Difference between revisions of "Back Annotation"
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To run simulations, copy the .pex, .pxi and .netlist file to your prior spectre simulation directory. By default, this will was "spectre.run1". | To run simulations, copy the .pex, .pxi and .netlist file to your prior spectre simulation directory. By default, this will was "spectre.run1". | ||
− | Rename the .netlist file to just "netlist". This will over-write your original netlist without parasitics. | + | Rename the .netlist file to just "netlist". This will over-write your original netlist without parasitics. Now we need to do one hack to get this to work. In the netlist file, comment out the subckt and ends lines so the file looks something like this: |
− | Now, re-run Spectre as before | + | // File: invx1.pex.netlist |
+ | // Created: Thu Oct 1 15:02:59 2009 | ||
+ | // Program "Calibre xRC" | ||
+ | // Version "v2008.3_16.12" | ||
+ | // | ||
+ | simulator lang=spectre | ||
+ | include "invx1.pex.netlist.pex" | ||
+ | //subckt invx1 ( ) | ||
+ | // | ||
+ | // GND! GND! | ||
+ | // VDD! VDD! | ||
+ | // Z Z | ||
+ | // A A | ||
+ | MM0 ( N_Z_MM0_d N_A_MM0_g N_GND!_MM0_s N_GND!_MM0_b ) NMOS_VTL l=5e-08 w=9e-08 \ | ||
+ | ad=9.45e-15 as=9.45e-15 pd=3.9e-07 ps=3.9e-07 | ||
+ | MM1 ( N_Z_MM1_d N_A_MM1_g N_VDD!_MM1_s N_VDD!_MM1_b ) PMOS_VTL l=5e-08 \ | ||
+ | w=1.8e-07 ad=1.89e-14 as=1.89e-14 pd=5.7e-07 ps=5.7e-07 | ||
+ | // | ||
+ | include "invx1.pex.netlist.INVX1.pxi" | ||
+ | // | ||
+ | //ends INVX1 | ||
+ | // | ||
+ | // | ||
+ | |||
+ | |||
+ | |||
+ | Now, re-run Spectre as before. Make sure the "netlist" option is checked so that it generates new input for Spectre from your new netlist: | ||
[[Image:netlist.jpg|400px]] | [[Image:netlist.jpg|400px]] | ||
Everything else should be the same as before back-annotation! | Everything else should be the same as before back-annotation! |
Revision as of 22:30, 1 October 2009
The above simulation did not actually include the parasitic capacitances and resistances of the interconnect. Spectre (or hSpice) will by default use the gate area (L and W) to estimate the gate capacitance, but additional poly is not considered. If you specified perimeters (ps, pd) and areas (as, ad) in the pcell form, it will include those estimates in simulation. However, it does not include any extra routing, contacts, diffusion, etc. In order to include these, you need to perform parasitic extraction and back-annotation. The extraction is similar to the device extraction you used to extract a netlist for LVS, but now it extracts parasitic resistances and capacitances too.
Your design must pass DRC and LVS to do this.
Extract Parasitics
This is very similar to LVS. Go to Calibre->Run PEX. You will need to specify a layer map like LVS again. Also, select the rule file as this:
/mada/software/techfiles/FreePDK45/ncsu_basekit/techfile/calibrexRC.rul
Under the Input section, in the Layout tab, make sure that GDSII and "Export from layout viewer" are selected. Under the Netlist tab, make sure that SPICE and "Export from schematic viewer" are selected.
Under the Output section, most options should be left as default. Under Netlist, we want SPECTRE format and names from the SCHEMATIC. By default, "All Nets" under the Nets tab should be checked. Under the Report tab, select "Generate PEX report" and "View report after PEX finishes". Under SVDB, make sure that "Start RVE after PEX" is checked.
After this, there are a few files that were created
- The .pex file ("invx1.pex.netlist.pex") contains all of the parasitics in a hierarchical format:
// File: invx1.pex.netlist.pex // Created: Thu Oct 1 14:51:55 2009 // Program "Calibre xRC" // Version "v2008.3_16.12" // Nominal Temperature: 27C // Circuit Temperature: 27C // simulator lang=spectre subckt PM_INVX1\%A ( 2 6 10 17 ) c11 ( 17 0 ) capacitor c=0.00982231f c12 ( 10 0 ) capacitor c=0.00443547f c13 ( 6 0 ) capacitor c=0.0295338f c14 ( 2 0 ) capacitor c=0.023213f r15 ( 13 17 ) resistor r=6.448 r16 ( 10 13 ) resistor r=89.3538 r17 ( 5 17 ) resistor r=1.95 r18 ( 5 6 ) resistor r=37.44 r19 ( 1 17 ) resistor r=1.95 r20 ( 1 2 ) resistor r=30.81 ends PM_INVX1\%A
subckt PM_INVX1\%Z ( 3 7 8 ) c8 ( 3 0 ) capacitor c=0.0253156f r9 ( 7 8 ) resistor r=1.30077 r10 ( 3 7 ) resistor r=1.43231 ends PM_INVX1\%Z
etc.
