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1. 2. 3. What are the primary goals of telecom regulation How would you compare the Communications Act of 1934 with the Telecommunications Act of 1996 (TA96) How did the ILECs basically control the regulatory process when it came to the introduction of new services and technologies What are the 14 requirements under TA96 that the ILECs were required to meet as a prerequisite for entry into long distance
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This chapter addresses the network devices found in a typical premises environment including computers, wired and wireless local area networks, and a number of other options. We begin with an examination of a typical computer. In one way or another, the computer is the ultimate premises technology device; it appears, in one form or another, in every device used by a customer to access the network.
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The Computer
For all its complexity, the typical computer has only a small number of components, as shown in Figure 5-1. These are the central processing unit (CPU), main memory, secondary memory, input/output (I/O) devices, and a parallel bus that ties all the components together. It also has two types of software that make the computer useful to a human. The first is application software such as word processors, spreadsheet applications, presentation software, and MP3 encoders. The second is the operating system that manages the goings on within the computer including hardware component inventory and file location. In a sense, the operating system is the executive assistant to the computer itself; some mainframe manufacturers refer to their operating system as the EXEC. The concept of building modular computers came about in the 1940s when Hungarian-born mathematician John Von Neumann applied the work he had done in logic and game theory to the challenge of building large electronic computers (Figure 5-2). As one of the primary contributors to the design of the Electronic Numerical Integrator and Computer (ENIAC), Von Neumann introduced the concept of stored program control and modular computing the design under which all modern computers are built today. The internals of a typical modern computer are shown in Figure 5-3.
Figure 5-1 Computer components
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Figure 5-2 A section of the original ENIAC
The CPU
The CPU is the brain of the computer. Its job is to receive data input from the I/O devices (keyboard, mouse, modem, etc.), manipulate the data in some way based on a set of commands from a resident application and package the newly gerrymandered data for presentation to a human user at another I/O device (monitor). The CPU has its own set of subcomponents. These include a clock, an arithmetic-logic unit (ALU), and
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Figure 5-3 PC internals showing major components
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registers. The clock is the device that provides synchronization and timing to all devices in the computer, and is characterized by the number of clock cycles per second it is capable of generating. These cycles are called Hertz; modern systems today operate at a range of speeds as high as 4 Megahertz, or MHz. The faster the clock, the faster the machine can perform computing operations. The ALU is the specialized silicon intelligence in the CPU that performs the mathematical permutations that make the CPU useful. All functions performed by a computer word processing, spreadsheets, multimedia, videoconferencing . . . all functions are viewed by the computer as mathematical functions and, therefore, are executed as such. It is the job of the ALU to carry out these mathematical permutations. Registers are nothing more than very fast memory located close to the ALU for rapid input/output functions during execution cycles.
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