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MINISTRY OF EDUCATION AND TRAINING THAI NGUYEN UNIVERSITY ________________ CHU DUC TOAN STUDY ADAPTIVE CONTROL ALGORITHMS WITH REFERENCE FLOWS TO IMPROVE THE SPEED OF SPECISLIZED PARALLEL PROCESSING SYSTEMS Major: Control Engineering and Automation Code: 62.52.02.16 SUMMARY OF ENGINEERING THESIS THAI NGUYEN - 2013 This work has been published in: Thai Nguyen University Instructor(s): Ass Prof. Dr. Do Xuan Tien Ass Prof. Dr. Nguyen Huu Cong Defender 1: Defender 2: Defender 3: Thesis will be defended at supervisory board at university level meeting at ……………………………………………………………. At hour, ….date month year This thesis can be found in the library: Library of Industrial Engineering University - Thai Nguyen University; Learning materials Center of Thai Nguyen University, National Library of Vietnam. 1 SUMMARY OF THESIS 1. The necessary of the topic Many new areas such as computer graphics, artificial intelligence, number analysis, parallel calculating in the petroleum industry, the unmanned equipment, equipment of identifying monitoring mobile targets , require to process very large volumes of data with high speed. Most of this problem, the sequential computer does not meet the actual requirements. Research on parallel processing systems now focus two main researching directions are as follows: The one is to study multi-processor systems as supercomputers (Suppercomputer) [45], [54], large computer (Mainframe), minicomputer (minicomputer) make versatile: the hardware structure and software function of the computer that must be multi-functional organized are complex. Mathematical model is very complex, beyond ordinary calculating structure. Therefore, when applied to specialized applications, their processing speed is often slower than the ability of the micro processing; real-time parameter is not controlled correctly Parallel multi-processing system has a big scale together with operating structural software is very complicated. Therefore, the computer system has a very expensive price. This is a difficult problem to solve specific problems required high speed, low cost consistent with economic conditions in Vietnam. The second is to study parallel multi-CPU processing system such as: parallel-specialized processing system for one or one class of specific math, the same function. Therefore, manipulation methods, 2 structure of data group need to be processed; the structure of resulting data are defined before, so it is more easy to decompose functions , easy to select data organization and appropriate processing methods with speed requirements. With specific tasks and defined data structures, the optimal processing algorithm can be made, appropriate hardware structure, utilizing system resources reasonably. Due to the function of parallel specialized processing systems is limited and explicit, the Monitor program is built in the most optimal, highly scalable and more importantly is to response fast requirements of operational processes in the system. Through the above analysis, the thesis selects the second direction that is parallel-specialized multi-CPU processing system. In parallel specialized multi-CPU processing system, shared storage space (SSS) is very important: the storage of the database to be processed, the operating program When many reference flows accessed to shared memory at the same time that can lead to conflict, then the system may hang or low access speed, the performance of shared memory is reduced and does not meet the speed requirements of this problem. The importance of SSS is the control set of reference flow. On that basis, the problem to be solved is to synthetic the structure of adaptive controlling of reference flow to SSS to minimize the probability of conflicts when accessing shared resources, improving computing speed is very important. From the above analysis, the research poses the problem for parallel- specialized multi-CPU processing system met the fast and reliable processing speed, reasonable price is very necessary and as a basis to form thesis’s topic: "Study adaptive control algorithms with 3 reference flows to improve the speed of specialized parallel processing systems” 2. Object and scope of research - Object of the thesis is SSS in parallel-specialized multi-CPU processing system. - The researching scope of the thesis is the limitation in making the mathematical model in reference flow to SSS in parallel-specialized multi-CPU processing system; specify the binding conditions between these parameters and the changeable parameters to synthesize optimal controlling system (adaptation) in reference flow to SSS to improve the efficiency and reduce the probability of conflicts when accessing shared resources. 3. The researching method of the thesis - Based on the classic theory as a queuing theory, probability theory namely Morkov process stops, distributes Poat-xông to build and calculate the performance for reference mathematical model to SSS in parallel Multi-CPU processing system. - Describe mathematically model of shared memory in the parallel multi-CPU processing system. - Study to control the system by using emulation and practical technology that is FPGA modern technology. 4. The scientific meaning and practice of the thesis 4.1. In the science 4 The scientific meaning is to study and apply the optimal controller (adaption) in reference flow to SSS for parallel-specialized multi- CPU processing system to improve the performance, the speed, and minimize the probability of conflict when accessing shared resources. 