sky130/sky130_make_torture.tcl - third_party/opencircuitdesign.com/open_pdks - Git at Google

 #---------------------------------------
 # Torture test generator for EFS8
 # (Specifically for EFS8B)
 # (work in progress)
 #---------------------------------------

 namespace path {::tcl::mathop ::tcl::mathfunc}

 # Set random seed so that torture test is not random from run to run.
 srand 1234567

 # NxN array MOSFET devices

 proc mos_array {n devname startx starty {deltax 12700} {deltay 254}} {
    suspendall
    box position $startx $starty
    set i 0
    for {set x 0} {$x < $n} {incr x} {
       for {set y 0} {$y < $n} {incr y} {

          set r [int [* [rand] 20]]
          set w [+ 0.22 [* 0.5 $r]]
          set r [int [* [rand] 20]]
          set l [+ 0.18 [* 0.3 $r]]
          set m [int [+ 1 [* [rand] 8]]]
          set nf [int [+ 1 [* [rand] 8]]]

          set r [int [* [rand] 8]]
          set dcov [+ 20 [* 10 $r]]
          set r [int [* [rand] 8]]
          set pcov [+ 20 [* 10 $r]]
          set r [int [* [rand] 8]]
          set rlcov [+ 20 [* 10 $r]]

          if {[rand] > 0.5} {set pov 1} else {set pov 0}
          if {[rand] > 0.5} {set dov 1} else {set dov 0}
          if {[rand] > 0.5} {set tc 1} else {set tc 0}
          if {[rand] > 0.5} {set bc 1} else {set bc 0}
          if {[rand] > 0.5} {set fm 1} else {set fm 0}
          if {[rand] > 0.5} {set gl 1} else {set gl 0}
          if {[rand] > 0.5} {set gr 1} else {set gr 0}
          if {[rand] > 0.5} {set gt 1} else {set gt 0}
          if {[rand] > 0.5} {set gb 1} else {set gb 0}

          magic::gencell sky130::${devname} ${devname}_$i \
 		w $w l $l m $m nf $nf diffcov $dcov polycov $pcov \
 		rlcov $rlcov poverlap $pov doverlap $dov topc $tc \
 		botc $bc full_metal $fm glc $gl grc $gr gbc $gb gtc $gt
          select cell ${devname}_$i
          set bh [box height]
          set bh [+ $bh $deltay]
          box move n $bh
          incr i
       }
       set bp [box position]
       set bpx [lindex $bp 0]
       box position $bpx $starty
       box move e $deltax
    }
    resumeall
 }

 # NxN array resistor devices

 proc res_array {n devname startx starty {deltax 12700} {deltay 254}} {
    suspendall
    box position $startx $starty
    set i 0
    for {set x 0} {$x < $n} {incr x} {
       for {set y 0} {$y < $n} {incr y} {

          set r [int [* [rand] 10]]
          set w [+ 0.42 [* 0.5 $r]]
          set r [int [* [rand] 50]]
          set l [+ 2.10 [* 2.0 $r]]
          set m [int [+ 1 [* [rand] 2]]]
          set nx [int [+ 1 [* [rand] 10]]]

          set r [int [* [rand] 8]]
          set ecov [+ 20 [* 10 $r]]

          if {[rand] > 0.5} {set rov 1} else {set rov 0}
 	 if {[rand] > 0.5} {set sn 1} else {set sn 0}
          if {[rand] > 0.5} {set fm 1} else {set fm 0}
          if {[rand] > 0.5} {set gl 1} else {set gl 0}
          if {[rand] > 0.5} {set gr 1} else {set gr 0}
          if {[rand] > 0.5} {set gt 1} else {set gt 0}
          if {[rand] > 0.5} {set gb 1} else {set gb 0}

 	 # Snake geometry does not apply to xhrpoly, uhrpoly, and xpwres, and
 	 # roverlap and endcov are prohibited.
 	 if {$devname == "xhrpoly" || $devname == "uhrpoly" || $devname == "xpwres"} {
 	    magic::gencell sky130::${devname} ${devname}_$i \
 		w $w l $l m $m nx $nx full_metal $fm \
 		glc $gl grc $gr gbc $gb gtc $gt
 	 } else {
 	    magic::gencell sky130::${devname} ${devname}_$i \
 		w $w l $l m $m nx $nx endcov $ecov roverlap $rov \
 		snake $sn full_metal $fm glc $gl grc $gr gbc $gb gtc $gt
 	 }
          select cell ${devname}_$i
          set bh [box height]
          set bh [+ $bh $deltay]
          box move n $bh
          incr i
       }
       set bp [box position]
       set bpx [lindex $bp 0]
       box position $bpx $starty
       box move e $deltax
    }
    resumeall
 }

