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Autonomous Electronic Circuits Simulation Method
Minárik, Michal ; Konvalina, Jiří (referee) ; Kunovský, Jiří (advisor)
This work deals with a methodology of description of linear electrical circuits through the use of differential equations and autonomical method. It compares commom numerical methods with Taylor series method implemented in TKSL. It's focused on analysis of applicability of autonomical method to various circuits, complexity of circuit diagram transformation to system of equations and transcription to TKSL.
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CMOS VLSI Circuits Simulation
Šťastná, Hilda ; Kocina, Filip (referee) ; Šátek, Václav (advisor)
This diploma thesis deals with processes of electrical circuits calculations in the last years' worldwide standards like Dymola, MATLAB, Maple or SPICE applications. Circuits calculations are linked with methods for solving linear differential equations, used in this work also by verification of functionality of designed models for CMOS inverter, CMOS NAND, CMOS NOR. Numerical integration method in combination with Taylor series is a suitable method also for parallel calculations of CMOS VLSI circuits. CMOS circuits simulation was implemented with this method in applications in MATLAB language, solving circuits, represented by differential equations. Functionality of the applications was verified by some real examples. Significant acceleration of calculations using Taylor series compared to other methods is an important factor in choosing methods used in circuit simulations.
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Numerical Integrators in Control Theory
Novák, Adam ; Veigend, Petr (referee) ; Šátek, Václav (advisor)
This bachelor thesis deal with the topic of partial differential equations of parallel solutions from focus on control of dynamic systems working with real-time built-in control model. First, it is focused on real-time systems. The next section deals with the analysis of differential equations and types of differential equations. Consequently, numerical integration and derivation are discussed. The thesis deals with individual numerical methods, which are used to calculate a differential equations. This thesis also deals with individual fluids that can influence the calculation of differencial equations in the Modern Taylor method. The result is a competitive application that allows a quick and accurate solution of real-time management model and the subsequent calculation of the differential equations generated using the Modern Taylor Series Method.
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Numerical Integrators in Control Theory
Novák, Adam ; Veigend, Petr (referee) ; Šátek, Václav (advisor)
This bachelor thesis deal with the topic of partial differential equations of parallel solutions from focus on control of dynamic systems working with real-time built-in control model. First, it is focused on real-time systems. The next section deals with the analysis of differential equations and types of differential equations. Consequently, numerical integration and derivation are discussed. The thesis deals with individual numerical methods, which are used to calculate a differential equations. This thesis also deals with individual fluids that can influence the calculation of differencial equations in the Modern Taylor method. The result is a competitive application that allows a quick and accurate solution of real-time management model and the subsequent calculation of the differential equations generated using the Modern Taylor Series Method.
|
|
|
CMOS VLSI Circuits Simulation
Šťastná, Hilda ; Kocina, Filip (referee) ; Šátek, Václav (advisor)
This diploma thesis deals with processes of electrical circuits calculations in the last years' worldwide standards like Dymola, MATLAB, Maple or SPICE applications. Circuits calculations are linked with methods for solving linear differential equations, used in this work also by verification of functionality of designed models for CMOS inverter, CMOS NAND, CMOS NOR. Numerical integration method in combination with Taylor series is a suitable method also for parallel calculations of CMOS VLSI circuits. CMOS circuits simulation was implemented with this method in applications in MATLAB language, solving circuits, represented by differential equations. Functionality of the applications was verified by some real examples. Significant acceleration of calculations using Taylor series compared to other methods is an important factor in choosing methods used in circuit simulations.
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|
| |
|
| |
|
|
Autonomous Electronic Circuits Simulation Method
Minárik, Michal ; Konvalina, Jiří (referee) ; Kunovský, Jiří (advisor)
This work deals with a methodology of description of linear electrical circuits through the use of differential equations and autonomical method. It compares commom numerical methods with Taylor series method implemented in TKSL. It's focused on analysis of applicability of autonomical method to various circuits, complexity of circuit diagram transformation to system of equations and transcription to TKSL.
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