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Operating System Overview

Operating System Overview. Operating System Objective and Function. A program that controls the execution of application programs An interface between applications and hardware Main objectives of an OS: Convenience Efficiency

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Operating System Overview

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  1. Operating System Overview

  2. Operating SystemObjective and Function • A program that controls the execution of application programs • An interface between applications and hardware • Main objectives of an OS: • Convenience • Efficiency • Ability to evolve(An OS should be constructed in such a way as to permit the effective development, testing, and introduction of new system functions without interfering with service.)

  3. The Operating System as a User/Computer Interface

  4. Services/Functions provided by OS • Program development • Editors and debuggers. • Program execution • OS handles scheduling of numerous tasks required to execute a program • Access to I/O devices • Each device will have unique interface • OS presents standard interface to users

  5. Controlled access to files • Accessing different media but presenting a common interface to users • Provides protection in multi-access systems • System access • Controls access to the system and its resources • Error detection and response • Internal and external hardware errors • Software errors • Operating system cannot grant request of application • Accounting • A good OS will Collect usage statistics • Monitor performance(response time)

  6. The Operating System as Resource Manager (The Role of an OS) • A computer is a set of resources for the movement, storage, and processing of data. • The OS is responsible for managing these resources. • Operating System as Software: • The OS functions in the same way as an ordinary computer software • It is a program that is executed by the CPU • Operating system relinquishes control of the processor

  7. THE EVOLUTION OF OPERATING SYSTEMS

  8. THE EVOLUTION OF OPERATING SYSTEMS • Serial Processing • Simple Batch Systems • Multiprogrammed batch systems • Time Sharing Systems

  9. Serial Processing • With the earliest computers (late 1940s to the mid-1950s), the programmer interacted directly with the computer hardware; • There was no OS. • These computers were run from a console consisting of display lights, toggle switches, some form of input device, and a printer. • Programs in machine code were loaded via the input device (e.g., a card reader). • If an error halted the program, the error condition was indicated by the lights. • If the program proceeded to a normal completion, the output appeared on the printer

  10. Two main problems: Scheduling: • Most installations used a hardcopy sign-up sheet to reserve computer time. • A user might sign up for an hour and finish in 45 minutes; this would result in wasted computer processing time. • On the other hand, the user might run into problems, not finish in the allotted time, and be forced to stop before resolving the problem. Setup time: • A single program, called a job, could involve loading ,linking and saving • Each steps could involve mounting or dismounting tapes or setting up card decks. • If an error occurred, the user typically had to go back to the beginning of the setup sequence. • Thus, a considerable amount of time was spent just in setting up the program to run

  11. Simple batch system • Earlycomputers were extremely expensive • Important to maximize processor utilization • To improve utilization, the concept of a batch operating system (use of a piece of software known as the monitor)was developed • With this type of OS, the user no longer has direct access to the processor. • Instead, the user submits the job on cards or tape to a computer operator, who batches the jobs together sequentially and places the entire batch on an input device, for use by the monitor. • Each program is constructed to branch back to the monitor when it completes processing, at which point the monitor automatically begins loading the next program.

  12. To understand this scheme: 2 view • Monitor point of view • Processor point of view Monitor point of view • The monitor controls the sequence of events. • Much of the monitor must always be in main memory and available for execution -> resident monitor. • The rest of the monitor consists of utilities and common functions that are loaded as subroutines to the user program at the beginning of any job that requires them. • The monitor reads in jobs one at a time from the input device • As it is read in, the current job is placed in the user program area, and control is passed to this job. • When the job is completed, it returns control to the monitor, which immediately reads in the next job. • The results of each job are sent to an output device, such as a printer, for delivery to the user.

  13. Processor point of view: • At a certain point, the processor is executing instructions from the portion of main memory containing the monitor. • These instructions cause the next job to be read into another portion of main memory. • Once a job has been read in, the processor will encounter a branch instruction in the monitor that instructs the processor to continue execution at the start of the user program. • The processor will then execute the instructions in the user program until it encounters an ending or error condition.

  14. Job Control Language(JCL) • Special type of programming language to control jobs • Provides instruction to the monitor • What compiler to use • What data to use

  15. The monitor, or batch operating system, is simply a computer program. • It relies on the ability of the processor Certain other hardware features are also desirable • Memory protection for monitor • Jobs cannot overwrite or alter • Timer • Prevent a job from monopolizing system • Privileged instructions • Only executed by the monitor • Eg:I/O instructions • Interrupts • This feature gives the OS more flexibility in relinquishing control to and regaining control from user programs.

  16. Modes of Operation • Considerations of memory protection and privileged instructions lead to the concept of modes of operation. • User Mode • User program executes in user mode • Certain areas of memory protected from user access • Certain instructions may not be executed • Kernel Mode • Monitor executes in kernel mode • Privileged instructions may be executed, all memory accessible.

  17. Multiprogrammed Batch Systems • CPU is often idle • Even with automatic job sequencing. • I/O devices are slow compared to processor • computer spends over 96% of its time waiting for I/O devices to finish transferring data to and from the file

  18. Uniprogramming:Processor must wait for I/O instruction to complete before preceding • Multiprogramming: When one job needs to wait for I/O, the processor can switch to the other job

  19. Multiprogramming, Or Multitasking • It is the central theme of modern operating systems.

  20. Time Sharing Systems(Multi tasking) • Multiprogramming handle multiple interactive jobs • Processor’s time is shared among multiple users • Multiple users simultaneously access the system through terminals

  21. Batch Multiprogramming vs. Time Sharing(Both batch processing and time sharing use multiprogramming)

  22. Computer-System Organization

  23. Computer-System Organization

  24. Computer system operation: • Execution(load instruction from CPU to Memory) • Boot or boot up(load operating system to secondary memory to main memory ) • Interrupt: interrupt normal sequencing of processor • Storage devices: (Memory hierarchy) • I/O interface: (I/O techniques)

  25. Operating system structure • Multiprogramming (Batch system) • Timesharing (multitasking)

  26. Operating-System Operations

  27. Operating-System Operations • Interrupt driven (hardware and software) • Hardware interrupt by one of the devices • Software interrupt (exception or trap): • Software error (e.g., division by zero) • Request for operating system service • Other process problems include infinite loop, processes modifying each other or the operating system

  28. Dual-mode operation allows OS to protect itself and other system components • User mode and kernel mode • Mode bit provided by hardware(0->kernel ,1->user) • Provides ability to distinguish when system is running user code or kernel code • Some instructions designated as privileged, only executable in kernel mode • System call changes mode to kernel, return from call resets it to user • Increasingly CPUs support multi-mode operations • i.e. virtual machine manager (VMM) mode for guest VMs

  29. Transition from User to Kernel Mode • Timer to prevent infinite loop / process hogging resources • Timer is set to interrupt the computer after some time period • Keep a counter that is decremented by the physical clock. • Operating system set the counter (privileged instruction) • When counter zero generate an interrupt • Set up before scheduling process to regain control or terminate program that exceeds allotted time

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