 # NxN array diode devices

 proc diode_array {n devname startx starty} {
    suspendall
    box position $startx $starty
    set i 0
    for {set x 0} {$x < $n} {incr x} {
       for {set y 0} {$y < $n} {incr y} {

          set r [int [* [rand] 10]]
          set w [+ 0.42 [* 0.5 $r]]
          set r [int [* [rand] 10]]
          set l [+ 0.42 [* 0.5 $r]]
          set nx [int [+ 1 [* [rand] 4]]]
          set ny [int [+ 1 [* [rand] 4]]]

          if {[rand] > 0.5} {set dov 1} else {set dov 0}
          if {[rand] > 0.5} {set el 1} else {set el 0}
          if {[rand] > 0.5} {set er 1} else {set er 0}
          if {[rand] > 0.5} {set et 1} else {set et 0}
          if {[rand] > 0.5} {set eb 1} else {set eb 0}
          if {[rand] > 0.5} {set fm 1} else {set fm 0}
          if {[rand] > 0.5} {set gl 1} else {set gl 0}
          if {[rand] > 0.5} {set gr 1} else {set gr 0}
          if {[rand] > 0.5} {set gt 1} else {set gt 0}
          if {[rand] > 0.5} {set gb 1} else {set gb 0}

          magic::gencell sky130::${devname} ${devname}_$i \
 		w $w l $l nx $nx ny $ny doverlap $dov \
 		full_metal $fm elc $el erc $er etc $et \
 		ebc $eb glc $gl grc $gr gbc $gb gtc $gt
          select cell ${devname}_$i
          set bh [box height]
          set bh [+ $bh 254]
          box move n $bh
          incr i
       }
       set bp [box position]
       set bpx [lindex $bp 0]
       box position $bpx $starty
       box move e 12700
    }
    resumeall
 }

 # NxN array cap devices

 proc cap_array {n devname startx starty {deltax 12700} {deltay 160}} {
    suspendall
    box position $startx $starty
    set i 0
    for {set x 0} {$x < $n} {incr x} {
       for {set y 0} {$y < $n} {incr y} {

          set r [int [* [rand] 10]]
          set w [+ 2.00 [* 1.0 $r]]
          set r [int [* [rand] 10]]
          set l [+ 2.00 [* 1.0 $r]]
          set nx [int [+ 1 [* [rand] 4]]]
          set ny [int [+ 1 [* [rand] 4]]]

          if {[rand] > 0.5} {set bc 1} else {set bc 0}
          if {[rand] > 0.5} {set tc 1} else {set tc 0}

          magic::gencell sky130::${devname} ${devname}_$i \
 		w $w l $l nx $nx ny $ny bconnect $bc tconnect $tc
          select cell ${devname}_$i
          set bh [box height]
          set bh [+ $bh $deltay]
          box move n $bh
          incr i
       }
       set bp [box position]
       set bpx [lindex $bp 0]
       box position $bpx $starty
       box move e $deltax
    }
    resumeall
 }

 # NxN fixed devices

 proc fixed_array {n devname startx starty} {
    suspendall
    box position $startx $starty
    set i 0
    for {set x 0} {$x < $n} {incr x} {
       for {set y 0} {$y < $n} {incr y} {

          set nx [int [+ 1 [* [rand] 4]]]
          set ny [int [+ 1 [* [rand] 4]]]

