virtual memory
I believe that you are referring to cache memory. This type of memory is small, fast, and intimately tied to the microprocessor. The microprocessor runs a heuristic (common sense) algorithm which attempts to predict what data and instructions will be needed next and move them from the slower main memory to the faster local memory before the processor needs it. When this works, it greatly improves overall system performance.
cache memory...this memory is in processor and as the capacity of cache goes high cost hikes up..,.,.
Cache is an array of specially-tasked, high-speed memory devices built into mu-Ps. The special memory devices themselves, however, are high-speed, static RAM cells called registers.
cache memory
It's called registers.
Cache
virtual memory
Cache
All of the processors shown have extended memory.
Level 2 (L2) cache is built onto the processor. On Older slot-mounted processors, L2 cache was external to the processor die, and ran at slower speeds than the processor. on socketed processors, L2 cache is built onto the processor. If the processor does not find the desired memory locations in L1 cache, it checks L2 cache next. However Processors with larger L2 caches perform most tasks much more quickly than processors that have smaller L2 caches for two reasons. Cache memory is faster than main memory and the processor checks cache memory for needed information before checking main memory.
Level 2 (L2) cache is built onto the processor. On Older slot-mounted processors, L2 cache was external to the processor die, and ran at slower speeds than the processor. on socketed processors, L2 cache is built onto the processor. If the processor does not find the desired memory locations in L1 cache, it checks L2 cache next. However Processors with larger L2 caches perform most tasks much more quickly than processors that have smaller L2 caches for two reasons. Cache memory is faster than main memory and the processor checks cache memory for needed information before checking main memory.
Level 2 (L2) cache is built onto the processor. On Older slot-mounted processors, L2 cache was external to the processor die, and ran at slower speeds than the processor. on socketed processors, L2 cache is built onto the processor. If the processor does not find the desired memory locations in L1 cache, it checks L2 cache next. However Processors with larger L2 caches perform most tasks much more quickly than processors that have smaller L2 caches for two reasons. Cache memory is faster than main memory and the processor checks cache memory for needed information before checking main memory.
L2 cache. Today's processors all have some memory on the processor chip (called a die). Memory on the processor die is called Level 1 cache (L1 cache). Memory in the processor package, but not on the processor die, is called Level 2 cache (L2 cache). Some processors use a third cache farther from the processor core, but still in the processor package, which is called Level 3 cache (L3 cache).
Dual Core
in assymetric processor the operating system typically sets aside one or more processors for its exclusive use while in symetric processors are used to get higher levels of performance, any processor here can run any type of thread, they communicate with each other through shared memory
Features of contemporary processors include a dual core and cache memory. They also have transistors for communicating information and instructions at the same time.
Processors do not have permanent memory. When power is not supplied any more they loose all data. But motherboards have a special chip that keeps settings for whole system including CPU. If you need to reset something it would be the motherboard.
cache memory
AMD processors or an Advanced Micro Device processor is used to transfer information back and forth between the central processing unit and the memory of the computer. These processors can make computer run fast and are especially used with video games and other computer media.