Basics of Software and Hardware Means Design

Major: Telecommunications and Radio Engineering
Code of subject: 6.172.07.E.142
Credits: 5.00
Department: Theoretical Radio Engineering and Radio Measurement
Lecturer: Senior lecturer, PhD Andriy Bench, professor, doctor of technical sciences Andriy Bondariev
Semester: 7 семестр
Mode of study: денна
Мета вивчення дисципліни: The purpose of the course is to provide future specialists with knowledge and practical skills in the field of software hardware design and debugging. The level of this knowledge should be sufficient for conducting scientific research at the level of the latest world achievements and aimed at their expansion and deepening.
Завдання: The study of an educational discipline involves the formation of competencies in students of education: general competences: - ability to abstract thinking, analysis and synthesis (ЗK-1); - ability to apply knowledge in practice (ЗK-2); - the ability to search and analyze information from various sources; - the ability to learn and master modern knowledge (ЗK-7) - have research skills; professional competences: - knowledge of computer technology and programming, computer skills for developing and testing software for hardware and software of radio engineering systems (embedded systems); - the ability to use design technologies, to participate in the modernization and reconstruction of equipment and devices, in particular with the aim of increasing their efficiency; - basic knowledge of scientific concepts, theories and methods necessary for understanding the principles of operation and functional purpose of software and hardware of telecommunication and radio engineering systems and devices, electronic equipment and equipment.
Learning outcomes: As a result of studying the academic discipline, the student must be able to demonstrate the following learning outcomes: • know the purpose of hardware and software parts of hardware and software tools • have a general understanding of the physical processes that occur during the functioning of software and hardware. • work with sensors connected using GPIO, I2C, SPI interfaces. • transfer data using UART-type serial interfaces. to be able to implement the tasks assigned to him with the help of programming and debugging software and hardware tools.
Required prior and related subjects: Hardware programming Design of hardware and software systems Software testing of hardware and software systems
Summary of the subject: The program of the educational discipline "Fundamentals of hardware and software design" is designed for students of the Institute of Telecommunications, Radio Electronics and Electronic Engineering, who are majoring in Telecommunications and Radio Engineering. The educational discipline is dedicated to the study of modern trends in the development of hardware and software tools, features of the architecture of hardware and software tools. The structure of typical software and hardware tools, data exchange interfaces of software and hardware tools (UART, I2C, SPI, RS-485), peculiarities of software implementation of terminals and working with them are considered. Algorithms of information processing in hardware and software tools are analyzed.
Опис: Names of topics Topic 1 Introduction. Lecture 1. The purpose of study and content of the subject. General information about embedded systems. History of development, prospects, capabilities of modern microcontrollers. Well-known companies that manufacture microcontrollers (STMicroelectronics, Atmel, Cypress, ) Topic 2 Modern trends in the development of PAZ. Lecture 2. Software development life cycle (SDLC) Lecture 3. System on a chip (System on Chip). Internet of Things (Internet of Things) Topic 3. Peculiarities of software architecture for PAZ Lecture 4. Levels of software for embedded systems: software, firmware, hardware. Creating a hardware abstraction layer (HAL). Peculiarities of HAL implementation on different platforms. Lecture 5. The structure of typical PAZ. Sensors. Actuators. Information input and output devices. Means of displaying, transmitting and processing information. Topic 4. PAZ data exchange interfaces. Lecture 6. Universal asynchronous receiver-transmitter interface (UART, RS232). Software implementations of terminals (Tera Term, Putty, Real Term) Lecture 7. I2C interface. Lecture 8. SPI interface. Lecture 9. Interface (RS-485, EIA-485) Lecture 10. Examples of software code for implementing interaction with sensors using I2C, SPI interfaces Topic 5. Information processing algorithms in PAZ. Lecture 11. Organization of digital signal processing (DSP). Lecture 12. Algorithms of artificial intelligence in PAZ. The concept of edge computing inference engines. Lecture 13. Examples of software code for implementing signal processing algorithms.
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; • frontal standardized survey by cards, tests within 5-10 minutes; • frontal verification of homework; • evaluation 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 performance of the control work. Testing on topics passed (in a virtual learning environment). Protection of laboratory work in the form of a survey based on completed reports. Examination control (written component – tests and individual task, oral component – survey based on the list of questions to be studied and submitted for semester control.
Критерії оцінювання результатів навчання: Current control (45 points): - laboratory work - 35 points; - intermediate control - 10 points. Examination control (55 points): - written component - 50 points; - oral component - 5 points. TOTAL: 100 points
Recommended books: Educational and methodological support 1. Bench A.Ya., Bondarev A.P., Mankovsky S.V. Software and hardware design. Synopsis of lectures for students majoring in "Telecommunications and radio engineering". - Lviv: Publishing House of the National University "Lviv Polytechnic", 2017. -70 p. 2. Laboratory workshop on the discipline "Designing software and hardware". 3. Electronic educational and methodological complex in the discipline "Designing software and hardware". 8. Recommended literature Basic 1. Bench A.Ya., Bondarev A.P., Mankovsky S.V. Software and hardware design. Synopsis of lectures for students majoring in "Telecommunications and radio engineering". - Lviv: Publishing House of the National University "Lviv Polytechnic", 2017. -70 p. Auxiliary 2. Robert Ashby. Designer's Guide to the Cypress PSoC 3. PSoC® 4 Pioneer Kit Guide (http://www.cypress.com/file/46056/download) 4. Joseph Yiu. The Definitive Guide to the ARM Cortex-M3, Second Edition 9. Information resources http://vns.lpnu.ua/course/view.php?id=11746

