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Hardware
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========
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General
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-------
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32 bits virtual addresses
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30 bits physical addresses
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32 bits data path width
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32 bits instruction width
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32 integer registers
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byte addressable, big endian machine
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Physical Address Space Utilisation
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----------------------------------
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The main memory extends from address 0 to MEMORY_SIZE,
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which has an upper limit of 512 MB. The ROM is located
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at 0x20000000; its size, ROM_SIZE, is at most 256 MB.
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The I/O is memory-mapped and located at 0x30000000; its
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size is again at most 256 MB. The I/O address space is
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divided evenly into 256 devices; each device may occupy
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up to 1 MB of address space.
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Machine Data Types
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------------------
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word    32 bits
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half    16 bits
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byte     8 bits
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Paging
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------
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4 KB page size
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TLB
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---
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A TLB (translation lookaside buffer) is used to map virtual addresses to
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physical ones. The mapping does not apply to addresses with both high-order
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bits set; these addresses refer to physical memory and are never mapped by
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the TLB. The TLB has 32 entries, each of which can be used to map a virtual
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page number to a physical frame number. More than one page can be mapped to
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the same physical frame ('aliasing'). It is a severe programming error,
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however, to have more than one entry for the same virtual page number in
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the TLB. The result of a translation under these circumstances is undefined.
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Whenever an address translation takes place, all entries in the TLB are
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searched in parallel ('fully associative memory'). Therefore a given page
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number need not to be placed into a specific location in the TLB, any
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location will do. If no entry matches the page number, the processor takes
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an exception (see below).
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TLB Entries
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-----------
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A TLB entry consists of two parts: the key (also called 'input' or 'EntryHi')
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and the value (also called 'output' or 'EntryLo'). The key consists of the
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upper 20 bits of the page number of a virtual address; the lower 12 bits are
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zero and not stored in the entry. The key is used to locate an entry in the
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TLB during an address translation. The only way to make sure that an entry
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does not match any virtual address is to set both high-order bits of the
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address; such an address is never mapped by the TLB (see above). The value
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consists of the frame address and two flags. The low-order 12 bits of the
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frame address are always zero; they are not stored in the entry. Furthermore,
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the two most significant bits are always zero because the physical address
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range is 1 GByte.
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TLB Registers
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-------------
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Four registers allow programming of the TLB and assist in managing address
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translations of large address spaces in spite of a moderately sized TLB.
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Index:
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  This register specifies the location in the TLB where the next
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  write-by-index or read-by-index instruction will take place.
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  Furthermore, it will hold the index after a TLB search instruction
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  (see below).
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EntryHi:
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  This register holds the input part of a TLB entry, either before
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  writing it or after reading it. Furthermore, any of the TLB-related
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  exceptions (miss, invalid, write) will write the page number in
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  question into this register in order to facilitate a rapid insertion
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  of an appropriate mapping for this page into the TLB.
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EntryLo:
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  This register holds the output part of a TLB entry, either before
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  writing it or after reading it.
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BadAddr:
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  Any of the addres translation exceptions (including the non-TLB related
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  ones such as illegal addresses, but excluding bus address errors) write
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  the offending address into this register. The operating system may find
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  this information useful.
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TLB Instructions
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----------------
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Four instructions are used to program the TLB. All four are privileged
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instructions that will cause an exception if executed in user mode.
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tbs (translation buffer search):
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  The Index register is loaded with the address of the TLB entry whose
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  contents match the contents of the EntryHi register. If no TLB entry
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  matches, the high order bit of the Index register is set.
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tbwr (translation buffer write random):
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  This instruction loads a pseudo-randomly specified TLB entry with the
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  contents of the EntryHi and EntryLo registers. A free running counter
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  supplies the pseudo-random index. Entries 0..3 are never written to
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  by this instruction.
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tbri (translation buffer read index):
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  This instruction loads the EntryHi and EntryLo registers with the
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  contents of the TLB entry specified by the contents of the Index
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  register.
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tbwi (translation buffer write index):
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  This instruction loads the specified TLB entry with the contents of
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  the EntryHi and EntryLo registers. The contents of the Index register
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  specify the TLB entry.
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TLB Function
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------------
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Software
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========
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C Data Types
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------------
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long    32 bits
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int     32 bits
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short   16 bits
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char     8 bits
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Page Tables
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-----------
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2 levels of page tables
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1024 entries per table
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topmost 10 bits of virtual address select an entry in the page directory
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this entry points to a page table
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next 10 bits of virtual address select an entry in the page table
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this entry points to a page frame
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least significant 12 bits of virtual address select a byte in the page frame
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a single page table occupies exactly one page
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therefore we have 4 bytes per entry
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a page table entry has the following parts:
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  20 bits physical page frame address

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