PAT(5) - Linux manual page online | File formats
Pattern description format.
October 1, 1997
PAT(5) cao-vlsi reference manual PAT(5)
ASIM/LIP6 October 1, 1997 PAT(5)
NAMEPAT - Pattern description format
DESCRIPTIONThe pat is a specific format used in simulation pattern´s description. pat format has been designed to represent undifferently patterns to be simulated or simulation's results. It offers the possibility of: specifying the input list of the circuit: signals to be controled during the simulation by the user. For a circuit described in VHDL, are considered as input: external ports of the mode in. guarded external ports of the mode inout (declared with the reserved word bus). specifying the output list of the circuit: signals to be observed during the simulation. For a circuit described in VHDL, are considered as output: external ports of the mode out (declared either with or without the reserved word bus). external ports of the mode inout (declared either with or without the reserved word bus). internal signals of a hierarchical description. internal signals of a behavioural description (declared as bus, register or simple signal) specifying a read-write format for inputs and outputs. forcing the value of each input. checking the resulted value on each output. changing the value of an internal register (a guarded internal signal of kind register in a behavioural description). saving the state of the circuit.
THE FORMATA pattern file written in pat format can be divided into two parts: the declaration block and the description block. The instruction begin marks the end of the declaration and the beginning of the description block. The instruction end; marks the end of the file. The declaration block is a set of input-output declaration statements. The order of these declarations is important. In the description block, values will be associated with an input-output in the order of their declaration. That is, the first value will be associ‐ ated with the first declared input-output and, the last value with the last one. A declaration statement has of one of the two following forms : mode input_output_name [format] [spy_option]; mode group_name (input_output_name, ...) [format] [spy_option]; The second form allows the user to give a name to a group of signals. This group of sig‐ nals will be called virtual array. Using this grouping possibility, great care must be taken. Two guarded outputs (of kind bus) can be grouped only if their guard expression are exactly the same. inputs An external port of the mode in must be declared with the mode in. A guarded external port of the mode inout must be declared with the mode inout. outputs An external port (guarded or not) of the mode out must be declared with the mode out. An unguarded external port of the mode inout must be declared with the mode out. A guarded external port of the mode inout must be declared with the mode inout. An internal signal (simple or guarded of kind bus) of a behavioural or structural description must be declared with the mode signal. An internal regis‐ ter (guarded signal of kind register) is to be declared with mode register. The format specifies the format under which values associated with an input-output must be read or written. Legal formats are X for hexadecimal, O for octal and, B for binary. The binary format is the default format. The input_output_name is used to identify the input-output signal. For an external port, the signal´s identifier added, if the signal is an array, to its constraint (the range of the array) constitutes the input-output name. For an internal signal the input_out‐ put_name is made from the concatenation of the access_path and the signal´s name (identi‐ fier and if needed constraint). The access_path is a string representing the instance where the signal is declared. It is a list of instance names separated by ´.´ (dot). The spy option (keyword spy) may be used for outputs (out port, inout port, internal sig‐ nal). This option makes one additional pattern be printed in the result file each time an event occurs on this signal during the simulation and the corresponding pattern (with this event date) has been omitted in the input pattern file. Putting one or several additional ´;´ (semicolon) at the end of an input-output declara‐ tion makes one or several blank columns (up to 15) be printed in the result file after the input-output's value. The description block is a series of pattern description statements. Each pattern is a list of values preceded by a date and optionally by a label. [date] [label] : list_of_values ; Patterns statements should be ordered with stict growing dates in the series. The date may be either an absolute date or a relative date. An absolute date is an inte‐ ger followed by a time unit. A relative date is a '+' followed by an integer and a time unit (the reference is the date of the previous pattern description statement). Legal time unit are ps, ns, us and ms. < 200 ps >,<4500ns>,< 12us > are legal absolute dates. < +200 ps >,<+4500ns>,<+1 us> are legal relative dates. A label is an identifier (in VHDL syntax). The list_of_values is a set of values. Each value is associated with one input-output. The value of rank i corresponds to the i-th input-output. Depending on the format, legal values for inputs are: B (binary) 0 and, 1 O (octal) 0, 1, 2, 3, 4, 5, 6 and, 7 X (hexa.) 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, A, B, C, D, E and, F For each output the user can predict a value. This bring the simulator to make a compari‐ son between this value and the one calculated during the simulation. Predicting a ´*´ (star) as an output value disables the comparison. Values must be preceeded by a ´?´ (question mark). The ´?´ can be omitted when using a ´*´. Depending on the format, legal values for outputs are : B (binary) 0, 1 and * O (octal) 0, 1, 2, 3, 4, 5, 6, 7 and * X (hexa.) 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, A, B, C, D, E, F and * Using the binary format ´?1´ can be replaced by ´+´ (plus) and ´?0´ by ´-´ (minus). Example in A (0 to 15) X; in B (0 to 15) X; in Cin; out Cout; signal S (0 to 15) X; register Accu.A (0 to 15) X; begin < 0 ns > pattern_0 : F0F0 0A0A 1 ?0 ?FAFA ?6DE7; < +10 ns > pattern_1 : 0F0F F6F0 0 + **** ?54FC; end; Putting one or several additional ´;´ (semicolon) at the end of a pattern makes one or several blank lines (up to 15) be printed in the result file after the pattern. Other statements (called actions) such as changing registers value or saving the state of the circuit can be placed in the description block. The content of a register can be forced to a user defined value using the following state‐ ment: register_name <= value ; Register_name is a string representing the name of the register to be forced (written in the same form as described above). Value can be given in hexadecimal (X), octal (O) or binary (B) format : Examples X"0FE46" O"0345" B"01010111" "0111000" ´0´ The value of the register will be forced to value just before the pattern following the statement is executed. The state of the circuit can be saved after all patterns are processed using: save; The save; statement must be placed just before the end; instruction. When writing a long sequence of patterns, this feature can be used to split the sequence into several small sequences (with a save statement at the end of each sequence) (see asimut(1)). In pat format a comment begins with either a ´#´ (sharp) or a ´--´ (two adjacent minus) and extends up to the end of the line. A comment marked by a ´--´ is simply ignored. A comment maked by a ´#´ is kept at compile time and reproduced at the same place in the result file.
DIAGNOSTICSPat does not make the difference between upper and lower case letters. When the specified read-write format is O (octal) for an array input-output and the range of the input-output doesn´t match a multiple of 3, the most significant bits - 1 or 2 bits - of the value are ignored. When the specified read-write format is X (hexadecimal) for an array input-output and the range of the input-output doesn´t match a multiple of 4, the most significant bits - 1, 2 or 3 bits - of the value are ignored. A comment beginning with a ´#´ (sharp) placed after the end; statement causes a syntax error.
SEE ALSOasimut(1), genpat(1), libpat(3)
|This manual||Reference||Other manuals|
|pat(5)||referred by||AFFECT(3) | alliance-genpat(1) | ARRAY(3) | asimut(1) | DECLAR(3) | DEF_GENPAT(3) | GETCPAT(3) | INIT(3) | LABEL(3) | libpat(3) | pat2spi(1) | SAVE(3) | xpat(1) | xsch(1)|
|refer to||asimut(1) | GenPat(1) | libpat(3)|