1 edition of Scheduling and optimisation of heterogeneous time/event-triggered distributed embedded systems found in the catalog.
Scheduling and optimisation of heterogeneous time/event-triggered distributed embedded systems
Lic.-avh. Linko ping : Univ., 2003.
|Statement||by Traian Pop|
|Series||Linko ping studies in science and technology. Thesis -- 1022, Linko ping studies in science and technology -- 1022.|
|The Physical Object|
|Pagination||92 s. :|
|Number of Pages||92|
() Energy-efficient deadline scheduling for heterogeneous systems. Journal of Parallel and Distributed Computing , () Scheduling Precedence Constrained Tasks with Reduced Processor Energy on Multiprocessor Computers. ADORES - Ada ptive Scheduling and Optimization Algorithms for Distributed Real-time Embedded System s - GACR P/12/ SESAMO - Component-oriented Design Methodology for Safety and Security modelling, ARTEMIS FP7 EU
This book provides an introduction to multi-objective optimization using meta-heuristic algorithms, GA and PSO, and how they can be applied to problems like hardware/software partitioning in embedded systems, circuit partitioning in VLSI, design of operational amplifiers in analog VLSI, design space exploration in high-level synthesis, delay fault testing in VLSI testing, and scheduling in heterogeneous distributed . Computer Supported Cooperative Work in Design 2 - This book constitutes the thoroughly refereed post-proceedings of the 9th International Conference on Computer Suppor (EAN) bei
REFERENCE Multi-Core Embedded Systems Edited by Georgios Kornaros CRC Press Pages 1–29 Print ISBN: eBook ISBN: DOI: /c1. J. Luo and N. K. Jha, ``Power-efficient scheduling for heterogeneous distributed real-time embedded systems,'' IEEE Trans. on Computer-Aided Design, June D. Arora, A. Raghunathan, S. Ravi, and N. K. Jha, ``Exploring software partitions for fast security processing on a multiprocessor mobile SoC," IEEE Trans. on VLSI Systems, June
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Download Citation | Scheduling and Optimisation of Heterogeneous Time/Event-Triggered Distributed Embedded Systems | Day by day, we are witnessing a considerable increase in number and range of.
System Level Design 18 Scheduling and Schedulability Analysis 19 Design Optimisation of Heterogeneous Time/ Event-Triggered Systems 57 Speciﬁc Design Problems level design of distributed embedded systems implemented with mixed, event-triggered (ET) and time-triggered (TT) task sets.
CiteSeerX - Document Details (Isaac Councill, Lee Giles, Pradeep Teregowda): Day by day, we are witnessing a considerable increase in number and range of applications which entail the use of embedded computer systems. This increase is closely followed by the growth in complexity of applications controlled by embedded systems, often involving strict timing requirements, like.
Energy-Efficient Fault-Tolerant Scheduling of Reliable Parallel Applications on Heterogeneous Distributed Embedded Systems Abstract: Dynamic voltage and frequency scaling (DVFS) is a well-known energy consumption optimization technique in embedded systems and dynamically scaling down the voltage of a chip has been developed to achieve Cited by: distributed embedded systems implemented with mixed, event-triggered and time-triggered task sets, which communicate over bus protocols consisting of both static and dynamic phases.
Such systems are emerging as the new standard for automotive applications. We have developed a holistic timing analysis and scheduling approach for this category of.
As multi-core processors continue to scale, more and more multiple distributed applications with precedence-constrained tasks simultaneously and widely exist in multi-functional embedded systems. Scheduling multiple DAGs-based applications on heterogeneous multi-core processors faces conflicting high-performance and real-time requirements.
Abstract: This paper addresses the problem of variable-voltage scheduling of multirate periodic task graphs (i.e., tasks with precedence relationships) in heterogeneous distributed real-time embedded systems.
Such an embedded system may contain general-purpose processors, field-programmable gate arrays, and application-specific integrated circuits.
In this paper, we present an approach to mapping and scheduling of distributed embedded systems for hard real-time applications, aiming at a minimization of the system modification cost. Cost savings are very critical in modern heterogeneous computing systems, especially in embedded systems.
