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Registers represent the number of memory locations. A 2K memory chip has 2x1024=2048 memory locations. Hence there are 2048 registers in a 2K memory.
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1kb=1024 byte is multiply by the total memory which is given to you as bellow: (1024*2) = 2048 register
No, not at all. The microchip is smaller than a grain of rice and feels like a shot. Other than the prick from the insert it does not hurt your pet. Once inserted your pet can not feel the microchip. Microchips are only beneficial. If your pet is lost, then found, he has a chance to be swiped for a microchip. If a microchip is found then a number will be read. That number will contain your information, such as your phone number and your address. If you move your microchip should be updated. I believe all pets should be microchipped.
Microchips cannot hurt your pet. If your pet is lost, then found, but does not have a collar on then there is a chance that he will be swiped for a microchip. If a microchip is found, then the swiper will show a number. That number will tell your information such as your phone number and address. I believe all pets should be microchipped.
The speed of a microchip is measured in hertz and the number of calculations it can perform in a second. As the clock speed increases, so does the heat produced.
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Most microprocessors have a fixed number of registers. A register is an internal memory location that is optimized for very fast read and write access. Typically, a register can be explicitly called out as part of an instruction opcode. For example, an instruction might be "move the contents of the accumulator to the register called RegisterY". Since the registers are implemented in the microprocessor's internal hardware, and because they can be used as part of some instructions, there must be a finite number of them. Otherwise, the microprocessor would need to have infinitely large amounts of hardware, and/or there would have to be an infinite number of instructions.
no of registers of each window = l + g + 2c... where l = local register, g = global registers, c = registers which are common no of registers in processor are (l + c)w + g... w = no of registers in windows
UNIVAC LARC had 26 general purpose registers, but could be expanded to 99 registers, if required.
Control memory is a random access memory (RAM) consisting of addressable storage registers. It is primarily used in mini and mainframe computers. It is used as a temporary storage for data. Access to control memory data requires less time than to main memory; this speeds up CPU operation by reducing the number of memory references for data storage and retrieval. Access is performed as part of a control section sequence while the master clock oscillator is running.
Control memory is a random access memory (RAM) consisting of addressable storage registers. It is primarily used in mini and mainframe computers. It is used as a temporary storage for data. Access to control memory data requires less time than to main memory; this speeds up CPU operation by reducing the number of memory references for data storage and retrieval. Access is performed as part of a control section sequence while the master clock oscillator is running.