MMU description » History » Version 42
Alexander Kamkin, 02/19/2013 12:19 PM
1 | 24 | Alexander Kamkin | h1. MMU Description |
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2 | 1 | Taya Sergeeva | |
3 | 35 | Alexander Kamkin | A _memory management unit_ (_MMU_) is known to be one of the most complex and error-prone components of a modern microprocessor. MicroTESK has a special subsystem, called _MMU subsystem_, intended for (1) specifying memory devices and (2) deriving testing knowledge from such specifications. The subsystem provides unified facilities for describing memory buffers (like _L1_ and _L2 caches_, _translation look-aside buffers_ (_TLBs_), etc.) as well as a means for connecting several buffers into a memory hierarchy. |
4 | 34 | Alexander Kamkin | |
5 | 38 | Alexander Kamkin | h2. Address Description |
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7 | 40 | Alexander Kamkin | A buffer is accessed by an _address_, which is typically a _bit vector_ of a fixed length (width). Different buffers are allowed to have a common address space (e.g., L1 and L2 are usually both addressed by physical addresses). However, in general case, each buffer has its own domain. |
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9 | 41 | Alexander Kamkin | An address space is described using a construct *address*. Some examples are given below. |
10 | 38 | Alexander Kamkin | |
11 | 1 | Taya Sergeeva | <pre> |
12 | 42 | Alexander Kamkin | address Void { width = 0 } |
13 | 41 | Alexander Kamkin | address PA { width = 40 } |
14 | 38 | Alexander Kamkin | </pre> |
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16 | 41 | Alexander Kamkin | The code above defines two address spaces: (1) a single-element space @void@ and (2) a space @PA@ consisting of 40-bit addresses. |
17 | 10 | Alexander Kamkin | |
18 | 2 | Taya Sergeeva | h2. Buffer Description |
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20 | For instance, this is an example of the buffer below: |
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22 | <pre> |
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23 | buffer L1 |
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24 | { |
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25 | sets = 4 |
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26 | lines = 128 |
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27 | line = (tag:30 data:256) |
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28 | index(addr:PA) = addr<9**8> |
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29 | match(addr:PA) = line.tag == addr<39**10> |
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30 | policy = lru |
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31 | 10 | Alexander Kamkin | } |
32 | 1 | Taya Sergeeva | </pre> |
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34 | |||
35 | _Description of each constructor_ in the buffer example is below: |
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36 | 19 | Taya Sergeeva | |
37 | h3. ''address'' |
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38 | |||
39 | <pre> |
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40 | gives the width of the field occupied in bytes; |
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41 | ''address'' has a name; ''PA''(Physical Address) in our case; it also can be virtual (VA); |
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42 | </pre> |
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44 | 21 | Taya Sergeeva | h3. ''buffer'' |
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46 | <pre> |
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47 | has a name, ''L1'' in pur example; it can have names ''L2'' and ''TLB'' also; |
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48 | ''buffer'' can be described by different parameters, such sets, lines, index, match, policy, and so on, which number is infixed; |
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49 | </pre> |
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50 | 1 | Taya Sergeeva | |
51 | 15 | Taya Sergeeva | h3. ''set'' |
52 | 16 | Taya Sergeeva | |
53 | 15 | Taya Sergeeva | <pre> |
54 | 1 | Taya Sergeeva | is an associativity of a buffer; it returns the number of lines in a one set; |
55 | 15 | Taya Sergeeva | </pre> |
56 | 1 | Taya Sergeeva | |
57 | 15 | Taya Sergeeva | h3. ''lines'' |
58 | 17 | Taya Sergeeva | |
59 | 15 | Taya Sergeeva | <pre> |
60 | 1 | Taya Sergeeva | is the number of lines in a given buffer; |
61 | 15 | Taya Sergeeva | </pre> |
62 | 13 | Taya Sergeeva | |
63 | 15 | Taya Sergeeva | h3. ''line'' |
64 | 17 | Taya Sergeeva | |
65 | 15 | Taya Sergeeva | <pre> |
66 | 1 | Taya Sergeeva | designates the specific line in which the necessary data will be looking for; |
67 | ''line'' includes its own parameters in the braces: ''tag'' and ''data'', each of them has an appropriate width of the fields kept in bytes; |
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68 | in our example ''line'' has only two parameters, but in general case it can include more; |
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69 | 15 | Taya Sergeeva | </pre> |
70 | 14 | Taya Sergeeva | |
71 | 15 | Taya Sergeeva | h3. ''index'' |
72 | 17 | Taya Sergeeva | |
73 | 15 | Taya Sergeeva | <pre> |
74 | 1 | Taya Sergeeva | returns the initial and the final points of the field kept in bytes; they are marked in a three-cornered brackets, after ''addr''; |
75 | 14 | Taya Sergeeva | ''index'' depends on an ''address'', which is ''physical'' (PA) in our case; the type of an address is set in the braces after ''index''; |
76 | 15 | Taya Sergeeva | </pre> |
77 | 1 | Taya Sergeeva | |
78 | 15 | Taya Sergeeva | h3. ''match'' |
79 | 17 | Taya Sergeeva | |
80 | 1 | Taya Sergeeva | <pre> |
81 | 16 | Taya Sergeeva | returns ''true'' or ''false'' depending on if the data required is in the given line or not; |
82 | it returns ''true'' if there is a ''hit'' in the line, and returns ''false'' otherwise; |
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83 | 14 | Taya Sergeeva | ''match'' description contains the the initial and the final points of the address field in the triangle brackets after ''addr''; |
84 | 1 | Taya Sergeeva | as ''index'' in the round braces ''match'' also has the type of the address used; ''PA'' in our case; |
85 | </pre> |
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86 | |||
87 | h3. ''policy'' |
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88 | |||
89 | <pre> |
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90 | sets a policy which will be applied to our buffer, ''lru'' (Least Recently Used) in our example; |
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91 | policy also can be ''plru'' (Pseudo LRU) and ''fifo'' (First Input First Out). |
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92 | </pre> |
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93 | 25 | Alexander Kamkin | |
94 | h2. Code Structure |
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95 | |||
96 | The MMU grammar is in ru.ispras.microtesk.translator.mmu.grammar folder. It contains Lexer, Parser and TreeWalker files. These files can be compiled by build.xml file (microtesk++/build.xml). The files generated (MMULexer.java, MMUParser.java, MMUTreeWalker.java) are in microtesk++.gen.ru.ispras.microtesk.translator.mmu.grammar folder. |
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98 | The folders ru.ispras.microtesk.translator.mmu.ir.* contain the inner representation of the MMU hierarchy of one buffer. |
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100 | MMU translator is in the ru.ispras.microtesk.translator.mmu.translator folder. |
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101 | 1 | Taya Sergeeva | |
102 | Files in ru.ispras.microtesk.model.api.mmu folder contain different policies of cache. Folder ru.ispras.microtesk.model.api.mmu.buffer contains the model of MMU - the files which describe Buffer, Set, Line, Address expressions. |
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103 | 26 | Alexander Kamkin | |
104 | After grammar files being generated the file ''BufferExample'' can be loaded to the translator. |