Task scheduling plays an important role in cost savings. In this article, we tackle the problem of scheduling tasks on heterogeneous multicore embedded systems with the constraints of time and resources for minimizing the total cost, while.
This book describes how evolutionary algorithms (EA), including genetic algorithms (GA) and particle swarm optimization (PSO) can be utilized for solving multi-objective optimization problems in the a.
Scheduling and Optimisation of Heterogeneous Time/Event-Triggered Distributed Embedded Systems. This thesis focuses on the study of real-time distributed embedded systems and, in particular, we concentrate on a certain aspect of their real-time behavior and implementation: the time-triggered (TT) and event-triggered (ET) nature of the.
Holistic scheduling and analysis of mixed time/event-triggered distributed embedded systems. In Proceedings of the International Symposium on Hardware/Software Codesign, Google Scholar; Pop, P., Eles, P., and Peng, Z.
Schedulability analysis and optimization for the synthesis of multi-cluster distributed embedded systems. IEEE. Distributed embedded system optimization. Numerous approaches have addressed the schedulability analysis and optimization of real-time systems within distributed embedded systems consisting of interconnected devices using a wired communication network, such as automotive electronics [, ].
These approaches focus on scheduling and mapping of. We present an approach to the analysis and optimisation of heterogeneous multiprocessor embedded systems. The systems are heterogeneous not only in terms of hardware components, but also in terms of communication protocols and scheduling policies.
When several scheduling policies share a resource, they are organised in a hierarchy. In this paper, we first develop a holistic scheduling. An increasing number of real-time applications are today implemented using distributed heterogeneous architectures composed of interconnected networks of processors.
The systems are heterogeneous, not only in terms of hardware components, but also in terms of communication protocols and scheduling policies. Each network has its own communication. This book provides an introduction to multi-objective optimization using meta-heuristic algorithms, GA and PSO and how they can be applied to problems like hardware/software partitioning in embedded systems, circuit partitioning in VLSI, design of operational amplifiers in analog VLSI, design space exploration in high-level synthesis, delay fault testing in VLSI testing and scheduling in heterogeneous distributed.
We have presented an analysis for multi-cluster systems and outlined several characteristic design problems, related to the partitioning and mapping of functionality and the optimisation of the access to the communication infrastructure. An approach to schedulability-driven frame packing for the synthesis of multi-cluster systems was presented as an example of solving.
The pervasiveness of multi-core processors affects a large spectrum of systems, from embedded and general-purpose, to high-end computing systems. This book assists programmers in mastering the efficient programming of multi-core systems, which is of paramount importance for the software-intensive industry towards a more effective product.
Dynamic voltage scaling has been widely acknowledged as a powerful technique for trading off power consumption and delay for processors. Recently, variable-frequency (and variable-voltage) parallel and serial links have also been proposed, which can save link power consumption by exploiting variations in the bandwidth requirement.
This provides a new dimension for power optimization. Analysis and Synthesis of Distributed Real-Time Embedded Systems addresses the design of real-time applications implemented using distributed heterogeneous architectures.
The systems are heterogeneous not only in terms of hardware components, but also in terms of communication protocols and scheduling policies. J. Li, M. Qiu, Z. Ming, G. Quan, X. Qin, and Z. Gu, “Online Optimization for Scheduling Preemptable tasks on IaaS Cloud systems”, Journal of Parallel and Distributed Computing (JPDC), Vol.
72, No. 5, pp.May (Ranked 1st of Top 25 Hottest Articles of JPDCMost Downloaded Paper of JPDC inHighly Cited Paper ).(English) In: 15th Euromicro Conference on Real-Time Systems ECRTSPorto, Portugal: IEEE Computer Society Press,p.
Conference paper, Published paper (Refereed) Abstract [en] This paper deals with specific issues related to the design of distributed embedded systems implemented with mixed, event-triggered and time-triggered task sets.
springer, This book describes how evolutionary algorithms (EA), including genetic algorithms (GA) and particle swarm optimization (PSO) can be utilized for solving multi-objective optimization problems in the area of embedded and VLSI system design.
Many complex engineering optimization problems can be modelled as multi-objective formulations.