The purpose of the discipline is the creation of raster and vector images, the use of computer graphics and animation products in the user environment. After completing the course, the student will be able to work with graphic editors like Photoshop, CorelDRAW, AutoCAD and create short animations with interactive elements based on vector and raster graphics.

The purpose of the discipline is to master general knowledge of the architecture of microprocessor systems (MPS), the processes of information exchange on buses, processor functions, addressing methods, the main processor commands, the structure of the processor core, the organization of program memory, the organization of I/O ports, timers and auxiliary hardware. As a result of studying the discipline, the student will gain skills in using and designing modern process and production management software products; working with modern types of structural microprocessor devices. The student can use the acquired knowledge in the future in the research, design and operation of automation systems of industrial facilities.

Basic concepts, terms and concepts. The discipline deals with the components of computer systems and computer processes. Functions of operating systems. System management tasks. Organization and management of processes. Control of the input / output system. Access method. Program levels of input output. Basic functions and components of the file system. Methods of file system implementations. Memory management. Virtual memory organization and memory allocation strategies. Management of telecommunication access.

acquaintance with modern technologies of object-oriented programming based on Java. Features of object-oriented programming in Java; objects and classes; inheritance, polymorphism and encapsulation. Representation in the form of a set of objects with similar properties and a set of actions that can be performed with them.

The purpose of the discipline is for students to form an idea of the concept, types of computer graphics, raster graphics, vector graphics, fractal graphics, basic concepts of three-dimensional graphics, tools for working with raster graphics. The discipline is aimed at revealing the integrity of the perception of these data processing processes by working with vector graphics, Adobe Photoshop, Adobe Illustrator, CorelDRAW, 3D max graphic editors, as well as teaching students how to use graphic methods to achieve visualization.

The purpose of the discipline is to develop students' skills in building modern operating systems. As a result of the training, the student will be able to apply devices of Linux operating systems, apply fundamental concepts from the achieved technological level and specific requirements to a specific implementation, and implement their relationship with various innovations in this area.

The purpose of the discipline is the formation of students' theoretical knowledge and practical skills in the field of Internet technology, the integration of local networks into the global telecommunications network Internet, data exchange protocols used on the Internet. The student acquires the skills of developing Internet resources using hypertext markup language, cascading style sheets, client and server scripting programming languages, organization of multimedia systems architecture, synchronization of processes and flows in Internet technologies. After completing the training, the student will be able to create software applications based on modern Internet technologies, determine the network section with the maximum delay in transmitting IP packets, form HTTP requests and analyze HTTP response fields, develop hypertext documents.

The purpose of the discipline is to study the basic concepts and trends in the development of information systems, to master the theoretical foundations of building information systems and networks, to develop practical skills to implement the tasks of this subject area. Upon completion of the course, the student will be able to demonstrate knowledge of information processes, computer software, the basics of building and functioning of information systems and networks, implement CIS, apply methods of designing information networks, calculate and design local area networks based on Ethernet technology to solve a wide range of tasks, own technologies for building and maintaining infocommunication systems and networks.

Introduction to computer graphics. Flash-animation. Video and sound processing programs. Graphic editor Adobe Photoshop. Drawing technique in Adobe photoshop. CorelDraw.3D STUDIO MAX. An overview of the elements of the interface of 3D STUDIO MAX. Working with units, bindings, and other 3D STUDIO MAX drawing AIDS. Object selection methods in 3D STUDIO MAX. Using the resource Manager and extension Module in 3D STUDIO MAX. Conceptual basis of object modeling in 3D STUDIO MAX.

The purpose of the discipline is to train a specialist who has the tools to substantiate the theoretical foundations of information theory, methods and means of collecting, transmitting and processing information, determining the amount of information in the final object, using stochastic patterns for data compression: Shannon-Fano code, Huffman code, arithmetic code, combinatorial approach to the concept of information, probabilistic approach to the concept of information, has practical skills in modern technologies of information transmission and transformation. After completing the training, the student demonstrates skills in the types and forms of information presentation, the principles of encoding and decoding information, current trends in OS development, the basics of information theory, methods of effective and noise-resistant coding of information, methods of analog-to-digital signal conversion, methods of digital data compression; count the amount of information in messages, encode digital data, apply in research and applied activities, methods of encoding and decoding information.

