There are far too many variables to answer this question accurately, but, for the most part, no. If we're dealing in raw processing power and not real-world performance, that is. ARM processors are generally focussed more on conserving battery life and not on raw performance.
a bus is something down which data travels. within a PC you have various busses each operates at a frequency. a frequency of 1hz would be one cycle per second, so a 533mhz bus would operate at 533mega hertz per second. the higher the frequency the faster the more data can travel through each second. Im guessing you are looking at some P4 chips or something. If so go for the one with the 800mhz fsb as it will also support hyperthreading, generally you would always want the fastest fsb and the difference between 800mhz and 533mhz is quite significant
The frequency in a frequency table is the number of occurrences within each class width. The total frequency is the sum of all frequency's within all the classes.
Frequency means the number of occurrences within a given time period.
Frequency is inversely proportional to the wave length, thus saying the shorter the wave length the higher the frequency and vice versa.The frequency is the number of waves within a time period. As the frequency within that time period increases, the number of waves increases, therefore the width of each wave (wavelength) within that time period has to decrease. Therefore:As the wave length increases, the frequency decreasesAs the wave length decreases, the frequency increases
In nomadic use, the terminal may change but it should be stationary while it is in use. It maybe wireless network. In mobile use, the terminal can be used while moving and it might be necessary to perform handovers within the network to keep connection b/w network and mobile user.
A frequency diagram.
Cumulative percentage is another way of expressing frequency distribution. It calculates the percentage of the cumulative frequency within each interval, much as relative frequency distribution calculates the percentage of frequency.
Density
organelles
organelles
a histogram
Frequency reuse is a technique of reusing frequencies and channels within a communications system to improve capacity and spectral efficiency. Frequency reuse is one of the fundamental concepts on which commercial wireless systems are based that involves the partitioning of an RF radiating area (cell) into segments of a cell. One segment of the cell uses a frequency that is far enough away from the frequency in the bordering segment that it does not provide interference problems. Frequency re-use in mobile cellular systems means that each cell has a frequency that is far enough away from the frequency in the bordering cell that it does not provide interference problems. The same frequency is used at least two cells apart from each other. This practice enables cellular providers to have many times more customers for a given site license.