          # Do not change the deltas---this will cause DRC problems
          set r 0
          # set r [int [* [rand] 10]]
          set deltax [/ $r 10.0]
          # set r [int [* [rand] 10]]
          set deltay [/ $r 10.0]

          magic::gencell sky130::${devname} ${devname}_$i \
 		nx $nx ny $ny deltax $deltax deltay $deltay
          select cell ${devname}_$i
          set bh [box height]
          set bh [* $bh [+ $ny 1]]
          box move n $bh
          incr i
       }
       set bp [box position]
       set bpx [lindex $bp 0]
       box position $bpx $starty
       box move e 20000
    }
    resumeall
 }

 snap int
 box size 0 0

 # Layout:
 #  phv
 #        mrl1     mrp1   mrdp   mrdp_hv
 #  nhv                                  pdiode_h
 #                                       ndiode_h
 #  pshort                               nndiode
 #        xhrpoly  xpwres mrdn   mrdn_hv  pdiode
 #  nshort                               ndiode
 #

 mos_array 6 nshort 0 0
 mos_array 6 pshort 0 75000
 mos_array 6 nhv 0 150000
 mos_array 6 phv 0 225000
 mos_array 6 nlowvt 0 300000
 mos_array 6 sonos_e 0 375000 12700 1650
 mos_array 6 plowvt 0 450000
 mos_array 6 phighvt 0 525000
 mos_array 6 nhvnative 0 600000

 res_array 6 xhrpoly 100000 0
 res_array 6 mrl1 100000 180000
 res_array 6 uhrpoly 100000 360000

 res_array 6 xpwres 200000 0 13500 1100
 res_array 6 mrp1 200000 200000

 res_array 6 mrdn 300000 0
 res_array 6 mrdp 300000 180000

 res_array 6 mrdn_hv 400000 0
 res_array 6 mrdp_hv 400000 180000

 diode_array 6 ndiode 500000 0
 diode_array 6 pdiode 500000 30000
 diode_array 6 ndiode_h 500000 60000
 diode_array 6 pdiode_h 500000 90000

 cap_array 6 xcmimc1 600000 0
 cap_array 6 xcmimc2 600000 70000 18000 650

 mos_array 6 xcnwvc 700000 0 15000 254
 mos_array 6 xchvnwc 700000 70000 18000 254
 mos_array 6 xcnwvc2 700000 140000 15000 254

 fixed_array 2 sky130_fd_pr_rf_npn_1x1 850000 0
 fixed_array 2 sky130_fd_pr_rf_npn_1x2 850000 30000
 fixed_array 2 sky130_fd_pr_rf_pnp5x 850000 60000

 fixed_array 2 sky130_fd_pr_rf2_xcmvpp11p5x11p7_lim5shield 900000 0
 fixed_array 2 sky130_fd_pr_rf2_xcmvpp11p5x11p7_m3_lim5shield 900000 30000
 fixed_array 2 sky130_fd_pr_rf2_xcmvpp11p5x11p7_m4shield 900000 60000
 fixed_array 2 sky130_fd_pr_rf2_xcmvpp11p5x11p7_polym4shield 900000 90000
 fixed_array 2 sky130_fd_pr_rf2_xcmvpp4p4x4p6_m3_lim5shield 900000 120000
 fixed_array 2 sky130_fd_pr_rf2_xcmvpp6p8x6p1_lim4shield 900000 150000
 fixed_array 2 sky130_fd_pr_rf2_xcmvpp6p8x6p1_polym4shield 900000 180000
 fixed_array 2 sky130_fd_pr_rf2_xcmvpp8p6x7p9_m3_lim5shield 900000 210000
 fixed_array 2 sky130_fd_pr_rf2_xcmvppx4_2xnhvnative10x4 900000 240000
 # fixed_array 2 sky130_fd_pr_rf2_xcmvpp11p5x11p7_polym50p4shield 900000 270000

 fixed_array 2 sky130_fd_pr_rf_xcmvpp11p5x11p7_m3_lishield 950000 0
 fixed_array 2 sky130_fd_pr_rf_xcmvpp11p5x11p7_m3shield 950000 30000
 fixed_array 2 sky130_fd_pr_rf_xcmvpp2 950000 60000
 fixed_array 2 sky130_fd_pr_rf_xcmvpp2_nwell 950000 90000
 fixed_array 2 sky130_fd_pr_rf_xcmvpp4p4x4p6_m3_lishield 950000 120000
 fixed_array 2 sky130_fd_pr_rf_xcmvpp4p4x4p6_m3shield 950000 150000
 fixed_array 2 sky130_fd_pr_rf_xcmvpp8p6x7p9_m3_lishield 950000 180000
 fixed_array 2 sky130_fd_pr_rf_xcmvpp8p6x7p9_m3shield 950000 210000
 # fixed_array 2 sky130_fd_pr_rf_xcmvpp1p8x1p8_lishield 950000 240000
 # fixed_array 2 sky130_fd_pr_rf_xcmvpp1p8x1p8_m3shield 950000 270000

 fixed_array 1 balun 1000000 0
 fixed_array 1 xind4_02 1000000 200000
 fixed_array 1 xind4_011 1250000 0

