The other half consists of paper formatting. Students have to follow all academic requirements to get the highest grades. There are different paper styles.
Traditionally, computer hardware such as printers and mice were plugged into sockets on the back panel of a PC, with each connector being fairly specialised in its applications. For example, mice use one that is dedicated to transmitting serial data, while printers usually use a parallel data cable, and monitors have their own special plug.
This system was quite suitable when it was implemented and has been used for many years. However, recent technological developments have created problems for many users of PCs with this system.
Today there is a huge range of peripheral equipment including scanners, digital cameras, specialised pointing devices, high speed modems, all of which need their own connection to the PC.
While the above mentioned parallel and serial sockets can indeed be used by many different devices, they cannot be shared by more than one device at once, and so we can quickly run out of space to attach this new equipment. Then why not just add more places to plug things into?
This is quite possible, and has previously been the solution in many cases by installing more sockets, and even connecting devices internally to bypass the need for these plugs altogether.
However, there is a practical limit to how much this can be done. To examine why, we need to investigate the structure of the PC. Each of those back panel sockets is attached to a circuit board a card which, like the internal devices, in turn plugs into a slot on the main circuit board.
The computer needs to be able to distinguish which of these cards information is coming from, and similarly each card needs to know when out going data is directed to it. The result is that neither card functions correctly.
Many people find these potential problems rather daunting and this reduces the attractiveness of PCs to the market. An innovation known as "Plug and Play" aims to sort out the problem of clashing numbers, but there are still only a finite amount of these numbers available, with some being reserved for certain purposes.
As well as all of the technical problems, where are other nuisances such as excessive cabling, the fact that you cannot disconnect devices while the computer is on without risking damaging something, and the different types of plugs required for different types of computers such as the Apple Macintosh.
Even in the absence of problems, that back of a computer can be a daunting place for some, who often fear damaging something. This is where USB aims to simplify things by extending the trend of "user friendliness" to the hardware level. To the average computer user, it is a system where you can simply plug a device into any available socket and that device will instantly be available for use by the computer.
Up to devices can be connected, and since it is a high speed system supporting up to 12 Megabits per second, it can accommodate the needs of a wide variety of peripherals. Other advantages include the ability to safely disconnect and reconnect items without switching off the computer, and the ability to use a USB device on any computer supporting the USB system.
These attachments come in two types known as Functions and Hubs. Functions are the peripherals such as mice, printers, etc. Hubs basically act like a double adapter does on a power-point, converting one socket, called a port, into multiple ports.
Hubs and functions are collectively called devices. As far as the functions are concerned, hubs are furthermore like double adapters because although the entire system is physically in the star topology seen in Figure 1 alogically the system acts like a bus topology.
This means that signals appear to travel along a single set of wiring, called the bus, to the host and is accessible by all functions, as illustrated in Figure 1 b. However, the host does keep track of the physical arrangements so that if a hub becomes disconnected, it is aware that all hubs and functions attached to it will consequently be disconnected too.
The host has a hub embedded in it called the root hub, and in practical implementations hubs are usually combined with one or more functions, such as keyboards or monitors. These are called compound devices and act like a hub with the functions permanently connected, along with any additional ports.
Hubs may be connected to other hubs in a tiered arrangement, but the bus topology still applies. Even with this type of arrangement, we still have the same problem as with the traditional PC layout. Each function has to know when a piece of data is meant for it, and the host needs to know where signals are coming from, so numbers are assigned to each component on the USB.
When a device is attached to the USB system, it gets assigned a number called its address. The address is uniquely used by that device while it is connected and, unlike the traditional system, this number is likely to be different to the address given to that device the last time it was used.
Each device also contains a number of endpoints, which are a collection of sources and destinations for communications between the host and the device. Endpoints operate in simplex mode, meaning that they are either an input or output, but not both.
For example, a simplistic model of a keyboard figure 2 could have a keypad as output endpoint number 1, and the LED key lock display as receiving endpoint 1.
All USB devices have one of each of their 16 possible input and output endpoints reserved as "zero endpoints". These are used for the auto-detection and configuration of the device when it is connected, and are the only accessible endpoints until this occurs.
In addition each endpoint sets, upon connection, its own set of characteristic requirements concerning its requirements when accessing the bus.USB is a system for connecting a wide range of peripherals to a computer, including pointing devices, displays, and data storage and communications products.
The following overview should help you better understand how to cite sources using MLA eighth edition, including the list of works cited and in-text citations. 2 I. The Title and Body of the Essay FORMATTING DIRECTIONS: General directions 1.
Use Microsoft Word. 2.
Use A4 size paper. 3. Keep a margin of 3 cm (on all 4 sides of the paper). Reference list is a must when you use in-text references, for you need to present the full information about the sources monstermanfilm.com reference list includes all sources used in the essay writing and cited in the paper, and it is arranged according to .
Writing - Format for a Research Paper. 5. Spacing Between Lines. Whether your essay is handwritten, typed or printed, the entire essay should be double-spaced between lines along with 1″ margin on all sides for your teacher to write comments.
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