4.2. In the practice The research result will be references for students and graduate students as well as researchers interested in research on multi-CPU parallel processing dedicated. From the results of this research, topic as the basis for many further studies aimed to apply widely the parallel-specialized multi-CPU processing system in the practice in Vietnam, especially the system has high requirement for speed. 5. The structure of thesis The thesis consists of three chapters namely explanation, conclusion and references. Chapter 1. Architecture of parallel multi-CPU processing system. 1.1. System Resources 1.1.1. Hardware Resources 1.1.2. Software Resources 1.2. The definition of parallel processing system 1.3. Classification of parallel processing system 5 - Michel J.Flynn gave 4 architecture models of parallel processing system are: (i) SISD model, (ii) SIMD model, (iii) MISD model, (iv) MIMD model. - Handler classifies parallel processing system based on parallel level and processing level according to the pipeline mechanism of the hardware structure. 1.4. Overall architecture of parallel multi-CPU processing system 1.4.1. Model 1.4.2. The issues related to performance 1.5. The architecture of parallel- specialized multi-CPU processing system. 1.5.1. The characteristics of parallel- specialized multi-CPU processing system a. Specialized function Specialized function is also reflected in the data structure that the system must process. This data structure is largely the vector data due to the similar structure of elements and they are arranged in the order (such as the structure: range-azimuth-height) that allows to vector easily the basis of this data. The consequence is to perform data processing operations as the pipeline mechanism easily - a mechanism to improve the performance of processing system. b. The structure of minimal hardware 6 Due to parallel- specialized processing system performs a defined task and this task is established only in a math class so structural parameters must be determined quite accurately. As a result, the hardware organization will ensure minimal with standard partitioning algorithm. c. The high speed and performance d. The high reliability This is a requirement, as well as a characteristic of the parallel- specialized processing system. At first view, it seems to conflict to the requirement of high speed’s system However, unlike general- purpose computers, parallel-specialized processing system is largely the system which is difficult to maintenance, even impossible to maintenance (such as processing systems mounted on satellites, on the self-led missile, or in the early warning system under the sea ) so it must require high reliability. 1.5.2. The architecture of parallel- specialized multi-CPU processing system. a. Model of parallel- specialized multi-CPU processing system. b. These factors affect the performance of parallel- specialized multi-CPU processing system. c. Branch instruction 1.6. Commentary, research-oriented of the topic 7 Through the analysis and introduction about parallel multi-CPU processing system and parallel- specialized multi-CPU processing system in section (1.4) and (1.5). With parallel - specialized multi-CPU processing system, the performance largely depends on the accessing speed into common resources, but the most importance is SSS because the highest possibility of conflict is here (because the frequency of using SSS is much higher than other resources such as I/O port, peripherals ). One of the tasks of the synthesis stage of the system is to minimize the possibility of conflict in reference to SSS of CPU unit that is a critical task. For example, the monitoring system of aircrafts. The aircrafts are such as: (i) at different distances (ii) the speed is also very different. The parameters must be monitored for an aircraft: (i) distance (ii) azimuth and (iii) height, when the parameters are controlled, we are able to draw the flying orbits. Then we can make other decisions (to kill, not to kill ). 8 - The situation of researching in the country: The researching of "Solving level 1 problem for Radar intelligence information” scientific research at the level of Department of Defense, Dr. Nguyen Van Lien (2008-2012). Figure 1.14: Observation distance of the system Outermost range doughnut N1024 t t Range doughnut N1023 Range doughnut N1 Surge generator 375 Hz Pulse reflection from the target on theother ranges other range The cycle of pulse U [...]... researching in the foreigner: The typical studies of three authors from 2000 to now continue studying of parallel processing system The study was published in 2000 [5], Baghdadi A., Zergainoh N E in 2004 [13], Chou Y., Fahs B., AND Abraham S, also in 2004 with the work of the author: Ken Mai, Ron Ho, Elad Alon, Dean Liu, Dinesh Patil, Mark Horowitz [39] However, these topics are applied for large multi-CPU system,... keeping fixed ρ = 0.5 With a system composed n reference flows, l logical memory bandwidths, Tl =1, m= 4 6 and q=1.0 (full loading) To achieve the performance E> 0.90 with   0, , with m =2, need to choose  1 . processing system. The study was published in 2000 [5], Baghdadi A., Zergainoh N. E. in 2004 [13], Chou Y., Fahs B., AND Abraham S, also in 2004 with the work of the author: Ken Mai, Ron Ho, Elad. q=1.0 (full loading). To achieve the performance E> 0.90 with 1 0 ,   , with m =2, need to choose  <0.2. When increasing Tl, they have impacted to reduce the overall

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