Tanenbaum A., (1987) Operating Systems, Prentice-Hall.  Home/Search   Document Not in Database   Summary   Related Articles   Check

....by the (M) D) and (C) planes. From a data representation point of view the (D) plane models a distributed real time Knowledge Base. The interaction among the three planes gives the TCA the character of a distributed operating system. Following the classical operating systems point of view [TAN87], there are two main functionalities of the TCA: of a resource manager and of an extended machine. 4.1 The Traffic Control Architecture as a Resource Manager The Traffic Control Architecture controls and manages the resources of the broadband network. It guarantees QOS to different traffic ....

Tanenbaum, A.S., Operating Systems, Prentice-Hall, Englewood Cliffs, NJ, 1987.

....based on the principle of Asynchronous Resource Management. The TCA and the MA interact to guarantee quality of service as negotiated at call set up. This interaction gives the IRM the character of a resource manager. Note that this is one of the functionalities of a distributed operating system [TAN87]. In the sections 4, 5 and 6 below we will briefly describe the MA, TCA and ITA, respectively. 4. The Management Architecture The Management Architecture resides in the (N) plane. The (N) plane is modeled based on the fundamental OSI management [ISO90] paradigm of the manager agent M C U Routing ....

Tanenbaum, A.S., Operating Systems, Prentice-Hall, Englewood Cliffs, NJ, 1987.

....point of view the (D) plane models a distributed real time Knowledge Database. The architecture of this database is presented in section 6. The interaction among the three planes gives the TCA the character of a distributed operating system. Following the classical operating systems point of view [TAN87], the TCA has two main functionalities: that of a resource manager and of an extended machine. The Traffic Control Architecture controls and manages the resources of the broadband network such as buffer space, switching and communication bandwidth. It guarantees QOS to different traffic classes ....

Tanenbaum, A.S., Operating Systems, Prentice-Hall, Englewood Cliffs, NJ, 1987.

....processes must share the CPU (pre emptive multitasking) So, when the process is a low priority process, there is another condition under which the process will be descheduled. The low priority process has used up all its time slice. Low priority processes are subject to round robin scheduling [19TANE87] with a time slice period of about 1 ms in a T800. But there is a limitation: descheduling due to the expiration of a time slice can only happen after the execution of certain instructions. These instructions are: an unconditional jump (J; jump) a special instruction which is very often used in ....

....mechanism by application programs. While the above mentioned features can be quite useful, the transputer lacks some serious features commonly found in processors which are considered essential for a modern operating system. For starters, the transputer does not have a memory management unit (MMU) [19TANE87]. A MMU is convenient for a number of reasons. It aides in the implementation of virtual memory. Pages of RAM, connected to inactive processes, can be swapped to disk. In the transputer, without its MMU, when a program needs a large address space, it will have to use real memory. Such a transputer ....

A.S. Tanenbaum, Operating Systems, Prentice Hall, 1987

No context found.

Tanenbaum A., (1987) Operating Systems, Prentice-Hall.

No context found.

Tanenbaum A., (1987) Operating Systems, Prentice-Hall.

No context found.

Tanenbaum, Andrew S., and Woodhull, Albert S. (1997). Operating Systems, 2 nd Edition. New Jersey: Simon and Schuster.

Online articles have much greater impact   More about CiteSeer.IST   Add search form to your site   Submit documents   Feedback  

CiteSeer.IST - Copyright Penn State and NEC