Browsing by Author "Martins, Ernesto V."
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- Architecture of a fieldbus message scheduler coprocessor based on the planning paradigmPublication . Martins, Ernesto V.; Neves, Paulo Alexandre; Fonseca, José A.The use of a centralised planning scheduler in fieldbus-based systems requiring real-time operation has proved to be a good compromise between operational ̄exibility and timeliness guarantees. It is particularly well adapted to embedded systems based on low-processing power microcontrollers due to the low overhead it imposes. In this paper a preliminary implementation of a hardware scheduling coprocessor based on the planning paradigm is presented. The coprocessor is installed in a special node of the fieldbus, the bus arbiter, and generates scheduling tables to be dispatched by the node CPU. With this solution it is possible to decrease the response time to changes in the system con®guration or message parameters of the software- based planning scheduler. This opens the possibility of allowing automatic on-line changes requested by system nodes in addition to the ones requested by human operators, thus improving system reactivity. The paper includes a short review of the planning technique and a discussion on the motivation to develop the coprocessor as well as on recent similar and related work. The coprocessor architecture and several implementation details such as its interface with the arbiter CPU are presented. The initial calculations showing the feasibility of the unit are also derived, together with the first real implementation of the coprocessor itself.
- Flexible time-triggered protocol for CAN: new scheduling and dispatching solutionsPublication . Fonseca, José A.; Martins, Ernesto V.; Almeida, L.; Pedreiras, P.; Neves, Paulo AlexandreOne of the possibilities to build robust communication systems with respect to their temporal behaviour is to use autonomous control based on the time-triggered paradigm. The FTT-CAN - flexible time-triggered protocol, relies on centralised scheduling but makes use of the CAN native distributed arbitration to reduce communication overhead. There, a planning scheduler is used within a master node to reduce the scheduling run-time overhead. On-line changes to the communication requirements can then be made under guaranteed timeliness. In addition FTT-CAN also allows an efficient combination of both time-triggered and event- triggered traffic with temporal isolation. In this paper, recent evolutions of the initial protocol definition concerning transmission of synchronous and asynchronous messages are presented. These consist in a time division of the elementary transmission window which optimises the available bandwidth for asynchronous messages, keeping the timeliness of synchronous messages without jeopardising their transmission jitter. A novel solution for the planning scheduler is also presented. It consists in an FPGA-based coprocessor which implements the planning scheduler technique without imposing overhead to the arbiter CPU. With it, it is possible to reduce strongly the plan duration thus allowing on-line admission demanded by system elements and, also, to extend the protocol application to high-speed networks.
- PSCoP: planning scheduler coprocessorPublication . Martins, Ernesto V.; Neves, Paulo Alexandre; Fonseca, José A.The use of a centralised planning scheduler in fieldbus- based systems requiring real-time operation has proved to be a good compromise between operational flexibility and timeliness guarantees. In this paper a preliminary implementation of a hardware scheduling coprocessor based in the planning paradigm is presented. The coprocessor is installed in a special node of the fieldbus, the bus arbiter, and generates scheduling tables to be dispatched by the node CPU. With this solution it is possible to decrease the response time to changes in the system configuration or message parameters of the software-based planning scheduler. This opens the possibility of allowing automatic on-line changes requested by system nodes in addition to the ones requested by human operators, thus improving system reactivity. In this paper the focus is on the coprocessor’s interface with the node CPU and its overall functionality. Initial calculations showing the feasibility of the unit and its expected performance are also derived.
- Using a hardware coprocessor for message scheduling in fieldbus-based distributed systemsPublication . Fonseca, José A.; Martins, Ernesto V.; Neves, Paulo AlexandreFieldbus based distributed embedded systems used in real-time applications tend to be inflexible in what concerns changing operational parameters on-line. Recent techniques such as the planning scheduler can avoid this problem but do not show adequate responsiveness f o r automatic negotiation of parameter values. In this paper the use of ASIC based coprocessors f o r message scheduling is proposed to solve the problem. Such coprocessors can be used in the arbiter nodes of systems based on widely used producer-consumer fieldbuses like WorldFIP and CAN. A prototype built with a Xilinx FPGA is presented. First performance results are shown and analyzed. They demonstrate that the device is able to achieve the expected performance and also point to the possibility of evolution to an almost dynamic scheduling approach.