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Funadamentals Of Modeling And Designing Of Software And Hardware Of Radioelectronics
Major: Telecommunications and Radio Engineering
Code of subject: 6.172.03.E.104
Credits: 4.00
Department: Radioelectronic Appliances and Systems
Lecturer: Prof. Shapovalov Yuriy
Semester: 6 семестр
Mode of study: денна
Learning outcomes: The ability to demonstrate knowledge of the basics of professionally oriented specialties in the field of radio electronic circuits and circuit engineering, electromagnetic field theory, radio electronic systems theory, telecommunication network theory, automatic control theory, methods of analysis of radio electronic and telecommunication systems and networks, design and production processes, hardware and software programming systems, administration of information networks, information protection, information technologies.
The ability to demonstrate in-depth knowledge in at least one of the areas of radioelectronic and telecommunication systems and networks: radioelectronic systems, telecommunication systems and networks, information networks and communication, technologies for designing and manufacturing telecommunications equipment, designing software and hardware systems, developing software for embedded systems, administration of information communication networks.
Application of understanding the main properties of the component base to ensure the quality and reliability of the functioning of telecommunications, radio engineering systems and devices.
Competently use the terminology of the field of telecommunications and radio engineering
Ability to adapt to new situations and make decisions
Required prior and related subjects: Digital circuitry. Digital methods of implementation of radio engineering systems. Software and hardware in telecommunications and radio engineering. Fundamentals of digital television.
Summary of the subject: 1. Terms. Characteristics of MPS. 70s - 90s
last century The end of the 90s of the last century.
The beginning of the 21st century. ARM Cortex-M3 processor. What it is?
Historical reference.
2. ARM Cortex-M3 processor. Development of a set of teams. Regions
using the Cortex-M3 processor. Development of a microprocessor
microcontroller-based systems. The main stages of development. Selecting the type of microcontroller. Typical structures of microprocessor systems.
3. Main microprocessor systems (MMPS). Transmission of the address on the highway to the MMPS. The concept of address space in MMPS. Address decryption methods. Schemes of address decoders.
4. Typical structures of microprocessor systems Use
standard decoders. Using PZP for the address book
decryption Expansion of the address space by the window method
5. Typical structures. . Common bus interface. Seizure of the highway. Timing diagram of write, read, interrupt. CPU initialization and compute protection.
6. Interrupt system of 32-bit i80x86 microprocessors.
The concept of interruption. Classification of interruptions. Hardware and software of the interrupt system. Real-time interrupt handling. Interrupt handling in the ARM-Cortex-M3 microcontroller.
7. Controllers. Types of controllers. Example of passive synchronous
the controller. An example of a passive asynchronous controller. An example of an interrupt controller. Scheme of capturing the highway.
8. Languages of equipment description. Modules. Origin of System Verilog and VHDL languages. Simulation and synthesis. Bit operators. Comments and abbreviations. Conditional assignment.
9. Internal variables. Priority of operations. Numbers. Z state, X state. Time delays. Structural modeling.
10. Sequential logic. Registers. Reset and signal registers
permission Full adder. Case operators. If statements. Final
automatic machines
11. Testing environment. Digital functional nodes.
Arithmetic schemes. Comparators. ALP. Counters. Shifting
registers
12. Memory matrices. Memory ports. Registry files. PZP Hardware description languages and memory. Matrices of logical elements. PLM. PKMLE. 1
13. Microarchitecture. Architectural state and command system. The process of developing a single-cycle processor. Coding commands. Data tract.
14. One-stroke control device. Additional commands. Analysis
productivity.
15. Single-cycle processor on HDL. Basic modules. Universal
blocks Testing environment. Resume.
Assessment methods and criteria: Current monitoring of laboratory classes is carried out in order to identify the student's readiness for classes in the following forms:
- a selective oral survey before the start of classes;
- assessment of the student's activity in the course of classes, submitted proposals,
original solutions, clarifications and definitions, additions to previous answers, etc.
Control questions are divided into:
- a) test tasks - choose the correct answers;
- b) problematic – creation of problematic situations;
- c) questions-replies - to identify cause-and-effect relationships;
- d) situational tasks – to determine the answer according to a certain situation;
- e) issues of a reproductive nature - determination of practical significance.
The final control is carried out based on the results of the current control and passing the exam.
