Memory Management Unit




<hardware, memory management> (MMU, "Paged Memory Management Unit", PMMU) A hardware device or circuit that supports virtual memory and paging by translating virtual addresses into physical addresses.

The virtual address space (the range of addresses used by the processor) is divided into pages, whose size is 2^N, usually a few kilobytes.

The bottom N bits of the address (the offset within a page) are left unchanged.

The upper address bits are the (virtual) page number.

The MMU contains a page table which is indexed (possibly associatively) by the page number.

Each page table entry (PTE) gives the physical page number corresponding to the virtual one.

This is combined with the page offset to give the complete physical address.

A PTE may also include information about whether the page has been written to, when it was last used (for a least recently used replacement algorithm), what kind of processes (user mode, supervisor mode) may read and write it, and whether it should be cached.

It is possible that no physical memory (RAM) has been allocated to a given virtual page, in which case the MMU will signal a "page fault" to the CPU.

The operating system will then try to find a spare page of RAM and set up a new PTE to map it to the requested virtual address.

If no RAM is free it may be necessary to choose an existing page, using some replacement algorithm, and save it to disk (this is known as "paging").

There may also be a shortage of PTEs, in which case the OS will have to free one for the new mapping.

In a multitasking system all processes compete for the use of memory and of the MMU.

Some memory management architectures allow each process to have its own area or configuration of the page table, with a mechanism to switch between different mappings on a process switch.

This means that all processes can have the same virtual address space rather than require load-time relocation.

An MMU also solves the problem of fragmentation of memory. After blocks of memory have been allocated and freed, the free memory may become fragmented (discontinuous) so that the largest contiguous block of free memory may be much smaller than the total amount.

With virtual memory, a contiguous range of virtual addresses can be mapped to several non-contiguous blocks of physical memory.

In early designs memory management was performed by a separate integrated circuit such as the MC 68851 used with the Motorola 68020 CPU in the Macintosh II or the Z8015 used with the Zilog Z80 family of processors.

Later CPUs such as the Motorola 68030 and the ZILOG Z280 have MMUs on the same IC as the CPU.



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memory address space
memory farts
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memory location
memory management
address
address space
ARM7
ARM710
content addressable memory
memory mapped I/O
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memory smash
Memory Type Range Registers
MEMS