Distributed Component Object Model - meaning and definition. What is Distributed Component Object Model
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What (who) is Distributed Component Object Model - definition


Distributed Component Object Model         
SOFTWARE FOR COMMUNICATION BETWEEN SOFTWARE COMPONENTS
DCOM95; DCOM98; Distributed component object model; Dcom
Distributed Component Object Model (DCOM) is a proprietary Microsoft technology for communication between software components on networked computers. DCOM, which originally was called "Network OLE", extends Microsoft's COM, and provides the communication substrate under Microsoft's COM+ application server infrastructure.
Distributed Component Object Model         
SOFTWARE FOR COMMUNICATION BETWEEN SOFTWARE COMPONENTS
DCOM95; DCOM98; Distributed component object model; Dcom
<programming> (DCOM) Microsoft's extension of their Component Object Model (COM) to support objects distributed across a network. DCOM has been submitted to the IETF as a draft standard. Since 1996, it has been part of {Windows NT} and is also available for Windows 95. Unlike CORBA, which runs on many operating systems, DCOM is currently (Dec 1997) only implemented by Microsoft for Microsoft Windows and by Software AG, under the name "EntireX", for Unix and IBM mainframes. DCOM serves the same purpose as IBM's DSOM protocol. DCOM is broken because it's an object model that has no provisions for inheritance, one of the major reasons for object oriented programming in the first place. http://microsoft.com/com/tech/DCOM.asp. [Details?] (2000-08-02)
Distributed-element model         
  • '''Fig. 4.''' A possible distributed-element model of an inductor. A more accurate model will also require series resistance elements with the inductance elements.
  • '''Fig.1 Transmission line.''' The distributed-element model applied to a transmission line.
  • '''Fig.2.''' The base region of a bipolar junction transistor can be modelled as a simplified transmission line.
  • '''Fig. 3.''' Simplified arrangement for measuring the resistivity of a bulk material with surface probes.
MODEL OF ELECTRICAL CIRCUITS THAT REPRESENTS ATTRIBUTES AS DISTRIBUTED CONTINUOUSLY RATHER THAN IN DISCRETE COMPONENTS
Distributed element model; Distributed element; Distributed elements; Distributed-element
In electrical engineering, the distributed-element model or transmission-line model of electrical circuits assumes that the attributes of the circuit (resistance, capacitance, and inductance) are distributed continuously throughout the material of the circuit. This is in contrast to the more common lumped-element model, which assumes that these values are lumped into electrical components that are joined by perfectly conducting wires.