Difference between revisions of "Simulation Tutorial"

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(Setting Up Manual Stimulus)
(Choosing Analysis Length)
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To save in vi, press escape and then type ":wq".
 
To save in vi, press escape and then type ":wq".
  
== Choosing Analysis Length ==
+
== Choosing Analysis Type and Length ==
 
From the Analog Environment window  
 
From the Analog Environment window  
:Select <b>Analysis &rarr; Choose </b>  
+
:Select <b>Spectre &rarr; Stimulus &rarr; Edit Analysis/Options File </b>  
  
This will bring up a smaller window prompting you for the duration of the simulation.
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This will bring up a smaller window where you should uncomment the line shown here and change it with an appropriate simulation length:
  
[[Image:ultrasim_setup4.jpg|400px]]
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// Analyses
 +
// dc1 dc oppoint=logfile homotopy=all
 +
tran1 tran stop=300n errpreset=moderate
  
 +
These options are saved in a file in your simulation directory called spectre.sim.
  
Make sure <b>tran</b> is selected.  The other option <b>envlp</b> is for fast envelope analysis for use on RF circuits.  
+
   
 
Be sure to choose a stop time that is greater than the period of the input signal.
 
Be sure to choose a stop time that is greater than the period of the input signal.
Ultrasim supports the SI prefixes so 500u would be 500 micro seconds.
+
Spectre supports the SI prefixes so 500u would be 500 micro seconds.
  
 
== Adding Model Library Files ==
 
== Adding Model Library Files ==

Revision as of 21:40, 13 October 2008

Select Analog Environment

With the schematic file open, Ultrasim can be invoked from within Virtuoso.

Select Launch → Simulation → Spectre.

This creates a new menu item called "Spectre" next to "NCSU".

Select Simulator (Spectre)

Virtuoso Analog Design Environment supports various simulators such is hSpice, Spectre, and Ultrasim. Spectre was previously chosen. Now, run

Select Spectre → Initialize.

A follow up window will pop up giving your simulator options. Press ok.

Ultrasim setup3.jpg


Simulation Run Directory indicates where your simulation files will be stored. The generated netlist file will be stored within in a file called "netlist". All of the other options are stored in this directory as well.

Setting Up Manual Stimulus

If you did not add voltage sources to drive the inputs and outputs, you can edit a stimulus file directly by choosing: Ultrasim → Stimulus → Edit Stimulus File This will open a file in vi where you can add something like this:

// Spectre Source Statements
vdd (vdd! 0) vsource dc=1.8
gnd (gnd! 0) vsource dc=0
vin (A 0) vsource type=pulse val0=0 val1=1 period=100n delay=10n rise=0.1n fall=0.1n width=50n


To save in vi, press escape and then type ":wq".

Choosing Analysis Type and Length

From the Analog Environment window

Select Spectre → Stimulus → Edit Analysis/Options File

This will bring up a smaller window where you should uncomment the line shown here and change it with an appropriate simulation length:

// Analyses
// dc1 dc oppoint=logfile homotopy=all
tran1 tran stop=300n errpreset=moderate

These options are saved in a file in your simulation directory called spectre.sim.


Be sure to choose a stop time that is greater than the period of the input signal. Spectre supports the SI prefixes so 500u would be 500 micro seconds.

Adding Model Library Files

The next step is to add the spice data for the simulator.

Select Setup → Model Libraries .

We will be adding the data for the Nmos and Pmos transistor using the TSMC 180nm process.

Ultrasim setup5.jpg


Click on browse and go to: /mada/software/techfiles/NCSU_CDK_1.5.1/models/hspice/public

Make sure you click the .. first all the way till you see mada

Select files
/mada/software/techfiles/ncsu/models/hspice/public/tsmc18dN.m
/mada/software/techfiles/ncsu/models/hspice/public/tsmc18dP.m
/mada/software/techfiles/ncsu/models/ground.sp

Be sure to click on add after selecting each file. Select OK when finished.

Selecting Outputs to be Plotted

From the Ultrasim menu

Select Outputs To Be Plotted → Select on Schematic

Now refer back to your schematic (or layout) and click on various parts to add it to the output section of the Analog Design Environment Window (for example, the output pin Z) in your schematic that you want to be plotted. Repeat this as necessary for all nets you want to see (for example, the input pin IN).

Running Simulation and Ouput Window

Select Ultrasim → Netlist/Simulate

This will generate the netlist file, run the simulation, and feed the results to the waveform viewer.


Output waveform.jpg

Waveform - Zooming and Trace

With the waveform window open, you can zoom in and find exact values.

Zoom

Select Zoom → X Zoom .
Now click and drag in the waveform window to select the x-range you want to zoom to.

Tracing

Select Marker → Place → Trace Marker

Zoom waveform.jpg

Click on one of the waveforms in the window. This places a small label on the waveform. You can drag this marker anywhere on the waveform.

Power/Energy Analysis with UltraSim

To enable power analysis in Ultrasim

1) go to Simulation->Options->Analog
2) In the "Advanced Checks" section, check the button near "Power analysis" and click on Setting
3) In the window that opens up
3.1) Enter * for the "subckt name"
3.2) Select max in the "Output Sorting" section
3.3) Click on the power and enabled button
3.4) Click on Add at the top
3.4) Click OK to close the window
4) Click OK to close the "Simulator Options" window
5) Simulate as usual (Simualte->Netlist and Run)
6) Look for a file called "input.pa", most likely under /cse/grads/USERNAME/cadence/simulation/comb_adder/UltraSim/schematic/psf/input.pa
The file will list Max,Avg and RMS power for each pin in your design, and the time in which the maximal power consumption occurred.

Energy is simply the RMS power multiplied by time

Power.jpg

Documentation

Finally, for more help...


Open file:///home/cadence/MMSIM61/doc/UltraSim_User/UltraSim_UserTOC.html in your web browser on firedance.