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Threads and Concurrency

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1 Threads and Concurrency
B.Ramamurthy 1/13/2019 B.Ramamurthy

2 Thread Unit of work A process has address space, registers, PC and stack (See man fork for the detailed list) A thread has registers, program counter and stack, but the address space is shared with process that started it. This means that a user level thread could be invoked without assistance from the OS. This low overhead is one of the main advantages of threads. If a thread of a process is blocked, the process could go on. Concurrency: Many threads could be operating concurrently, on a multi threaded kernel. User level scheduling is simplified and realistic (bound, unbound, set concurrency, priorities etc.) Communication among the threads is easy and can be carried out without OS intervention. 1/13/2019 B.Ramamurthy

3 Thread requirements An execution state
Independent PC working within the same process. An execution stack. Per-thread static storage for local variables. Access to memory and resources of the creator-process shared with all other threads in the task. Key benefits: less time to create than creating a new process, less time to switch, less time to terminate, more intuitive for implementing concurrency if the application is a collection of execution units. 1/13/2019 B.Ramamurthy

4 Examples of thread usage
Foreground and background work: Consider spreadsheet program: one thread could display menu and get response while another could be processing the request. Increases the perceived speed of the application. Asynchronous processing: Periodic backup (auto-saving) of RAM into disk. A thread could schedule itself to come-alive every 1 minute or so to do this saving concurrently with main processing. Speed execution: In hard-core data-processing simple concurrency can speed up process. Transaction processing: Many independent transactions can be modeled very nicely using threads. Such applications as neural networks, searches, graphics, agent/actor model suit well for thread-implementation. 1/13/2019 B.Ramamurthy

5 Multithreading Multithreading refers to the ability of the operating system to support multiple threads of execution within a single process. A process is defined as the unit of protection and the unit of resource allocation. It has : a virtual address space, protected access to processors, IPC, files, IO resources. 1/13/2019 B.Ramamurthy

6 Threads and Processes A thread is a unit of work to a CPU. It is strand of control flow. A traditional UNIX process has a single thread that has sole possession of the process’s memory and resources. Threads within a process are scheduled and execute independently. Many threads may share the same address space. Each thread has its own private attributes: stack, program counter and register context. 1/13/2019 B.Ramamurthy

7 Threads and Processes 1/13/2019 B.Ramamurthy

8 Thread Operations Basic Operations associated with a thread are:
Spawn : newly created into the ready state Block : waiting for an event Unblock : moved into ready from blocked Finish : exit after normal or abnormal termination. 1/13/2019 B.Ramamurthy

9 Issues When a thread blocks should the process associated with it blocked? Do we need different types of threads for process context and kernel context? Should a thread be bound to a processor? If so, when? How about daemon threads ? Just like zombie processes? Thread scheduling : user level control? How many concurrent threads? How about thread synchronization? 1/13/2019 B.Ramamurthy

10 User-level Threads User Level Threads (ULTs) concept is supported by a thread library. All the thread-related operations are supported by the library: creating, destroying, passing messages, scheduling, saving and restoring contexts. An OS may support only ULT… 1/13/2019 B.Ramamurthy

11 POSIX threads standard
There are two main UNIX thread interfaces: IEEE Portable Operating System Interface (POSIX) standard P1003.1c UNIX International (UI) threads standard. Both have the same basic model of threads, though the actual function tend to use different styles. We will use POSIX standards. 1/13/2019 B.Ramamurthy

12 Thread Control Thread creation (create, run, join, kill)
Thread schedule (yield) Thread synchronization (mutex, barrier) Code for execution 1/13/2019 B.Ramamurthy

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