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Space Helios Tutorial
Welcome to this tutorial that will lead you through the amazing
possibilities of
Space,
an accurate and efficient layout-to-circuit extractor.
For this tutorial you will need Space version 4.4.4 or higher,
its GUI Helios version 1.3.4 or higher (available since 15 July 1998),
and the circuit simulator Spice.
Space and Helios are both included in the standard CACD tree, which
can be downloaded here.
The program Spice can be obtained from the
University of California at Berkeley.
We have done our best to make an interesting and clear tutorial.
However, any suggestions for improvements can be addressed to the
Space Development Team.
1. Starting with Helios
- How to start (and exit) helios.
- Have a brief look at the menus and windows.
- Load settings
from "$ICDPATH/share/tutorial/helios.defaults".
- Move the QuickRef Window to another place.
- Create project "handson"
(process=scmos_n with lambda=0.01).
- Save settings in your project directory.
- Copy the ".cmd" files from "$ICDPATH/share/tutorial" to your project.
- Load settings
from "$ICDPATH/share/tutorial/helios.defaults" or be sure that the options
have been set (back) according to as they were directly after reading
this file a previous time.
- Import the GDSII description from "switchbox4.gds" using Layout -> Import.
- Use "Database -> List" or Control+L to make a hierarchical cells listing.
- Select switchbox4 in the "List of Cells" area of the helios main window.
- Watch the layout of switchbox4 and its children using
Layout -> Editor.
- Turn on verbose mode using "Extractor -> Extraction options -> Verbose".
- Extract switchbox4 hierarchically.
- Select circuit view in "List of Cells" and do Database -> List (Control+L) again.
- Circuit -> Retrieve switchbox4 with full hierarchy for spice and edif.
- Extract switchbox4 flat and type Control+L again.
- View the result: Circuit -> Retrieve switchbox4 with full hierarchy for spice.
- Run Circuit -> Simeye with sls-logic on switchbox4.
3. Extraction of oscil
- Load settings
from "$ICDPATH/share/tutorial/helios.defaults" or be sure that the options
have been set (back) according to as they were directly after reading
this file a previous time.
- Import the GDSII description from "oscil.gds" (Layout -> Import).
- Select the layout cell oscil and make a Database -> List (Control+L).
- Watch the layout of oscil and its children using
Layout -> Editor.
- Select the circuit view,
Extract oscil flat, and type Control+L.
- Run Circuit -> Simeye with spice on oscil (watch frequency by counting the periods).
- Extract oscil flat with fast Cap.
extraction, and type Control+L.
- Run Circuit -> Simeye with spice on oscil (watch frequency).
- Extract oscil flat with fast Cap. and fast Res. extraction, and type Control+L.
- Run Circuit -> Simeye with spice on oscil (watch frequency).
Note the noise on "sense" because of the contact resistance.
Using View -> ZoomIn it is possible to zoom in on the signal
after first selecting Options -> DetailZoomON.
- Use Extractor -> Display options -> (draw tiles & draw FE mesh) to watch
the FE mesh used for resistance extraction.
Click on "Extract".
- Continue with this section directly after finishing the above section.
- Copy the element definition file from "$ICDPATH/share/lib/process/scmos_n/space.def.s".
to e.g. "elem.s", look at it, remove contact resistances
by putting the resistivity field for the contact elements to zero.
Compile the modified "elem.s" with "Database->New technology" into "elem.t" file.
Use this customized "elem.t" file and extract oscil again.
Run Circuit -> Simeye with spice on oscil (watch frequency).
Note that now the noise on "sens" has disappeared and that the delay
is almost equal to when only capacitances are extracted.
The latter is because the total interconnect resistance was mainly
determined by the contact resistance.
5. Accurate 3D Capacitance Extraction of poly5 and oscil
- Load settings
from "$ICDPATH/share/tutorial/helios.defaults" or be sure that the options
have been set (back) according to as they were directly after reading
this file a previous time.
- Import the GDSII description from "poly5.gds".
- Select poly5 in the "List of Cells" area
and watch the layout with
dali .
- Perform an accurate 3D Cap. extraction.
Set first "Extraction options -> Capacitance: accurate ext." and then select
"Details -> {Window size: 10u, Max.BE area: 1u}" and
click on "Accept".
In "Extract Options" set "Circuit Reduction" to "no reduction heuristics"
and click on "Accept Options".
Use "Display options -> {Use Display, draw BE mesh, 3 dimensional picture, draw Green}" and click
on "Extract".
See the Display note.
- Look at the spice output ("Circuit -> Retrieve" or Control+R).
- Perform an accurate Cap. extraction. Set now "Capacitance Extraction"
-> "Details" -> "Window size" to 1u.
- Look at the spice output again (Control+R).
Because of the reduced window size, direct coupling capacitances are now
only found between neighbor wires.
Note that the total capacitance that is connected to a conductor
is approximately unchanged.
It appears that when the window size is kept constant, the extraction time
is proportial to the size of the layout and the memory usage is more or less
indepent of the size of the layout.
Play with e.g. the window size or Max. BE area.
- Perform now an accurate Cap. extraction (Max.BE area: 1u, Window size: 3u) for cell oscil.
Maybe first use "Display options -> BE Mesh: only drawing, no extraction".
