Кафедра "Комп'ютерна інженерія та програмування"

Постійне посилання колекціїhttps://repository.kpi.kharkov.ua/handle/KhPI-Press/1095

Офіційний сайт кафедри https://web.kpi.kharkov.ua/cep

Від 26 листопада 2021 року кафедра має назву – "Комп’ютерна інженерія та програмування"; попередні назви – “Обчислювальна техніка та програмування”, “Електронні обчислювальні машини”, первісна назва – кафедра “Математичні та лічильно-вирішальні прилади та пристрої”.

Кафедра “Математичні та лічильно-вирішальні прилади та пристрої” заснована 1 вересня 1961 року. Організатором та її першим завідувачем був професор Віктор Георгійович Васильєв.

Кафедра входить до складу Навчально-наукового інституту комп'ютерних наук та інформаційних технологій Національного технічного університету "Харківський політехнічний інститут". Перший випуск – 24 інженери, підготовлених кафедрою, відбувся в 1964 році. З тих пір кафедрою підготовлено понад 4 тисячі фахівців, зокрема близько 500 для 50 країн світу.

У складі науково-педагогічного колективу кафедри працюють: 11 докторів технічних наук, 21 кандидат технічних наук, 1 – економічних, 1 – фізико-математичних, 1 – педагогічних, 1 доктор філософії; 9 співробітників мають звання професора, 14 – доцента, 2 – старшого наукового співробітника.