- The actual netlist ("NAND2.pex.netlist") with only the transistors is the .netlist file:
// File: invx1.pex.netlist // Created: Thu Oct 1 14:51:55 2009 // Program "Calibre xRC" // Version "v2008.3_16.12" // simulator lang=spectre include "invx1.pex.netlist.pex" subckt invx1 ( ) // // GND! GND! // VDD! VDD! // Z Z // A A MM0 ( N_Z_MM0_d N_A_MM0_g N_GND!_MM0_s N_GND!_MM0_b ) NMOS_VTL l=5e-08 w=9e-08 \ ad=9.45e-15 as=9.45e-15 pd=3.9e-07 ps=3.9e-07 MM1 ( N_Z_MM1_d N_A_MM1_g N_VDD!_MM1_s N_VDD!_MM1_b ) PMOS_VTL l=5e-08 \ w=1.8e-07 ad=1.89e-14 as=1.89e-14 pd=5.7e-07 ps=5.7e-07 // include "invx1.pex.netlist.INVX1.pxi" // ends INVX1 // //
- The .pxi file ("invx1.pex.netlist.INVX1.pxi") contains the connections between the parasitics and the transistors. It looks like this:
// File: invx1.pex.netlist.INVX1.pxi // Created: Thu Oct 1 14:51:55 2009 // simulator lang=spectre x_PM_INVX1\%A ( N_A_MM0_g N_A_MM1_g A N_A_c_5_p ) PM_INVX1\%A x_PM_INVX1\%Z ( N_Z_MM0_d Z N_Z_MM1_d ) PM_INVX1\%Z x_PM_INVX1\%VDD! ( N_VDD!_MM1_s N_VDD!_c_23_n VDD! N_VDD!_MM1_b N_VDD!_c_31_p ) \ PM_INVX1\%VDD! x_PM_INVX1\%GND! ( N_GND!_MM0_s N_GND!_c_34_n GND! N_GND!_MM0_b N_GND!_c_42_n ) \ PM_INVX1\%GND! cc_1 ( N_A_MM0_g N_Z_MM0_d ) capacitor c=0.0134654f cc_2 ( A N_Z_MM0_d ) capacitor c=0.0128328f cc_3 ( N_A_MM1_g N_VDD!_MM1_s ) capacitor c=0.00495734f cc_4 ( A N_VDD!_MM1_s ) capacitor c=0.00457153f cc_5 ( N_A_c_5_p N_VDD!_MM1_s ) capacitor c=2.12927e-19 cc_6 ( N_A_MM1_g N_VDD!_c_23_n ) capacitor c=6.83531e-19 cc_7 ( N_A_MM1_g N_VDD!_MM1_b ) capacitor c=0.00138401f cc_8 ( N_A_MM0_g N_GND!_MM0_s ) capacitor c=0.00284806f cc_9 ( A N_GND!_MM0_s ) capacitor c=0.00348315f cc_10 ( N_A_MM0_g N_GND!_c_34_n ) capacitor c=6.08173e-19 cc_11 ( N_A_MM0_g N_GND!_MM0_b ) capacitor c=3.76006e-19 cc_12 ( N_Z_MM0_d N_VDD!_MM1_s ) capacitor c=0.00899139f cc_13 ( N_Z_MM0_d N_VDD!_c_23_n ) capacitor c=0.00422637f cc_14 ( N_Z_MM0_d N_VDD!_MM1_b ) capacitor c=0.00644008f cc_15 ( N_Z_MM0_d N_GND!_MM0_s ) capacitor c=0.00899139f cc_16 ( N_Z_MM0_d N_GND!_c_34_n ) capacitor c=0.0106885f cc_17 ( N_Z_MM0_d N_GND!_MM0_b ) capacitor c=0.0085131f cc_18 ( N_VDD!_MM1_s N_GND!_MM0_s ) capacitor c=7.55743e-19 cc_19 ( N_VDD!_c_23_n N_GND!_c_34_n ) capacitor c=0.00124773f cc_20 ( N_VDD!_MM1_b N_GND!_MM0_b ) capacitor c=0.00144067f cc_21 ( N_VDD!_c_31_p N_GND!_c_42_n ) capacitor c=9.1113e-19
If the above simulation gets too slow, you can run without resistive parasitics but with less accuracy. To do this, change the extraction type to "C+CC" instead of "R+C+CC".
Now, you are ready to run a back-annotated simulation.
Back-Annotated Simulation
To run simulations, copy the .pex, .pxi and .netlist file to your prior spectre simulation directory. By default, this will was "spectre.run1".
Rename the .netlist file to just "netlist". This will over-write your original netlist without parasitics. Now we need to do one hack to get this to work. In the netlist file, comment out the subckt and ends lines so the file looks something like this:
// File: invx1.pex.netlist // Created: Thu Oct 1 15:02:59 2009 // Program "Calibre xRC" // Version "v2008.3_16.12" // simulator lang=spectre include "invx1.pex.netlist.pex" //subckt invx1 ( ) // // GND! GND! // VDD! VDD! // Z Z // A A MM0 ( N_Z_MM0_d N_A_MM0_g N_GND!_MM0_s N_GND!_MM0_b ) NMOS_VTL l=5e-08 w=9e-08 \ ad=9.45e-15 as=9.45e-15 pd=3.9e-07 ps=3.9e-07 MM1 ( N_Z_MM1_d N_A_MM1_g N_VDD!_MM1_s N_VDD!_MM1_b ) PMOS_VTL l=5e-08 \ w=1.8e-07 ad=1.89e-14 as=1.89e-14 pd=5.7e-07 ps=5.7e-07 // include "invx1.pex.netlist.INVX1.pxi" // //ends INVX1 // //
Now, re-run Spectre as before. Make sure the "netlist" option is checked so that it generates new input for Spectre from your new netlist:
Everything else should be the same as before back-annotation!