Cpu Registers

In computer architecture, a processor register is a small amount of storage available as part of a digital processor, such as a CPU. Such registers are (typically) addressed by mechanisms other than main memory and can be accessed faster. Almost all computers, load-store architecture or not, load data from a larger memory into registers where it is used for arithmetic, manipulated, or tested, by some machine instruction. Manipulated data is then often stored back in main memory, either by the same instruction or a subsequent one. Modern processors use either static or dynamic RAM as main memory, the latter often being implicitly accessed via one or more cache levels. A common property of computer programs is locality of reference: the same values are often accessed repeatedly and frequently used values held in registers improves performance. This is what makes fast registers (and caches) meaningful.

Processor registers are normally at the top of the memory hierarchy, and provide the fastest way to access data.

Registers are normally measured by the number of bits they can hold, for example, an "8-bit register" or a "32-bit register". A processor often contains several kinds of registers, that can be classified accordingly to their content or instructions that operate on them:

• User-accessible registers – instructions that can be read or written by machine instructions. The most common division of user-accessible registers is into data registers and address registers.
• Data registers can hold numeric values such as integer and, in some architectures, floating-point values, as well as characters, small bit arrays and other data. In some older and low end CPUs, a special data register, known as the accumulator, is used implicitly for many operations.
• Address registers hold addresses and are used by instructions that indirectly access primary memory.
• Some processors contain registers that may only be used to hold an address or only to hold numeric values (in some cases used as an index register whose value is added as an offset from some address); others allow registers to hold either kind of quantity. A wide variety of possible addressing modes, used to specify the effective address of an operand, exist.
• The stack pointer is used to manage the run-time stack. Rarely, other data stacks are addressed by dedicated address registers, see stack machine.
• General purpose registers (GPRs) can store both data and addresses, i.e., they are combined Data/Address registers and rarely the register file is unified to include floating point as well.
• Conditional registers hold truth values often used to determine whether some instruction should or should not be executed.
• Floating point registers (FPRs) store floating point numbers in many architectures.
• Constant registers hold read-only values such as zero, one, or pi.
• Vector registers hold data for vector processing done by SIMD instructions (Single Instruction, Multiple Data).
• Special purpose registers (SPRs) hold program state; they usually include the program counter, also called the instruction pointer, and the status register; the program counter and status register might be combined in a program status word (PSW) register. The aforementioned stack pointer is sometimes also included in this group. Embedded microprocessors can also have registers corresponding to specialized hardware elements.
• In some architectures, model-specific registers (also called machine-specific registers) store data and settings related to the processor itself. Because their meanings are attached to the design of a specific processor, they cannot be expected to remain standard between processor generations.
• Memory Type Range Registers (MTRRs)
• Internal registers – registers not accessible by instructions, used internally for processor operations.
• Instruction register, holding the instruction currently being executed.
• Registers related to fetching information from RAM, a collection of storage registers located on separate chips from the CPU:
• Memory buffer register (MBR)
• Memory data register (MDR)
• Memory address register (MAR)

Hardware registers are similar, but occur outside CPUs.