[86c1f1c3] | 1 | \makeglossaries |
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| 2 | |
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| 3 | \longnewglossaryentry{hthrd} |
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| 4 | {name={hardware thread}} |
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| 5 | { |
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| 6 | Threads representing the underlying hardware directly. |
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| 7 | |
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| 8 | \textit{Synonyms : User threads, Lightweight threads, Green threads, Virtual threads, Tasks.} |
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| 9 | } |
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| 10 | |
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| 11 | \longnewglossaryentry{thrd} |
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| 12 | {name={threads}} |
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| 13 | { |
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| 14 | Threads created and managed inside user-space. Each thread has its own stack and its own thread of execution. User-level threads are invisible to the underlying operating system. |
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| 15 | |
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| 16 | \textit{Synonyms : User threads, Lightweight threads, Green threads, Virtual threads, Tasks.} |
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| 17 | } |
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| 18 | |
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| 19 | \longnewglossaryentry{kthrd} |
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| 20 | {name={kernel-level thread}} |
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| 21 | { |
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| 22 | Threads created and managed inside kernel-space. Each thread has its own stack and its own thread of execution. Kernel-level threads are owned, managed and scheduled by the underlying operating system. |
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| 23 | |
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| 24 | \textit{Synonyms : OS threads, Hardware threads, Physical threads.} |
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| 25 | } |
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| 26 | |
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| 27 | \longnewglossaryentry{fiber} |
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| 28 | {name={fiber}} |
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| 29 | { |
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| 30 | Fibers are non-preemptive user-level threads. They share most of the caracteristics of user-level threads except that they cannot be preempted by another fiber. |
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| 31 | |
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| 32 | \textit{Synonyms : Tasks.} |
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| 33 | } |
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| 34 | |
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| 35 | \longnewglossaryentry{job} |
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| 36 | {name={job}} |
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| 37 | { |
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| 38 | Unit of work, often sent to a thread pool or worker pool to be executed. Has neither its own stack nor its own thread of execution. |
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| 39 | |
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| 40 | \textit{Synonyms : Tasks.} |
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| 41 | } |
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| 42 | |
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| 43 | \longnewglossaryentry{pool} |
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| 44 | {name={thread-pool}} |
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| 45 | { |
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| 46 | Group of homogeneuous threads that loop executing units of works after another. |
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| 47 | |
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| 48 | \textit{Synonyms : } |
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| 49 | } |
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| 50 | |
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| 51 | \longnewglossaryentry{preemption} |
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| 52 | {name={preemption}} |
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| 53 | { |
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| 54 | Involuntary context switch imposed on threads at a given rate. |
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| 55 | |
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| 56 | \textit{Synonyms : None.} |
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| 57 | } |
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| 58 | |
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| 59 | \longnewglossaryentry{proc} |
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| 60 | {name={virtual processor}} |
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| 61 | { |
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| 62 | |
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| 63 | } |
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| 64 | |
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| 65 | \longnewglossaryentry{Q} |
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| 66 | {name={work-queue}} |
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| 67 | { |
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| 68 | |
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| 69 | } |
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| 70 | |
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| 71 | \longnewglossaryentry{at} |
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| 72 | {name={fred}} |
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| 73 | { |
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| 74 | Abstract object representing an unit of work. Systems will offer one or more concrete implementations of this concept (\eg \gls{kthrd}, \gls{job}), however, most of the concept of schedulings are independent of the particular implementations of the work representation. For this reason, this document use the term \Gls{at} to mean any representation and not one in particular. |
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| 75 | } |
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| 76 | |
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| 77 | \longnewglossaryentry{atsched} |
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| 78 | {name={Scheduling a \gls{at}}} |
