Lectures related to Introduction to Operating Systems

Process Protection and Efficient Execution

Explores process execution, protection, and efficient OS mechanisms for secure and reliable multi-program environments.

The Role of Operating Systems: Foundations and Functions

Covers the essential role of operating systems in managing hardware and enabling applications across various devices.

Operating Systems: The Illusion of Resources

Explains how operating systems create the illusion of dedicated and infinite resources through virtualization and process abstraction.

Communication Amid Uncertainty

Explores challenges in human communication, context importance, compression problems, uncertain functionality, and proof verification.

Processes: Overview and Management

Covers the basics of processes in operating systems, including creation, memory layout, state transitions, virtualization, APIs, and program execution.

Memory Virtualization: Address Space Abstraction and Management

Covers memory virtualization, focusing on address space abstraction and the management of memory resources by the operating system.

Device Management in Operating Systems: Chaperones and Persistence

Discusses device management in operating systems, focusing on device drivers, persistence, and performance optimization techniques.

Process Abstraction: Managing Execution and Resources

Covers process abstraction in operating systems, focusing on execution management and resource allocation for concurrent program execution.

Automatic Synthesis of OS Code

Covers the automatic synthesis of OS code to ease the burden of developers in configuring translation hardware.

Virtualization Principles: Mechanisms and Applications

Covers the principles and mechanisms of virtualization, including multiplexing, aggregation, and emulation, with a focus on virtual memory implementation.

Aggregation and Emulation: Resource Management in Computer Systems

Covers aggregation and emulation techniques for managing computer system resources effectively.

Operating System Roles: Referee and Resource Manager

Covers the operating system's role as a referee in managing resources and ensuring security through fault isolation, resource sharing, and communication.

Risk Governance Framework: Understanding and Managing Risks

Discusses the challenges in characterizing risk knowledge and managing uncertain scientific knowledge in risk evaluation and decision-making.

Information, Computation, and Society

Explores the history and societal impact of information, communication, and computation sciences in the digital era.

Operating Systems: The Role of Glue Services

Covers the role of operating systems as glue services that simplify application design and enhance resource management.

Device Drivers: Managing Hardware Complexity in Operating Systems

Explains the function of device drivers in managing hardware complexity within operating systems.

Visual Extensions in the Workplace

Explores the use of visual extensions, such as virtual reality and augmented reality, in enhancing workplace efficiency and communication.

Introduction to Information, Computation, and Communication

Introduces the fundamental principles of Information, Computation, and Communication theory, covering genomics, medical imaging, and assistive technology.

Memory Virtualization: Page-Based Management Techniques

Discusses page-based virtual memory, focusing on its mechanisms, benefits, and address translation techniques.

Scalable Synchronization Mechanisms for Manycore Operating Systems

Explores scalable synchronization mechanisms for many-core operating systems, focusing on the challenges of handling data growth and regressions in OS.