Gill, Schmidt, and Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing", IEEE Proceedings 91(1), Jan 2003. Home/Search Document Details and Download
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Integrated Adaptive QoS Management in Middleware: A Case Study - Christopher Gill Jeanna (2004) (1 citation) Self-citation (Schmidt) (Correct)
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Gill, Schmidt, and Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing", IEEE Proceedings 91(1), Jan 2003.
Integrated Adaptive QoS Management in Middleware: A Case Study - Christopher Gill Jeanna (2004) (1 citation) Self-citation (Schmidt) (Correct)
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Gill, Schmidt, and Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing", IEEE Proceedings 91(1), Jan 2003.
Enhancing Adaptivity via Standard Dynamic Scheduling.. - Gill, Mgeta, Zhang.. Self-citation (Schmidt) (Correct)
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Gill, Schmidt, and Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing ", IEEE Proceedings 91(1), Jan 2003.
CAMRIT: Control-based Adaptive Middleware for.. - Wang, Huand.. (2004) (4 citations) Self-citation (Gill) (Correct)
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C. Gill, D. Schmidt, and R. Cytron. Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing. IEEE Proceedings, Special Issue on Modeling and Design of Embedded Software, 91(1), Jan. 2003.
Integrated Adaptive QoS Management in Middleware: A Case.. - Gill, Gossett, Corman, al. (2004) (1 citation) Self-citation (Schmidt) (Correct)
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Gill, Schmidt, and Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing", IEEE Proceedings 91(1), Jan 2003.
Experiences Applying Adaptive QoS Management in Middleware - Gill, Gossett, Corman, al. Self-citation (Gill Schmidt) (Correct)
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C. Gill, D. C. Schmidt, and R. Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing," IEEE Proceedings, Special Issue on Modeling and Design of Embedded Software, vol. 91, Jan. 2003.
The Design and Performance of a Real-Time Notification Service - Pradeep Gore And (2004) (2 citations) Self-citation (Gill Schmidt) (Correct)
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C. Gill, D. Schmidt, and R. Cytron, Multi-Paradigm Scheduling for Distributed Real-time Embedded Computing, IEEE Proceedings 91(1), Jan 2003.
Evaluating Component Middleware Enhancements for.. - Wang, Subramonian.. Self-citation (Gill Schmidt) (Correct)
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Gill, C., Schmidt, D.C., Cytron, R.: Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing. IEEE Proceedings, Special Issue on Modeling and Design of Embedded Software 91 (2003)
The Design and Implementation of Real-Time CORBA.. - Krishnamurthy.. Self-citation (Schmidt) (Correct)
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Gill, Schmidt, and Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing", IEEE Proceedings 91(1), Jan 2003.
The Design and Implementation of Real-Time CORBA.. - Krishnamurthy.. Self-citation (Schmidt) (Correct)
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Gill, Schmidt, Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing", IEEE Proc. 91(1), Jan. 2003.
Towards Highly Configurable Real-time Object Request Brokers - Klefstad, Schmidt, O'Ryan (2002) (7 citations) Self-citation (Schmidt) (Correct)
....ORB implemented in Realtime Java [8] to simplify the programming model for DRE applications. ZEN is inspired by many of the patterns, techniques, and lessons learned in The ACE ORB (TAO) 6] an open source implementation of Real time CORBA written in C . 2. It explains how ZEN uses patterns [9, 10] to automatically minimize the memory footprint of DRE middleware customized for each application. 3. It compares ZEN s novel micro ORB design and implementation with the design and implementation of traditional monolithic ORB architectures. The remainder of this paper is organized as follows: ....
....compilation [15] 3. Dynamic micro ORB, in which only a small ORB kernel is loaded in memory, with various components linked and loaded dynamically on demand. Portions of the current third generation of TAO are designed this way (based on the Component Configurator [9] and Virtual Component [10] patterns) as is the initial implementation of ZEN presented in Section 3.3. The advantage of this design is the significant reduction in footprint and the increase in extensibility. In particular, independent ORB components can be configured dynamically to meet the needs of different ....
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C. Gill, D. C. Schmidt, and R. Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing," Submitted to the IEEE Proceedings Special Issue on Embedded Software, Oct. 2002.
Design and Performance of a Modular Portable Object.. - Klefstad, Krishna.. (2002) (1 citation) Self-citation (Schmidt) (Correct)
....to servants [11, 12] This paper makes the following contributions to the design of POAs for Real time CORBA middleware: 1. It describes three alternative designs of the Portable Object Adapter (POA) monolithic, coarse grain, and finegrain architectures. 2. It explains how design patterns [13, 14] can be applied to improve the quality and performance of POA implementations. 3. It presents empirical measurements based on the ZEN ORB showing how memory footprint can be reduced significantly while throughput is comparable to a monolithic conventional ORB implementation. The remainder of ....
C. Gill, D. C. Schmidt, and R. Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing," Submitted to the IEEE Proceedings Special Issue on Embedded Software, Oct. 2002.
Empirical Differences Between COTS Middleware Scheduling .. - Gill, Kuhns, Cytron.. Self-citation (Gill Schmidt Cytron) (Correct)
....building them on time and within budget is even harder. Therefore, studying real time policies and mechanisms within commercial offthe shelf (COTS) systems empirically is essential to ensure mission critical DRE systems can be built and maintained in a cost effective manner. Our previous work [1, 2] has quantified the benefits of applying multiple scheduling paradigms in COTS middleware to support the quality of service (QoS) demands of missioncritical DRE systems that possess a mix of hard and soft real time requirements, such as avionics mission computing systems [3] mission critical ....
....[16] and synchronous [17] concurrent request processing, adaptive load balancing [18] meta programming mechanisms [19] and IDL stub skeleton optimizations [20] Kokyu Multi paradigm Scheduling Framework. To i n crease responsiveness to varying operational environments, we have recently [2] extended our prior research on static [10] and dynamic [3] scheduling for Real time CORBA by incorporating a strategized scheduling framework called Kokyu within the TAO Real Time Event Service. Kokyu addresses the challenge that no single scheduling paradigm performs best in all environments, ....
[Article contains additional citation context not shown here]
C. Gill, D. C. Schmidt, and R. Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing," IEEE Proceedings Special Issue on Modeling and Design of Embedded Software, Oct. 2002.
Enhancing the Adaptivity of Distributed Real-time and Embedded.. - Gill (Correct)
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C. Gill, D. Schmidt, and R. Cytron, "Multi-Paradigm Scheduling for Distributed Real-Time Embedded Computing", IEEE Proceedings 91(1), Jan 2003.
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