A small high speed memory unit for storing temporary results is usually a register but can also be referred to as cache or a buffer
Drd dimm memory is basically temporary memory stored on a small stick. An electrical charge is needed in order to keep it activated.
Yes but it has very important quotes. Cache memory is pretty fast (compared to something). Cache memory trends to be small but it is not imperative. Then, for example Main RAM on your PC is pretty faster than your Hard Disk Drive, you can "Cache" some common and useful files or data (storing temporary on Main RAM) in order to improve the delays that would be produced if you use them from your hard disk drive directly.
Some microprocessors have cache memory; this is high speed memory and, if you're lucky and a program is small, it may entirely run in cache memory. All microprocessors have memory as registers - these aren't memory in the conventional sense, but are temporary locations to store values being worked on, addresses in memory and so on.
A shed
shed
it is called shed !!!!!!
it is called shed !!!!!!
A computer memory stick can be as small as your small finger. Small memory sticks do have less space than bigger ones, but are easier to carry and easier to use.
Computers write information /data onto some kind of memory device of the which there is a great variety. There are devices for temporary storage and long-term storage.
Food can be stored in a pantry.
It could be a 'shed'.
There are several types of storage inside a CPU.First, there is one or more areas of cache memory. That is special static memory which is made to be fast. That is to reduce accesses to the main memory and store the most commonly used instructions.Then older CPUs had an area known as a prefetch queue. It functions much like a cache, but is much smaller.Finally, there are CPU registers. The registers are small areas of memory used for executing instructions and storing the results. If you wish to add two numbers, for instance, your code must copy them to the registers and then perform the addition instruction on the registers. Then the code would collect the result from the registers.