Warning:
JavaScript is turned OFF. None of the links on this page will work until it is reactivated.
If you need help turning JavaScript On, click here.
The Concept Map you are trying to access has information related to:
chapter 2 kernels, scheduler organization, three multithreaded process paradigms, load distibution and process management, vms, registers, state of system calls, client server paradigm, process migration, divisible processes, layered, types of processes, process management, identifying processes for scheduling , when the kernel supports threads the kernel maintains a threaded status information table within the protectedmemory space of the kernel, polled loop, querying a process about its status, in a traditional os each process runs independently utilizing a single address space and single thread of control for each process, privlidged portion of the os that can excecute with complete control, assembly line paradigm, process status reports, all related threads of excecution, microkernel, multithreaded processes, control a process and all its components, address space contents, creating a process, the management of a process and all related components, modular and are generally easy to design, impliment, install, extend, and reconfigure, program counters, monolithic, multithreaded support, all files form the process and their state (open or closed), the kernel, scheduling, vms, identifying the type of process, the kernel may support threads or a system may provide user-level support for threads, divisible modular design, keep the kernel as small as possible., interupted based, processes and threads, indivisible processes, os 360, process sceduling, stack pointers, distributed systems, specialist paradigm