The purpose of the discipline is to form students' fundamental knowledge about the main threats and channels of information leakage, as well as methods and means of ensuring the protection and security of information at the legal, organizational, software, hardware levels. As a result of studying the discipline, students will receive systematic knowledge about threats and channels of information leakage, principles, methods and means of ensuring the protection and security of information at various levels.

The purpose of the discipline is to train students in the field of optimization theory for solving engineering problems; to give an idea of the principles and methods of mathematical modeling of operations; to introduce the main types of problems of operations research and methods of their solution for practical application. As a result of studying the discipline, students will receive theoretical and practical skills in the application of alternative analysis in solving single-criteria and multi-criteria optimization problems; methods of constructing mathematical models in solving professional problems.

The purpose of the discipline is the formation of the student's practical skills in modern object-oriented programming technology. Upon completion of the course, the student will be able to program and debug object-oriented programs, as well as evaluate the effectiveness and choose the most appropriate technological approaches to development and analyze software development management processes.

The purpose of the discipline is to form students' basic understanding of the development of engineering and technology, scientific achievements in accordance with the chosen educational program. The discipline gives students a systematic understanding of the current state and trends in the development of the food, processing, industry, agricultural and industrial complex, including the possibilities of new information and communication technologies. The study of the basic concept in the field of standardization and certification, the laws of the Republic of Kazakhstan on technical regulation, standardization, management systems, new methods and practices of the QMS. As a result of studying the discipline, the student will receive theoretical and practical skills in the organization of the task, as well as the formulation and solution of highly motivated non-standard professional tasks, problems and compliance with the ethics of professional activity.

Introduction to computer graphics. Flash-animation. Video and sound processing programs. Graphic editor Adobe Photoshop. Drawing technique in Adobe photoshop. CorelDraw.3D STUDIO MAX. An overview of the elements of the interface of 3D STUDIO MAX. Working with units, bindings, and other 3D STUDIO MAX drawing AIDS. Object selection methods in 3D STUDIO MAX. Using the resource Manager and extension Module in 3D STUDIO MAX. Conceptual basis of object modeling in 3D STUDIO MAX.

Creation and application of algorithmic, hardware and software systems for automation, management and control of technological processes and production, ensuring the production of high-quality, safe, competitive products freeing a person completely or partially from direct participation in the processes of obtaining, transforming, transmitting, using and managing production.

This discipline provides for the study of the basic concepts of parallel computing, necessary for the subsequent study of models, methods and technologies of parallel programming. In a simple and understandable form, the course provides examples of modern high-performance computing systems, discusses ways to analyze the complexity of calculations and assess the possibility of their parallel execution, provides the basics of developing parallel methods. The purpose of the discipline is to familiarize students with the totality of information processing tools and personnel combined to achieve certain goals.

The purpose of mastering the discipline is to form the basics of knowledge and skills of students in the automation of technological processes and production, mastering the methods of building functional devices and control systems, regulation and management of technological objects and systems, acquisition by students of skills in engineering methods of object research, control algorithms and programs, checking their operability on a computer. As a result of studying the discipline, students will gain skills in the practical application of a complex of technical means of integrated and distributed systems by technological processes.

The purpose of the discipline is to form students' knowledge on the principles of building modern operating systems, including those based on the Linux kernel. The discipline contains sections on the fundamental principles of Linux operating system devices, the possibilities of applying fundamental concepts from the achieved technological level and specific requirements for a specific implementation, their relationship with various innovations in this field.

The goal and objectives of the discipline are to study the basic concepts and trends in the development of information systems, mastering the theoretical foundations of building information systems and networks, developing practical skills for the implementation of tasks in this subject area. Learning outcomes: after completing the course, the student should know: information processes, computer software, the basics of building and functioning of information systems and networks, stages of development of information systems, processes that ensure the operation of an information system, a basic seven-level reference model of interaction of open OSI systems, corporate information systems ... features of the implementation of corporate information systems. be able to work effectively in a local network; to work effectively on the global Internet, to implement the main stages of building networks, technology for managing information exchange in networks; apply methods of designing information networks; calculate and design local area networks based on Ethernet technology to solve a wide range of tasks, own technologies for building and maintaining infocommunication systems and networks.