 # Draw a deep nwell region around the sonos transistor block
 box values -5200i 369500i 76800i 427500i
 sky130::deep_nwell_draw

 save torture_test_sky130
 gds write torture_test_sky130
	#---------------------------------------
	# Torture test generator for EFS8
	# (Specifically for EFS8B)
	# (work in progress)
	#---------------------------------------

	namespace path {::tcl::mathop ::tcl::mathfunc}

	# Set random seed so that torture test is not random from run to run.
	srand 1234567

	# NxN array MOSFET devices

	proc mos_array {n devname startx starty {deltax 12700} {deltay 254}} {
	suspendall
	box position $startx $starty
	set i 0
	for {set x 0} {$x < $n} {incr x} {
	for {set y 0} {$y < $n} {incr y} {

	set r [int [* [rand] 20]]
	set w [+ 0.22 [* 0.5 $r]]
	set r [int [* [rand] 20]]
	set l [+ 0.18 [* 0.3 $r]]
	set m [int [+ 1 [* [rand] 8]]]
	set nf [int [+ 1 [* [rand] 8]]]

	set r [int [* [rand] 8]]
	set dcov [+ 20 [* 10 $r]]
	set r [int [* [rand] 8]]
	set pcov [+ 20 [* 10 $r]]
	set r [int [* [rand] 8]]
	set rlcov [+ 20 [* 10 $r]]

	if {[rand] > 0.5} {set pov 1} else {set pov 0}
	if {[rand] > 0.5} {set dov 1} else {set dov 0}
	if {[rand] > 0.5} {set tc 1} else {set tc 0}
	if {[rand] > 0.5} {set bc 1} else {set bc 0}
	if {[rand] > 0.5} {set fm 1} else {set fm 0}
	if {[rand] > 0.5} {set gl 1} else {set gl 0}
	if {[rand] > 0.5} {set gr 1} else {set gr 0}
	if {[rand] > 0.5} {set gt 1} else {set gt 0}
	if {[rand] > 0.5} {set gb 1} else {set gb 0}

	magic::gencell sky130::${devname} ${devname}_$i \
	w $w l $l m $m nf $nf diffcov $dcov polycov $pcov \
	rlcov $rlcov poverlap $pov doverlap $dov topc $tc \
	botc $bc full_metal $fm glc $gl grc $gr gbc $gb gtc $gt
	select cell ${devname}_$i
	set bh [box height]
	set bh [+ $bh $deltay]
	box move n $bh
	incr i
	}
	set bp [box position]
	set bpx [lindex $bp 0]
	box position $bpx $starty
	box move e $deltax
	}
	resumeall
	}

	# NxN array resistor devices

	proc res_array {n devname startx starty {deltax 12700} {deltay 254}} {
	suspendall
	box position $startx $starty
	set i 0
	for {set x 0} {$x < $n} {incr x} {
	for {set y 0} {$y < $n} {incr y} {

	set r [int [* [rand] 10]]
	set w [+ 0.42 [* 0.5 $r]]
	set r [int [* [rand] 50]]
	set l [+ 2.10 [* 2.0 $r]]
	set m [int [+ 1 [* [rand] 2]]]
	set nx [int [+ 1 [* [rand] 10]]]

	set r [int [* [rand] 8]]
	set ecov [+ 20 [* 10 $r]]

	if {[rand] > 0.5} {set rov 1} else {set rov 0}
	if {[rand] > 0.5} {set sn 1} else {set sn 0}
	if {[rand] > 0.5} {set fm 1} else {set fm 0}
	if {[rand] > 0.5} {set gl 1} else {set gl 0}
	if {[rand] > 0.5} {set gr 1} else {set gr 0}
	if {[rand] > 0.5} {set gt 1} else {set gt 0}
	if {[rand] > 0.5} {set gb 1} else {set gb 0}

