, depending whether the focus of a component lies on predictability or resource efficiency. In this dissertation I present a novel approach that bridges the gap between stream processing models and Labelled Transition Systems (LTSs). The former offer powerful tools to describe concurrent systems of, usually simple, components while the latter allow to describe complex, reactive, components and their mutual interaction. In order to achieve the bridge between the two domains I introduce the novel LTS Synchronous Interface Automaton (SIA) that allows to model the interaction protocol of a process via its interface and to incrementally compose simple processes into more complex ones while preserving the system properties. Exploiting these properties I introduce an analysis to identify permanent blocking situations in a network of composed processes. SIAs are wrapped by the novel component-based coordination model Process Network with Synchronous Communication (PNSC) that allows to describe a network of concurrent processes where multiple communication models and the co-existence and interaction of heterogeneous processes is supported due to well defined interfaces. The work presented in this dissertation follows a holistic approach which spans from the theory of the underlying model to an instantiation of the model as a novel coordination language, called Streamix. The language uses network operators to compose networks of concurrent processes in a structured and hierarchical way. The work is validated by a prototype implementation of a compiler and a Run-time System (RTS) that allows to compile a Streamix program and execute it on a platform with support for ISO C, POSIX threads, and a Linux operating system.

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