The goal and objectives of the discipline are to study the basics of programming in the high-level programming language Python, the formation of algorithmic thinking, basic concepts of structured programming, the development of students'' logic, to develop skills and abilities to use Python libraries. Learning outcomes: after completing the course, the student should know: the basics of Python programming, basic programming techniques in the Python language, some standard algorithms and regular expressions, as well as additional theoretical questions related to the operation of computing systems and the processing of text data, numbers and strings in Python , data types in Python, graphics in Python, functions and files in Python; be able to: solve problems using branching commands, loop; to design and develop relatively complex applications related to receiving, processing and visualization of various information (stored locally or on the Internet) using an object-oriented approach.

The course of this discipline is aimed at forming a system of knowledge among students about the theoretical foundations of operating systems and obtaining practical skills in network administration, studying and practical knowledge of Windows and Linux operating systems, including the organization and configuration of a local computer network, mastering basic network security tools. After completing the course, the student will be able to design and administer computer networks. The purpose of studying the discipline is to form a set of students' knowledge and ideas about operating systems, their types and features; about the possibility and principles of functioning of computer networks; about the organization of access to distributed data; about the organization of heterogeneous information presented in various formats into a single whole; about ensuring active human influence on these data in real time time

The purpose of the discipline is to study the theoretical foundations of information security, methods and means of protecting information in information systems. After completing the course, the student will be able to implement simple information technologies that implement methods of protecting information, assess threats to the security of an informatization object; apply vulnerability assessment techniques in information and telecommunications networks and develop an information security policy.

The purpose of the discipline is to form students'' fundamental knowledge about the main threats and channels of information leakage, as well as methods and means of ensuring the protection and security of information at the legal, organizational, physical, software, hardware and software-hardware levels. As a result of studying the discipline, students will receive systematic knowledge about threats and channels of information leakage, principles, methods and means of ensuring the protection and security of information at various levels. The student can use the acquired knowledge in the future when researching, designing information security systems.As a result of studying the discipline, students should get a systematic knowledge of the threats and channels of information leakage, principles, methods and means of ensuring the protection and security of information at various levels. The student can use the acquired knowledge in the future in the research, design of information security systems.

The purpose of the discipline is to form students' understanding of cloud technologies as a modern means of providing ubiquitous and convenient network access to computing resources, and virtualization technologies. After completing the course, the student will have knowledge of the basic concepts of cloud technologies, software development for cloud systems, use of cloud programming methods, know the architecture and cloud computing services for enterprise information systems.

The purpose of the discipline is to form students' practical skills in creating mobile applications on Android-Kotlin in the AndroidStudio and IDE development environment. As a result of the training, the student will be able to design mobile applications in the object-oriented Kotlin language for the Android platform.

The purpose of the discipline is to form students' practical skills in creating mobile applications on Android-Kotlin. The Kotlin language is studied in depth in streaming data on traffic generation, and also, students solve problems on code optimization. This course is a logical continuation of the first course "Mobile Application Development 1 (Android-Kotlin)".

The purpose of the discipline is to form practical skills of a student in 3D design, to get acquainted with various design techniques and ways of their application. As a result of studying the discipline, the student will receive theoretical and practical skills on dynamic drawings of the center plan, road plan, longitudinal profile, transverse profile, etc. with dynamic parameters of changes to the environment.

Modern methods and means of communication in ordinary and professional activities with the help of information technologies for the search, collection, storage, processing and dissemination of information are considered. The methods of practical implementation of training focused on the use of multimedia technologies, artificial intelligence systems, information systems operating on the basis of computer technology, providing automation of input, accumulation, processing, transmission, operational management of information are studied.

The purpose of the discipline is the formation of practical skills for students on photogrammetric software products, which can not only extract snips from drones but also the creation of accurate 2D and 3D cards. Students learn to work with different types of data that can be exported to different industry products AutoCAD Civil 3D, CREDO, Digitals, Micromine, K-mine, Surpac, and Geovia.