Students who can benefit from this course are Programmers, System Engineers, and Support Personnel.

Module 1 - Introducing the Solaris 9 Operating Environment

• Define the purpose of the operating system, explain the concept of kernel layering, and describe the different layers
• Describe user processes and libraries
• Explain what memory management means in the Solaris Operating Environment
• Describe the concept of caching
• Explain the concept of signals
• Explain the kernel entry mode
• Describe the concept of scheduling
• List the new features in recent releases of the Solaris 9 Operating Environment

Module 2 - Examining Multithread Architecture

• Explain the difference between symmetrical multiprocessing (SMP) and asymmetrical multiprocessing (ASMP)
• Define an application and a kernel thread
• Define a lightweight process (LWP)
• Explain the difference between a thread and an LWP
• List the structures that describe the state of a kernel thread, an LWP, and a process
• Explain how a mutex lock works
• Define a condition variable
• Describe how a counting semaphore is implemented
• Explain how a multiple-reader, single-writer lock works
• Explain the advantages of multiple LWPs for a given process

Module 3 - Reviewing Hardware Memory Management

• List the steps involved in virtual-to-physical address translation
• List the differences between the older Sun memory management unit (MMU) and the SPARC reference MMU
• Describe types of cache implemented on Sun systems

Module 4 - Examining Software Memory Management

• List the layers of the SunOS 5.x software VM system and define the role of each layer
• List the mapping structures that make up process address space
• Locate the page structures and process address space structures in kadb and identify the fields within the structures
• Explain how the memory mapping and memory control system calls can be used by an application programmer to effectively manage process memory needs

Module 5 - Examining Paging and Swapping

• Explain the layered approach to page-fault handling
• List the conditions under which the page daemon runs
• List the functions of the page daemon
• List the conditions under which the swapper runs

Module 6 - Examining the swapfs File System

• List the shortcomings of the SunOS 4.x software swap management
• Describe the changes that were made to the anonymous memory layer to accommodate the implementation of the swapfs file system
• List two advantages obtained by adding the swapfs file system to the SunOS 5.x software

Module 7 - Examining Scheduling

• List at least two major barriers to real-time processing in the traditional UNIX architectures, such as System V Release 3 (SVR3), 4.3 Berkeley Software Design version of UNIX (BSD), and SunOS 4.x software
• Explain the difference between a fully preemptable kernel and a kernel with preemption points
• List a routine used to place a thread on a dispatch queue
• Describe when a thread is placed at the head of a dispatch queue
• Describe how the sleep queues are ordered
• Define a user-level preemption
• Define a kernel-level preemption
• Define deterministic dispatch response (dispatch latency)
• Define priority inversion

Module 8 - Examining Process Lifetime

• Define the different system calls used to create a new process
• Describe the kernel routines used to implement process creation
• List the different types of executables supported in the Solaris OE software
• Explain the routines used to implement executable and linking format (ELF) executables
• List the advantages of the ELF executable format
• Describe the actions taken by a process when it exits
• Explain the waitid(2) system call and how it is implemented

Module 9 - Examining Signals

• List the different types of signals that can be delivered to a process or thread
• Explain the difference between a trap signal and an interrupt signal
• List the signal management routines and describe their functions
• Describe what the signal facility is for and how a signal is delivered

Module 10 - Examining the File System

• Describe the vnode interface layer to a file system
• List the four fields in a directory entry
• Explain the advantages of the 4.3 BSD file system
• Describe the function of the superblock and cylinder group structures
• List the fields in the disk inode structure and explain what they are used for
• Name the routines involved in determining the global placement policies
• Explain the allocation routines using the flowcharts and describe how the fragments are located quickly