Difference between revisions of "How to use inherited connections"

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Next, create a test schematic for the '''nand2''' gate called '''nand2_test'''.  This test schematic is designed to override the power supply nets by using Net Expressions.  The overrides are shown in yellow on the schematic.  The global '''vdd!''' net is set to ''5V'' and the vdd power supply of the ''nand2'' gate is set to ''3.3V!'':
 
Next, create a test schematic for the '''nand2''' gate called '''nand2_test'''.  This test schematic is designed to override the power supply nets by using Net Expressions.  The overrides are shown in yellow on the schematic.  The global '''vdd!''' net is set to ''5V'' and the vdd power supply of the ''nand2'' gate is set to ''3.3V!'':
  
 +
: [[File:Inherited_connections_002.png]]
  
: [[File:Inherited_connections_002.png]]
 
  
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The Net Expressions can be set by '''Edit → Net Expressions → Available Properties...'''.  This brings up the window below.  The net expressions will be shown for the currently selected components.  Select the '''nand2''' component to show its Net Expressions.
  
The Net Expressions can be set by
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: [[File:Inherited_connections_003.png]]
  
  
: [[File:Inherited_connections_003.png]]
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Select the '''vdd''' connection.  Under '''Action''', select '''Overrride with specific net'''.  Type the net name '''3.3V!'''.  This now corresponds to the '''3.3V!''' net defined in the test schematic.
  
 
: [[File:Inherited_connections_004.png]]
 
: [[File:Inherited_connections_004.png]]
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Next, a simulation is done to show that the power supply of the output from the nand2 gate is at 3.3V and not 5V.  The simulation setup is shown below:
  
 
: [[File:Inherited_connections_005.png]]
 
: [[File:Inherited_connections_005.png]]
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The simulations results here show that the '''OUT''' net swings from 0V to 3.3V.
  
 
: [[File:Inherited_connections_006.png]]
 
: [[File:Inherited_connections_006.png]]
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Then, a layout of the '''nand2''' gate is constructed.  The pins on this layout are defined using Net Expressions:
  
 
: [[File:Inherited_connections_007.png]]
 
: [[File:Inherited_connections_007.png]]
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When creating a pin for an inherited power supply (such as ''vdd_inherit''), define the terminal name using the ''default global search name''.  In the case of the '''vdd''' inherited connection, this would be '''vdd!''':
  
 
: [[File:Inherited_connections_008.png]]
 
: [[File:Inherited_connections_008.png]]
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After placing the pin in the layout, select it and open up the properties (''Edit → Basic → Properties...'' or bind key ''q'').  This shows the terminal name is ''vdd!'' under the ''Attribute'' tab as was defined earlier.
  
 
: [[File:Inherited_connections_009.png]]
 
: [[File:Inherited_connections_009.png]]
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Then click on the '''Connectivity''' tab.  Here, Net Expressions can be defined on the pin.  Under '''Net Expression Property''', type '''vdd''' for the inherited net name, and under '''Default''', type '''vdd!''' for the ''default global search name''.
  
 
: [[File:Inherited_connections_010.png]]
 
: [[File:Inherited_connections_010.png]]

Revision as of 17:46, 9 May 2011

Help resources

  • IC-6146.14 → Virtuoso Schematic Editor → Virtuoso Schematic Editor L User Guide; → Understanding Connectivity and Naming Conventions → Inherited Connections
  • IC-6146.14 → Virtuoso Layout Suite → Virtuoso Layout Suite L User Guide → Editing and Defining Properties → Using Net Expressions and Inherited Connections

Inherited connections provide a convenient way to use multiple power supplies in a design by defining a single power supply in a low-level schematic that is overridable. This can reduce the need to draw power and gnd pin connections explicitly on each symbol (useful for digital gates). In this how-to, a method for using and defining inherited connections will be given.

Note, the NCSU Design Toolkit replaces the basic library from Cadence with its own which may not have the vdd_inherit or gnd_inherit cells. To add this library to your CDS project with the name basic_cds, add the following line to the cds.lib file:

DEFINE basic_cds $IC/tools/dfII/etc/cdslib/basic

Inherited connections use Net Expressions in Cadence which provide a way of renaming a net. There are four components of a net expression (ex. [@search property name:%:default global search name]):

  1. search scope
  2. search property name
  3. format instruction
  4. default global search name - shows what the wire or pin is connected to by default

When a net expression is formed, an asterisk (*) is shown after the global name indicating that it is a net expression.

In the basic_cds library, there are four inherited supply symbols. These are given in the table below along with their associated net exprssion label:

Inherited Supply Symbol Net Expression Label
vcc_inherit [@vcc:%:vcc!]
vdd_inherit [@vdd:%:vdd!]
gnd_inherit [@gnd:%:gnd!]
vss_inherit [@vss:%:vss!]

nand2 gate

Here, is an example of using inherited connections using a 2-input NAND gate (nand2).

First, in the Library Manager, create a new schematic cell view using File → New → Cell View.... Then under the field Cell, type nand2. For Type select schematic. And for the View type schematic. Then draw the nand2 gate as shown below using the vdd_inherit and gnd_inherit symbols from the basic_cds library.

Inherited connections 001.png


Next, create a test schematic for the nand2 gate called nand2_test. This test schematic is designed to override the power supply nets by using Net Expressions. The overrides are shown in yellow on the schematic. The global vdd! net is set to 5V and the vdd power supply of the nand2 gate is set to 3.3V!:

Inherited connections 002.png


The Net Expressions can be set by Edit → Net Expressions → Available Properties.... This brings up the window below. The net expressions will be shown for the currently selected components. Select the nand2 component to show its Net Expressions.

Inherited connections 003.png


Select the vdd connection. Under Action, select Overrride with specific net. Type the net name 3.3V!. This now corresponds to the 3.3V! net defined in the test schematic.

Inherited connections 004.png


Next, a simulation is done to show that the power supply of the output from the nand2 gate is at 3.3V and not 5V. The simulation setup is shown below:

Inherited connections 005.png


The simulations results here show that the OUT net swings from 0V to 3.3V.

Inherited connections 006.png


Then, a layout of the nand2 gate is constructed. The pins on this layout are defined using Net Expressions:

Inherited connections 007.png


When creating a pin for an inherited power supply (such as vdd_inherit), define the terminal name using the default global search name. In the case of the vdd inherited connection, this would be vdd!:

Inherited connections 008.png


After placing the pin in the layout, select it and open up the properties (Edit → Basic → Properties... or bind key q). This shows the terminal name is vdd! under the Attribute tab as was defined earlier.

Inherited connections 009.png


Then click on the Connectivity tab. Here, Net Expressions can be defined on the pin. Under Net Expression Property, type vdd for the inherited net name, and under Default, type vdd! for the default global search name.

Inherited connections 010.png
Inherited connections 011.png
Inherited connections 012.png
Inherited connections 013.png
Inherited connections 014.png
Inherited connections 015.png
Inherited connections 016.png
Inherited connections 017.png
Inherited connections 018.png
Inherited connections 019.png
Inherited connections 020.png
Inherited connections 021.png
Inherited connections 022.png
Inherited connections 023.png