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∙ 14y ago"OSPF detects changes in the topology, such as link failures, very quickly and converges on a new loop-free routing structure within seconds. It computes the shortest path tree for each route using a method based on Dijkstra's algorithm, a shortest path first algorithm."
Wiki User
∙ 14y agoThe adverb is suitably (in a suitable manner).
A cylinder is a solid figure that can both roll and slide. Its shape and symmetry allows it to roll smoothly along a surface, and its circular base provides stability for sliding. Both of these properties make it suitable for applications such as wheels and rollers.
Punctual
Every irrational number can be represented by a non-terminating non-repeating decimal. Rounding this decimal representation to a suitable degree will provide a suitable approximation.
+ Linear regression is a simple statistical process and so is easy to carry out. + Some non-linear relationships can be converted to linear relationships using simple transformations. - The error structure may not be suitable for regression (independent, identically distributed). - The regression model used may not be appropriate or an important variable may have been omitted. - The residual error may be too large.
The spiral model thus may suit small (up to $3 million) software applications and not a complicated ($3 billion) distributed, interoperable, system of systems.
RSA
Yes, it is one of many scheduling algorithms suitable for time sharing.However it is not suitable for scheduling in a hard realtime OS that must consistently meet deadlines.
An algorithm is a instruction for solving a problem. It is typically illustrated using prose, pseudo code or flowcharts, but other methods exist. The algorithm is the "here's how it's going to work" part of the solution. An implementation (of an algorithm) is a specific expression of this algorithm, using a specific programming language or any other suitable means. The implementation is the "here's how I've done it" part of the solution.
DDA algorithm involves floating-point operations, while Bresenham algorithm uses only integer operations. DDA algorithm calculates the exact position of each pixel, while Bresenham algorithm determines the closest pixel to the ideal line path. DDA algorithm can suffer from precision issues due to floating-point calculations, while Bresenham algorithm is more accurate and efficient. DDA algorithm is simpler to implement but slower than Bresenham algorithm. DDA algorithm is susceptible to rounding errors, while Bresenham algorithm is not. DDA algorithm can produce jagged lines due to rounding errors, while Bresenham algorithm generates smoother lines. DDA algorithm is suitable for both lines and circles, while Bresenham algorithm is primarily used for drawing lines. DDA algorithm can handle lines with any slope, while Bresenham algorithm is more efficient for lines with slopes close to 0 or 1. DDA algorithm involves multiplication and division operations, while Bresenham algorithm uses addition and subtraction operations. DDA algorithm is a general line drawing algorithm, while Bresenham algorithm is specialized for line drawing and rasterization.
Different polymers have different physical and chemical properties. This makes some polymers more suitable for particular applications than others. As a result, no one polymer is suitable for all applications.
There are many visualization applications which one may find suitable. AGI, and Visual.ly each offer visualization apps. There are many to choose from on on each site.
For its monetary value making it suitable for bullion (currency references), jewellery and gilding, its chemically-inert nature and high conductivity make it suitable for various applications in electronic and medical components.
Suitable impurities are added to semiconductors to modify their electrical properties for specific applications. For example, adding pentavalent impurities (like phosphorus) to silicon creates n-type semiconductors with excess electrons, which are suitable for applications like power generation. Similarly, adding trivalent impurities (like boron) creates p-type semiconductors with electron deficiencies, suitable for applications like diodes and transistors.
Magnetic media like a hard disk drives are fairly fast so it is suitable for multimedia applications. Optical media like DVDs and CDs are much slower.
* Streaming Video, where multiple users are attempting to view the video simultaneously in real time * Broadcast Applications * File Sharing applications (BitTorrent) * Applications where the function that is to be performed can be broken up into different sub-tasks * Instant messaging, VoIp etc
Mercury is suitable for certain applications because it is a liquid at room temperature, has a high density, and is a good conductor of electricity. These properties make it useful in devices such as thermometers, barometers, and certain types of switches and relays. However, it is toxic and poses a threat to human health and the environment, so its use is being phased out in many applications.