Then turn it OFF and also turn OFF "Display options -> BE Mesh: draw green".
6. Accurate 3D Substrate Resistance Extraction of term3
- Load settings
from "$ICDPATH/share/tutorial/helios.defaults" or be sure that the options
have been set (back) according to as they were directly after reading
this file a previous time.
- Import the GDSII description from "term3.gds".
- Select term3 and
inspect the layout with the layout editor dali.
- Perform an accurate 3D Substrate Res. extraction.
Set first "Extraction options -> Substrate Resistance: accurate ext."
and then select
"Details -> {Window size: 10u, Max.BE area: 1u}" and
click on "Accept Options" and in "Extract Options" also on "Accept Options".
Use "Display options -> {Use Display, draw BE mesh, draw Green}" and click
on "Extract".
See the Display note.
- Look at the spice output (Control+R).
- Perform an accurate 3D Substrate Res. extraction, now with
Window size: 1u.
- Look at the spice output again.
Note that now no direct coupling resistances are computed because the
contacts are more than 1u apart.
However, the substrate contacts are still coupled to each other via
the resistances to the 'SUBSTR' node.
- Perform now a fast Substrate Res. extraction.
Set first Extraction options -> Substrate Resistance to "fast extraction"
and click on "Accept Options".
In "Display options", turn OFF all drawing options, turn OFF "Use Display",
and click on "Extract".
- Look at the spice output again.
7. Fast Substrate Resistance Extraction of oscil (cont.)
- Load settings
from "$ICDPATH/share/tutorial/helios.defaults" or be sure that the options
have been set (back) according to as they were directly after reading
this file a previous time.
- Extract oscil flat with fast Capacitance extraction, fast Interconnect
Resistance extraction and fast Substrate Resistance extraction.
- First use Extractor -> Display options -> {draw substrate
terminal, draw Delaunay} to see how the extractor uses a Delaunay
diagram to determine between which direct coupling resistances are
computed (the resistances that are connected by at least one line of
the Delaunay diagram). - Then use Extractor -> Display options -> {draw substrate
terminal, draw substrate resistor} to actually see the direct coupling
resistances that are computed.
- Run Circuit -> Simeye with spice on oscil.
Note the noise on signal "sens" because of the influence of the
substrate resistances.
Recall that using View -> ZoomIn it is possible to zoom in on a signal
after first selecting Options -> DetailZoomON.
- Create with
Layout -> Editor
an extra substrate contact with mask "cca"
on the "vss" wire near contact "sens" and write the cell back to the database.
- Extract oscil again (Control+E).
- Run Circuit -> Simeye with spice on oscil and note the reduced noise.
8. RC Model Extraction of RC
- Load settings
from "$ICDPATH/share/tutorial/helios.defaults" or be sure that the options
have been set (back) according to as they were directly after reading
this file a previous time.
- Import the GDSII description from "RC.gds".
- Watch the layout of RC with
dali .
It consists of a polysilicon resistor and a poly - metal capacitor in series.
- Set "Extractor -> Extraction options ->
Circuit Reduction" to "no reduction heuristics"
- Extract Interconnect Resistances with Mode "fast"
and Capacitances with Mode "fast" and Type "cap's to substrate,
vertical and lateral coupling cap's".
- Retrieve a spice netlist in file "RC_0.spc":
Set "Retrieval options -> Advanced Options ->
Misc. Options -> Use control file" to "$ICDPATH/share/tutorial/xspicerc_notitle".
Set "Retrieval options -> Output to file" to "RC_0.spc" and
click "Retrieve".
- Extract again,
but use "frequency dependent" circuit reduction with max. is 0.1 GHz.
- Retrieve again: Set "Retrieval options -> Output to file" to "RC_100M.spc".
- Extract again: Set max. freq. to 1 GHz.
- Retrieve again: Set "Retrieval options -> Output to file" to "RC_1G.spc".
- Extract again: Set max. freq. to 100 GHz.
- Retrieve again: Set "Retrieval options -> Output to file" to "RC_100G.spc".
- Copy "$ICDPATH/share/tutorial/RC_master.spc" to your project directory
and view the file to verify that it includes the extracted circuits.
Use a terminal window!
- Simulate this four extracted circuits using
the command "spice3 RC_master.spc" or any similar command
that is appropriate for your Spice installation.
Note that - when it is assumed that the results for the
circuit "RC_100G.spc" are most accurate - the approximation of
the magnitude and the phase gradually improves as
the maximum frequency for circuit reduction becomes higher.
Exit spice3 with the "quit" command.
- Load settings
from "$ICDPATH/share/tutorial/helios.defaults" or be sure that the options
have been set (back) according to as they were directly after reading
this file a previous time.
- Create a new project "p505" (process=c3tu with lambda=0.15).
- Import the GDSII description from "P505.gds".
- Watch the layout of P505 with
dali .
- Make a hierarchical cells listing of P505 (select cell P505 and
type Control+L).
- Extract P505 flat, with
Capacitance to "fast extraction",
Type is "capacitances to substrate" and verbose is ON
(use "no extraction" for Interconnect Resistance).
- Make a hierarchical cells listing of P505 and watch the circuit view.
For questions about Space/Helios:
Space Development Team
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