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| 79 | { |
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| 80 | Scheduling an \gls{at} refers to the act of notifying the scheduler that a task is ready to be ran. When representing the scheduler as a queue of tasks, scheduling is the act of pushing a task onto the end of the queue. This doesn't necesserily means the task will ever be allocated CPU time (\gls{atrun}), for example, if the system terminates abruptly, scheduled \glspl{at} will probably never run. |
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| 81 | |
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| 82 | \textit{Synonyms : None.} |
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| 83 | } |
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| 84 | |
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| 85 | \longnewglossaryentry{atrun} |
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| 86 | {name={Running a \gls{at}}} |
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| 87 | { |
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| 88 | Running an \gls{at} refers to the act of allocating CPU time to a task that is ready to run. When representing the scheduler as a queue of tasks, running is the act of poping a task from the front of the queue and putting it onto a \gls{proc}. The \gls{at} can than accomplish some or all of the work it is programmed to do. |
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| 89 | |
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| 90 | \textit{Synonyms : None.} |
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| 91 | } |
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| 92 | |
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| 93 | \longnewglossaryentry{atmig} |
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| 94 | {name={migration of \gls{at}}} |
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| 95 | { |
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| 96 | Migration refers to the idea of an \gls{at} running on a different worker/processor than the last time it was run. It is generally preferable to minimise migration as it incurs cost but any load balancing among workers requires some amount of migration. |
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| 97 | |
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| 98 | \textit{Synonyms : None.} |
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| 99 | } |
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| 100 | |
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| 101 | \longnewglossaryentry{atpass} |
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| 102 | {name={overtaking \gls{at}}} |
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| 103 | { |
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| 104 | When representing the scheduler as a queue of \glspl{at}, overtaking is the act breaking the FIFO-ness of the queue by moving a \gls{at} in front of some other \gls{at} when it arrived after. This remains true for schedulers that do not use a FIFO queue, when the order in which the \glspl{at} are \glslink{atsched}{scheduled} and \glslink{atrun}{run} in a different order. A \gls{at} is said to \emph{overtake} another if it is run \emph{before} but was \emph{scheduled} after the other \gls{at}. |
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| 105 | |
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| 106 | \textit{Synonyms : None.} |
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| 107 | } |
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| 108 | |
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| 109 | \longnewglossaryentry{atblock} |
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| 110 | {name={Blocking an \gls{at}}} |
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| 111 | { |
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| 112 | Blocking an abstract task refers to the act of taking a task that us running on a CPU off the CPU. Unless no other task is ready, this action is generally immediately followed by running an other task. |
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| 113 | |
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| 114 | \textit{Synonyms : None.} |
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| 115 | } |
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| 116 | |
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| 117 | \longnewglossaryentry{atcomplet} |
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| 118 | {name={Running to completion}} |
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| 119 | { |
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| 120 | Running to completion refers to the entire sequence of : being scheduled, running and blocking, for a given task. |
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| 121 | |
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| 122 | See also \gls{atsched}, \gls{atrun}, \gls{atblock} |
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| 123 | |
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| 124 | \textit{Synonyms : None.} |
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| 125 | } |
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| 126 | |
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| 127 | \longnewglossaryentry{load} |
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| 128 | {name={System Load}} |
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| 129 | { |
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| 130 | The load is refers to the rate at which \glspl{at} are \glslink{atsched}{scheduled} versus the rate at which they are \glslink{atrun}{run}. When \glspl{at} are being scheduled faster than they are run, the system is considered \emph{overloaded}. When \glspl{at} are being run faster than they are scheduled, the system is considered \emph{underloaded}. Conrrespondingly, if both rates are equal, the system is considered \emph{loaded}. Note that the system is considered loaded only of the rate at which \glspl{at} are scheduled/run is non-zero, otherwise the system is empty, it has no load. |
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| 131 | } |
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| 132 | |
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| 133 | |
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| 134 | \newacronym{tls}{TLS}{Thread Local Storage} |
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| 135 | \newacronym{api}{API}{Application Program Interface} |
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| 136 | \newacronym{raii}{RAII}{Resource Acquisition Is Initialization} |
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| 137 | \newacronym{numa}{NUMA}{Non-Uniform Memory Access} |
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