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SIM(5) |
FreeBSD File Formats Manual |
SIM(5) |
sim - format of .sim files read by esim, crystal, etc.
The simulation tools crystal(1) and esim(1) accept a circuit
description in .sim format. There is a single .sim file for the
entire circuit, unlike Magic's ext(5) format in which there is a
.ext file for every cell in a hierarchical design.
A .sim file consists of a series of lines, each of which
begins with a key letter. The key letter beginning a line determines how the
remainder of the line is interpreted. The following are the list of key
letters understood.
- | units: s tech: tech format:
MIT|LBL|SU
- If present, this must be the first line in the .sim file. It
identifies the technology of this circuit as tech and gives a scale
factor for units of linear dimension as s. All linear dimensions
appearing in the .sim file are multiplied by s to give
centimicrons. The format field signifies the sim variant. MIT and SU are
compatible and understood by all tools. LBL is understood only by
gemini(1).
- type g s d l w x y g=gattrs s=sattrs
d= dattrs
- Defines a transistor of type type. Currently, type may be
e or d for NMOS, or p or n for CMOS. The name
of the node to which the gate, source, and drain of the transistor are
connected are given by g, s, and d respectively. The
length and width of the transistor are l and w. The next two
tokens, x and y, are optional. If present, they give the
location of a point inside the gate region of the transistor. The last
three tokens are the attribute lists for the transistor gate, source, and
drain. If no attributes are present for a particular terminal, the
corresponding attribute list may be absent (i.e, there may be no g=
field at all). The attribute lists gattrs, etc. are comma-separated
lists of labels. The label names should not include any spaces, although
some tools can accept label names with spaces if they are enclosed in
double quotes. In version 6.4.5 and later the default format
produced by ext2sim is SU. In this format the attribute of the gate
starting with S_ is the substrate node of the fet. The attributes of the
gate, and source and substrate starting with A_, P_ are the area and
perimeter (summed for that node only once) of the source and drain
respectively. This addition to the format is backwards compatible.
- C n1 n2 cap
- Defines a capacitor between nodes n1 and n2. The value of
the capacitor is cap femtofarads. NOTE: since many analysis
tools compute transistor gate capacitance themselves from the transistor's
area and perimeter, the capacitance between a node and substrate (GND!)
normally does not include the capacitance from transistor gates connected
to that node. If the .sim file was produced by ext2sim(1),
check the technology file that was used to produce the original
.ext files to see whether transistor gate capacitance is included
or excluded; see ``Magic Maintainer's Manual #2: The Technology File'' for
details.
- R node res
- Defines the lumped resistance of node node to be res ohms.
This construct is only interpreted by a few programs.
- r node1 node2 res
- Defines an explicit resistor between nodes node1 and node2
of resistance res ohms. This construct is only interpreted by a few
programs.
- N node darea dperim parea pperim marea mperim
- As an alternative to computed capacitances, some tools expect the total
perimeter and area of the polysilicon, diffusion, and metal in each node
to be reported in the .sim file. The N construct associates
diffusion area darea (in square centimicrons) and diffusion
perimeter dperim (in centimicrons) with node node,
polysilicon area parea and perimeter pperim, and metal area
marea and perimeter mperim. This construct is technology
dependent and obsolete.
- A node attr
- Associates attribute attr for node node. The string
attr should contain no blanks.
- = node1 node2
- Each node in a .sim file is named implicitly by having it appear in
a transistor definition. All node names appearing in a .sim file
are assumed to be distinct. Some tools, such as esim(1), recognize
aliases for node names. The = construct allows the name
node2 to be defined as an alias for the name node1. Aliases
defined by means of this construct may not appear anywhere else in the
.sim file.
crystal(1), esim(1), ext2sim(1), sim2spice(1), ext(5)
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