Recommended books: 1. Frunze A.V. Microcontrollers? It's simple! — M.: ID SKYMEN LLC,
2003. — Vol. 3. — ISBN 5-94929-003-7
2. Joseph Y. ARM's Cortex-M3 core. Full manual, translated from English.
A.V. Evstifeeva, Moscow, 2012.
3. Belov A.V. Tutorial on microprocessor technology/ Oleksandr Vladimirovych
Belov. St. Petersburg: "Nauka i Technika" Publishing House, 2003
Auxiliary
1. Rusanov V.V., Shevelev M.Yu. Microprocessor devices and systems. Educational
allowance Tomsk: TUSUR, 2007.
2. Vasiliev A.E. Microcontrollers. Development of built-in applications / A.E.
Vasiliev - St. Petersburg: BHV-Petersburg, 2008. – 304 p.: ill.
3. Joseph Yiu. The Definitive Guide to ARM® Cortex®-M0 and Cortex-M0+ Processors, 2nd
Edition. Release Date: 26 Jun 2015 , Imprint:Newnes, Print Book ISBN :9780128032770 Pages: 784
4. Belov A.V. We create devices on microcontrollers/ Oleksandr Vladimirovych
Belov. St. Petersburg: "Science and Technology" Publishing House, 2007. - "Radio Lover" series.
5. Ogorodnikov I.N. Microprocessor technology: introduction to Kortex-M3/ tutorial
manual, Ural publishing house. University, 2015, -116 p.
6. Brodyn V.B., Kalinin A.V. Systems on microcontrollers and BIS programmable
logic - Moscow, Ekon Publishing House, 2002, - 400 p.
9. Information resources
1. http://www.keil.com/dd/docs/datashts/arm/cortex_m0/r0p0/ddi0432c_cortex_m0_r0p0_trm.pdf
2. https://www.arm.com/products/processors/cortex-m/cortex-m0.php
3. https://www.silabs.com/products/mcu/Pages/arm-cortex-m0-32-bit-microcontroller.aspx
4. http://gen.lib.rus.ec/book/index.php?md5=A31DC1FF534659598E1720B6CAF7DD0B
5. http://gen.lib.rus.ec/book/index.php?md5=0E677A3E8D513AF095C58D0F3AB2CF2D
6. https://armkeil.blob.core.windows.net/product/mdk5-getting-started.pdf
Funadamentals Of Modeling And Designing Of Software And Hardware Of Radioelectronics
Major: Telecommunications and Radio Engineering
Code of subject: 6.172.04.E.119
Credits: 4.00
Department: Radioelectronic Appliances and Systems
Lecturer: Prof. Shapovalov Yuriy
Semester: 6 семестр
Mode of study: денна
Learning outcomes: The ability to demonstrate knowledge of the basics of professionally oriented specialties in the field of radio electronic circuits and circuit engineering, electromagnetic field theory, radio electronic systems theory, telecommunication network theory, automatic control theory, methods of analysis of radio electronic and telecommunication systems and networks, design and production processes, hardware and software programming systems, administration of information networks, information protection, information technologies.
The ability to demonstrate in-depth knowledge in at least one of the areas of radioelectronic and telecommunication systems and networks: radioelectronic systems, telecommunication systems and networks, information networks and communication, technologies for designing and manufacturing telecommunications equipment, designing software and hardware systems, developing software for embedded systems, administration of information communication networks.
Application of understanding the main properties of the component base to ensure the quality and reliability of the functioning of telecommunications, radio engineering systems and devices.
Competently use the terminology of the field of telecommunications and radio engineering
Ability to adapt to new situations and make decisions
Required prior and related subjects: Digital circuitry. Digital methods of implementation of radio engineering systems. Software and hardware in telecommunications and radio engineering. Fundamentals of digital television.
Summary of the subject: 1. Terms. Characteristics of MPS. 70s - 90s
last century The end of the 90s of the last century.
The beginning of the 21st century. ARM Cortex-M3 processor. What it is?
Historical reference.
2. ARM Cortex-M3 processor. Development of a set of teams. Regions
using the Cortex-M3 processor. Development of a microprocessor
microcontroller-based systems. The main stages of development. Selecting the type of microcontroller. Typical structures of microprocessor systems.
3. Main microprocessor systems (MMPS). Transmission of the address on the highway to the MMPS. The concept of address space in MMPS. Address decryption methods. Schemes of address decoders.
4. Typical structures of microprocessor systems Use
standard decoders. Using PZP for the address book
decryption Expansion of the address space by the window method
5. Typical structures. . Common bus interface. Seizure of the highway. Timing diagram of write, read, interrupt. CPU initialization and compute protection.