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  • Ескіз
    Документ
    Methodological instructions for independent works in the "Computer electronics" academic discipline
    (National technical university "Kharkiv polytechnic institute", 2024) Skorodielov, Volodymyr Vasyliovych; Podorozhniak, Andrii Oleksiiovych
    Computer electronics is one of the fundamental disciplines in the field of Computer Engineering. This discipline provides the theoretical and engineering training necessary to perform research and practical work on the research, development and operation of computer hardware, embedded microprocessor and microcontroller systems, computer systems and networks for various purposes (information, medical and industrial). As a result of studying the academic discipline, students should know: classification and purpose of the main elements and basic nodes of analog devices, the basics of their operation, characteristics, parameters and equivalent circuits; basics of analysis and calculation of electronic circuits; basic principles of construction and operation of various types of analog devices, such as amplifiers, generators, power sources, etc. Also, students should be able to use various electronic devices in electronic circuits, evaluate the parameters of electronic devices depending on the features of their use; analyze and develop circuits of electronic devices of functional units of computers based on analog microcircuits; measure parameters, find malfunctions, debug and test analog devices and nodes, as well as operate them; use technical and reference literature, as well as standards in their development and operation; to use electronic circuit simulation programs when developing analog devices. It is obvious that such a large amount of knowledge and skills cannot be mastered qualitatively without regular and rather intense independent work of students both during classroom classes and during independent work at home. Independent work develops the skills of continuous self-improvement and the ability to self-educate, activates search and research activities and provides an opportunity to acquire knowledge that is necessary for conducting practical and scientific activities.
  • Ескіз
    Документ
    Methodological instructions for completing a calculation and graphic task in the "Computer electronics" academic discipline
    (National technical university "Kharkiv polytechnic institute", 2024) Skorodielov, Volodymyr Vasyliovych; Podorozhniak, Andrii Oleksiiovych; Heiko, Hennadii Viktorovych
    Methodical instructions for a computational and graphic task provide for independent work in the discipline "Computer electronics", the goals of which are: to give knowledge about the element base of computers (discrete passive electronic components, semiconductor devices, microcircuits), the principles of constructing on their basis typical functional units of analog and analog-digital devices of computers and various kinds of converters in microprocessor and microcontroller systems; to provide theoretical and engineering training necessary for the development, research and operation of various analog computer devices, microprocessor and microcontroller systems, as well as specialized computer systems for various purposes; to provide practical skills in the development and analysis of computer hardware, microprocessor and microcontroller systems using modern programs for modeling electronic circuits. The performance of the computational and graphic task involves the consolidation of knowledge and the acquisition of practical skills in the construction, calculation and modeling of analog device circuits. Each student receives an individual task in accordance with its version and clarifies the initial data with the teacher. The study of the operation of circuits is carried out using programs for modeling electronic circuits. Theoretical information and reference materials that are necessary for the performance of this calculation and graphic task are given in the recommended literature and lecture materials. The execution of a computational and graphic task is considered on the examples.
  • Ескіз
    Документ
    Methodological instructions for practical work in the "Computer electronics" academic discipline
    (National technical university "Kharkiv polytechnic institute", 2024) Skorodielov, Volodymyr Vasyliovych; Podorozhniak, Andrii Oleksiiovych; Heiko, Hennadii Viktorovych
    Methodical instructions take into account the possibility of performing practical work both on universal circuit boards with sets of jumpers, discrete passive and semiconductor elements, transistors and microcircuits, and using electronic circuit modeling programs. When conducting practical work, the following provisions should be followed: 1) practical classes are conducted face-to-face in the entire group, the volume of tasks is determined by the teacher; 2) each practical work requires independent preparation, including the study of theoretical material and implementation the necessary project work, theoretical analysis of the developed schemes, construction of time diagrams; 3) In the course of practical work, students must assemble the scheme on a universal circuit board or in the modeling program and perform its research; 4) a report is drawn up for each practical work, which includes: the topic and purpose of the work, an individual task, research results with explanations, conclusions on all experiments; 5) all developed circuits and research results created in simulation programs must be presented to the teacher to demonstrate the functionality of the circuit or device being modeled. When submitting a practical work report, students should be ready to answer the control questions that are in methodical instructions and additional questions based on the material being studied.
  • Ескіз
    Документ
    Methodical instructions for laboratory works in the "Embedded systems" academic discipline
    (National technical university "Kharkiv polytechnic institute", 2024) Lipchanskyi, Maksym Valentynovych; Skorodielov, Volodymyr Vasyliovych; Lipchanska, Oksana Valentinivna
    The methodical instructions contain a technique for performing laboratory works, the purpose of which is to familiarize with the principles of microcontrollers and to develop practical skills for their engineering design and debugging. The technique is designed for both the use of universal construction stands with a set of discrete elements, microcircuits, and replaceable modules, and for the use of computer modeling packages. The following provisions should be followed when carrying out laboratory work: 1) laboratory work is carried out frontally in the whole group, the amount of tasks is determined by the lecturer; 2) independent preparation for each laboratory work is required, including the study of theoretical material and the implementation of the necessary project work; 3) during the laboratory work, students must complete an individual task and provide the teacher with all developed programs and research results; 4) a report is required for each laboratory work. The methodical instructions were developed at the Department of Computer Engineering and Programming and can be used for training of certified specialists in the major "Computer Engineering".
  • Ескіз
    Документ
    Methodological instructions for independent works in the "Computer circuitry" academic discipline
    (National technical university "Kharkiv polytechnic institute", 2024) Skorodielov, Volodymyr Vasyliovych; Lipchanska, Oksana Valentinivna
    Computer Circuitry is one of the fundamental disciplines in the field of Computer Engineering. This discipline provides the theoretical and engineering training necessary to perform research and practical work on the research, development and operation of computer hardware, embedded microprocessor and microcontroller systems, computer systems and networks for various purposes (information, medical and industrial). As a result of studying the discipline, students are required to know: the element base of computers (digital integrated circuits of hard and programmable logic with varying degrees of integration), the principles of building on their basis typical functional units of digital devices of computers, microprocessor and microcontroller systems. Students are also required to be able to: analyze and develop schemes of digital functional units and devices of computers based on digital chips of hard and programmable logic; measure parameters, find faults, debug and test digital units and devices, as well as operate them; use technical and reference literature, as well as standards in their development and operation. Students are also required to have practical skills in the development and analysis of computer hardware, microprocessor and microcontroller systems using modern electronic modeling systems. It is obvious that such a large amount of knowledge and skills cannot be mastered without regular and rather intense independent work of students both during classroom works and during independent work at home. Independent work develops the skills of continuous self-improvement and the ability to self-education, intensifies search and research activities and provides an opportunity to acquire the knowledge necessary for practical and scientific activities.
  • Ескіз
    Документ
    Methodological instructions for practical works in the "Computer circuitry" academic discipline
    (National technical university "Kharkiv polytechnic institute", 2024) Skorodielov, Volodymyr Vasyliovych; Heiko, Hennadii Viktorovych; Lipchanska, Oksana Valentinivna
    «Computer circuitry» is one of the fundamental disciplines in the field of «Computer Engineering», which provides theoretical and engineering training necessary for the implementation of scientific research and practical work on the research, development and operation of computer hardware, embedded microprocessor and microcontroller systems, computer systems and networks for various purposes (information, medical and industrial). As a result of studying the discipline, students should know: the element base of computers (digital integrated circuits of hard and programmable logic with varying degrees of integration), the principles of building on their basis typical functional units of digital devices of computers, microprocessor and microcontroller systems.
  • Ескіз
    Документ
    Methodological instructions for laboratory works in the "Computer circuitry" academic discipline
    (National technical university "Kharkiv polytechnic institute", 2024) Skorodielov, Volodymyr Vasyliovych; Heiko, Hennadii Viktorovych; Lipchanska, Oksana Valentinivna
    «Computer circuitry» is one of the fundamental disciplines in the field of «Computer Engineering», which provides theoretical and engineering training necessary for the implementation of scientific research and practical work on the research, development and operation of computer hardware, embedded microprocessor and microcontroller systems, computer systems and networks for various purposes (information, medical and industrial). As a result of studying the discipline, students should know: the element base of computers (digital integrated circuits of hard and programmable logic with varying degrees of integration), the principles of building on their basis typical functional units of digital devices of computers, microprocessor and microcontroller systems.