Basics of Software and Hardware Means Design (курсова робота)

Major: Telecommunications and Radio Engineering
Code of subject: 6.172.07.E.146
Credits: 2.00
Department: Theoretical Radio Engineering and Radio Measurement
Lecturer: Senior lecturer, PhD Andriy Bench, professor, doctor of technical sciences Andriy Bondariev
Semester: 7 семестр
Mode of study: денна
Мета вивчення дисципліни: The purpose of the course is to provide future specialists with knowledge and practical skills in the field of software hardware design and debugging. The level of this knowledge should be sufficient for conducting scientific research at the level of the latest world achievements and aimed at their expansion and deepening.
Завдання: The study of an educational discipline involves the formation of competencies in students of education: general competences: - ability to abstract thinking, analysis and synthesis (ЗK-1); - ability to apply knowledge in practice (ЗK-2); - the ability to search and analyze information from various sources; - the ability to learn and master modern knowledge (ЗK-7) - have research skills; professional competences: - knowledge of computer technology and programming, computer skills for developing and testing software for hardware and software of radio engineering systems (embedded systems); - the ability to use design technologies, to participate in the modernization and reconstruction of equipment and devices, in particular with the aim of increasing their efficiency; - basic knowledge of scientific concepts, theories and methods necessary for understanding the principles of operation and functional purpose of software and hardware of telecommunication and radio engineering systems and devices, electronic equipment and equipment.
Learning outcomes: As a result of studying the academic discipline, the student must be able to demonstrate the following learning outcomes: • know the purpose of hardware and software parts of hardware and software tools • have a general understanding of the physical processes that occur during the functioning of software and hardware. • work with sensors connected using GPIO, I2C, SPI interfaces. • transfer data using UART-type serial interfaces. to be able to implement the tasks assigned to him with the help of programming and debugging software and hardware tools.
Required prior and related subjects: Hardware programming Design of hardware and software systems Software testing of hardware and software systems
Summary of the subject: The program of the educational discipline "Fundamentals of hardware and software design" is designed for students of the Institute of Telecommunications, Radio Electronics and Electronic Engineering, who are majoring in Telecommunications and Radio Engineering. The educational discipline is dedicated to the study of modern trends in the development of hardware and software tools, features of the architecture of hardware and software tools. The structure of typical software and hardware tools, data exchange interfaces of software and hardware tools (UART, I2C, SPI, RS-485), peculiarities of software implementation of terminals and working with them are considered. Algorithms of information processing in hardware and software tools are analyzed.
Опис: Names of topics Topic 1 Introduction. Lecture 1. The purpose of study and content of the subject. General information about embedded systems. History of development, prospects, capabilities of modern microcontrollers. Well-known companies that manufacture microcontrollers (STMicroelectronics, Atmel, Cypress, ) Topic 2 Modern trends in the development of PAZ. Lecture 2. Software development life cycle (SDLC) Lecture 3. System on a chip (System on Chip). Internet of Things (Internet of Things) Topic 3. Peculiarities of software architecture for PAZ Lecture 4. Levels of software for embedded systems: software, firmware, hardware. Creating a hardware abstraction layer (HAL). Peculiarities of HAL implementation on different platforms. Lecture 5. The structure of typical PAZ. Sensors. Actuators. Information input and output devices. Means of displaying, transmitting and processing information. Topic 4. PAZ data exchange interfaces. Lecture 6. Universal asynchronous receiver-transmitter interface (UART, RS232). Software implementations of terminals (Tera Term, Putty, Real Term) Lecture 7. I2C interface. Lecture 8. SPI interface. Lecture 9. Interface (RS-485, EIA-485) Lecture 10. Examples of software code for implementing interaction with sensors using I2C, SPI interfaces Topic 5. Information processing algorithms in PAZ. Lecture 11. Organization of digital signal processing (DSP). Lecture 12. Algorithms of artificial intelligence in PAZ. The concept of edge computing inference engines. Lecture 13. Examples of software code for implementing signal processing algorithms.
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; • frontal standardized survey by cards, tests within 5-10 minutes; • frontal verification of homework; • evaluation 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 performance of the control work. Testing on topics passed (in a virtual learning environment). Protection of laboratory work in the form of a survey based on completed reports. Examination control (written component – tests and individual task, oral component – survey based on the list of questions to be studied and submitted for semester control.
Критерії оцінювання результатів навчання: Current control (45 points): - laboratory work - 35 points; - intermediate control - 10 points. Examination control (55 points): - written component - 50 points; - oral component - 5 points. TOTAL: 100 points
Recommended books: Educational and methodological support 1. Bench A.Ya., Bondarev A.P., Mankovsky S.V. Software and hardware design. Synopsis of lectures for students majoring in "Telecommunications and radio engineering". - Lviv: Publishing House of the National University "Lviv Polytechnic", 2017. -70 p. 2. Laboratory workshop on the discipline "Designing software and hardware". 3. Electronic educational and methodological complex in the discipline "Designing software and hardware". 8. Recommended literature Basic 1. Bench A.Ya., Bondarev A.P., Mankovsky S.V. Software and hardware design. Synopsis of lectures for students majoring in "Telecommunications and radio engineering". - Lviv: Publishing House of the National University "Lviv Polytechnic", 2017. -70 p. Auxiliary 2. Robert Ashby. Designer's Guide to the Cypress PSoC 3. PSoC® 4 Pioneer Kit Guide (http://www.cypress.com/file/46056/download) 4. Joseph Yiu. The Definitive Guide to the ARM Cortex-M3, Second Edition 9. Information resources http://vns.lpnu.ua/course/view.php?id=11746