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Register memory are smaller in size than cache memory and registers are faster than cache..Cache memory store the frequently used data from main memory..
Registers are normally memory spaces internal to the processor or very close to it. They are generally faster than main memory and will be small in size and will hold very frequently used data.Register stacks are a set of such register memory locations.Memory refers to computers main memory outside CPU. It is used to keep data and programs. Memory stack is a series of memory locations.The difference between register stack and memory stack is...
EBX --> Extended Base Register. Extended means, it stores more data than 'Base Register' OR BX. BX is a 16 bit register, where EBX is 32 bit. Base register stores the base address, ie the starting address with respect to a segment.
No, you download the client from the Minecraft website. The account you register there is more important than the client data.
As an example of serial data transfer using the shift register approach, a set of four shifts triggered by clock pulses places the contents of the X-register into the Y-register. Since four clock cycles are needed, it is much slower than parallel transfer, but is simpler and cheaper. The illustration below shows the parallel transfer of 8 bits of data from the X Register to the Y Register upon application of an enabling transfer pulse. Clearly, parallel data transfer is faster than serial data transfer, but serial transfer has the advantages of requiring less hardware. These registers are made up of D flip-flops, which can serve as memory locations. The information in the X Register is intact after the transfer to the Y Register, so this process shows a possible scenario for accessing digital information stored in memory.
Registers are storage locations internal the the processor. CPU instructions operate on these values directly. On RISC processors, all data must be moved into a register before it can be operated. On CISC (Intel) chips, there are a few operations that can load data from RAM, process it, and save the result back out, but the fastest operations work directly with registers. Also, there are registers that are set aside for certain tasks, these generally include a program counter, stack, and flags. Each register also has a size that determines the maximum amount of data that can be processed at a time. The registers on Pentium chips, for example, are 32 bits. Finally, there are generally only a few registers available on a processer. Intel chips, for example, have 6 general purpose registers, and several specialized registers including a base register, stack register, flags register, program counter, and some addressing registers. Memory, or RAM, is located external to the CPU. Generally speaking, data has to be loaded into a CPU register from memory before the CPU can process it, RAM is much slower than registers, there is a lot more RAM than registers, and generally memory can be addressed on a byte boundaries, where registers may not be able to access all the bytes in a register. To summarize: in general, registers are temporary storage in the CPU that holds the data the processor is currently working on, while RAM holds the program instructions and the data the program requires. Hopefuly this helps, --Eric Tolman
The floppy disk is obsolete. The CD has a much larger data capacity and is also more reliable, and the memory stick has an even larger data capacity than the CD.
no se wey ni pedo te chingas.
1 first medium has a larger reflective index than the second medium (means the first material is denser than the second material) 2 the angle of incidence must be larger than the critical angle
Processors with a smaller word size can process more data during each processor cycle.
insects have an outer skeleton which is much more effective than our internal one there by reducing the amount of energy needed to mobilize it
the largest unit of data measurment is a caudexabyte, 1024 xanobytes.