Covers the principles and mechanisms of virtual memory in computer systems, focusing on isolation, efficiency, and the role of the Memory Management Unit.
Covers the concept of virtual memory and the isolation of processes through address spaces, discussing segmentation, paging, and memory implementation details.
Covers the organization and management of page tables in computer systems, focusing on their structure, challenges, and the advantages of multi-level page tables.
Covers the principles and mechanisms of virtualization, including multiplexing, aggregation, and emulation, with a focus on virtual memory implementation.
Covers semester projects, project logistics, successful project examples, proposal writing, and various project options related to systems, threading, serverless programming, virtual memory, cloud benchmarking, and AI accelerators.
Explores memory virtualization, addressing address spaces, page tables, caching, and system design constants to optimize memory performance and reliability.
Provides an overview of computer architecture, focusing on the von Neumann architecture and its components, including the CPU and memory management units.