6. Interrupt system of 32-bit i80x86 microprocessors.
The concept of interruption. Classification of interruptions. Hardware and software of the interrupt system. Real-time interrupt handling. Interrupt handling in the ARM-Cortex-M3 microcontroller.
7. Controllers. Types of controllers. Example of passive synchronous
the controller. An example of a passive asynchronous controller. An example of an interrupt controller. Scheme of capturing the highway.
8. Languages of equipment description. Modules. Origin of System Verilog and VHDL languages. Simulation and synthesis. Bit operators. Comments and abbreviations. Conditional assignment.
9. Internal variables. Priority of operations. Numbers. Z state, X state. Time delays. Structural modeling.
10. Sequential logic. Registers. Reset and signal registers
permission Full adder. Case operators. If statements. Final
automatic machines
11. Testing environment. Digital functional nodes.
Arithmetic schemes. Comparators. ALP. Counters. Shifting
registers
12. Memory matrices. Memory ports. Registry files. PZP Hardware description languages and memory. Matrices of logical elements. PLM. PKMLE. 1
13. Microarchitecture. Architectural state and command system. The process of developing a single-cycle processor. Coding commands. Data tract.
14. One-stroke control device. Additional commands. Analysis
productivity.
15. Single-cycle processor on HDL. Basic modules. Universal
blocks Testing environment. Resume.
Assessment methods and criteria: Current monitoring of laboratory classes is carried out in order to identify the student's readiness for classes in the following forms:
- a selective oral survey before the start of classes;
- assessment of the student's activity in the course of classes, submitted proposals,
original solutions, clarifications and definitions, additions to previous answers, etc.
Control questions are divided into:
- a) test tasks - choose the correct answers;
- b) problematic – creation of problematic situations;
- c) questions-replies - to identify cause-and-effect relationships;
- d) situational tasks – to determine the answer according to a certain situation;
- e) issues of a reproductive nature - determination of practical significance.
The final control is carried out based on the results of the current control and passing the exam.
Recommended books: 1. Frunze A.V. Microcontrollers? It's simple! — M.: ID SKYMEN LLC,
2003. — Vol. 3. — ISBN 5-94929-003-7
2. Joseph Y. ARM's Cortex-M3 core. Full manual, translated from English.
A.V. Evstifeeva, Moscow, 2012.
3. Belov A.V. Tutorial on microprocessor technology/ Oleksandr Vladimirovych
Belov. St. Petersburg: "Nauka i Technika" Publishing House, 2003
Auxiliary
1. Rusanov V.V., Shevelev M.Yu. Microprocessor devices and systems. Educational
allowance Tomsk: TUSUR, 2007.
2. Vasiliev A.E. Microcontrollers. Development of built-in applications / A.E.
Vasiliev - St. Petersburg: BHV-Petersburg, 2008. – 304 p.: ill.
3. Joseph Yiu. The Definitive Guide to ARM® Cortex®-M0 and Cortex-M0+ Processors, 2nd
Edition. Release Date: 26 Jun 2015 , Imprint:Newnes, Print Book ISBN :9780128032770 Pages: 784
4. Belov A.V. We create devices on microcontrollers/ Oleksandr Vladimirovych
Belov. St. Petersburg: "Science and Technology" Publishing House, 2007. - "Radio Lover" series.
5. Ogorodnikov I.N. Microprocessor technology: introduction to Kortex-M3/ tutorial
manual, Ural publishing house. University, 2015, -116 p.
6. Brodyn V.B., Kalinin A.V. Systems on microcontrollers and BIS programmable
logic - Moscow, Ekon Publishing House, 2002, - 400 p.
9. Information resources
1. http://www.keil.com/dd/docs/datashts/arm/cortex_m0/r0p0/ddi0432c_cortex_m0_r0p0_trm.pdf
2. https://www.arm.com/products/processors/cortex-m/cortex-m0.php
3. https://www.silabs.com/products/mcu/Pages/arm-cortex-m0-32-bit-microcontroller.aspx
4. http://gen.lib.rus.ec/book/index.php?md5=A31DC1FF534659598E1720B6CAF7DD0B
5. http://gen.lib.rus.ec/book/index.php?md5=0E677A3E8D513AF095C58D0F3AB2CF2D
6. https://armkeil.blob.core.windows.net/product/mdk5-getting-started.pdf