	# Snake geometry does not apply to xhrpoly, uhrpoly, and xpwres, and
	# roverlap and endcov are prohibited.
	if {$devname == "xhrpoly" \|\| $devname == "uhrpoly" \|\| $devname == "xpwres"} {
	magic::gencell sky130::${devname} ${devname}_$i \
	w $w l $l m $m nx $nx full_metal $fm \
	glc $gl grc $gr gbc $gb gtc $gt
	} else {
	magic::gencell sky130::${devname} ${devname}_$i \
	w $w l $l m $m nx $nx endcov $ecov roverlap $rov \
	snake $sn full_metal $fm glc $gl grc $gr gbc $gb gtc $gt
	}
	select cell ${devname}_$i
	set bh [box height]
	set bh [+ $bh $deltay]
	box move n $bh
	incr i
	}
	set bp [box position]
	set bpx [lindex $bp 0]
	box position $bpx $starty
	box move e $deltax
	}
	resumeall
	}

	# NxN array diode devices

	proc diode_array {n devname startx starty} {
	suspendall
	box position $startx $starty
	set i 0
	for {set x 0} {$x < $n} {incr x} {
	for {set y 0} {$y < $n} {incr y} {

	set r [int [* [rand] 10]]
	set w [+ 0.42 [* 0.5 $r]]
	set r [int [* [rand] 10]]
	set l [+ 0.42 [* 0.5 $r]]
	set nx [int [+ 1 [* [rand] 4]]]
	set ny [int [+ 1 [* [rand] 4]]]

	if {[rand] > 0.5} {set dov 1} else {set dov 0}
	if {[rand] > 0.5} {set el 1} else {set el 0}
	if {[rand] > 0.5} {set er 1} else {set er 0}
	if {[rand] > 0.5} {set et 1} else {set et 0}
	if {[rand] > 0.5} {set eb 1} else {set eb 0}
	if {[rand] > 0.5} {set fm 1} else {set fm 0}
	if {[rand] > 0.5} {set gl 1} else {set gl 0}
	if {[rand] > 0.5} {set gr 1} else {set gr 0}
	if {[rand] > 0.5} {set gt 1} else {set gt 0}
	if {[rand] > 0.5} {set gb 1} else {set gb 0}

	magic::gencell sky130::${devname} ${devname}_$i \
	w $w l $l nx $nx ny $ny doverlap $dov \
	full_metal $fm elc $el erc $er etc $et \
	ebc $eb glc $gl grc $gr gbc $gb gtc $gt
	select cell ${devname}_$i
	set bh [box height]
	set bh [+ $bh 254]
	box move n $bh
	incr i
	}
	set bp [box position]
	set bpx [lindex $bp 0]
	box position $bpx $starty
	box move e 12700
	}
	resumeall
	}

	# NxN array cap devices

	proc cap_array {n devname startx starty {deltax 12700} {deltay 160}} {
	suspendall
	box position $startx $starty
	set i 0
	for {set x 0} {$x < $n} {incr x} {
	for {set y 0} {$y < $n} {incr y} {

	set r [int [* [rand] 10]]
	set w [+ 2.00 [* 1.0 $r]]
	set r [int [* [rand] 10]]
	set l [+ 2.00 [* 1.0 $r]]
	set nx [int [+ 1 [* [rand] 4]]]
	set ny [int [+ 1 [* [rand] 4]]]

	if {[rand] > 0.5} {set bc 1} else {set bc 0}
	if {[rand] > 0.5} {set tc 1} else {set tc 0}

	magic::gencell sky130::${devname} ${devname}_$i \
	w $w l $l nx $nx ny $ny bconnect $bc tconnect $tc
	select cell ${devname}_$i
	set bh [box height]
	set bh [+ $bh $deltay]
	box move n $bh
	incr i
	}
	set bp [box position]
	set bpx [lindex $bp 0]
	box position $bpx $starty
	box move e $deltax
	}
	resumeall
	}

	# NxN fixed devices

	proc fixed_array {n devname startx starty} {
	suspendall
	box position $startx $starty
	set i 0
	for {set x 0} {$x < $n} {incr x} {
	for {set y 0} {$y < $n} {incr y} {

	set nx [int [+ 1 [* [rand] 4]]]
	set ny [int [+ 1 [* [rand] 4]]]

	# Do not change the deltas---this will cause DRC problems
	set r 0
	# set r [int [* [rand] 10]]
	set deltax [/ $r 10.0]
	# set r [int [* [rand] 10]]
	set deltay [/ $r 10.0]

	magic::gencell sky130::${devname} ${devname}_$i \
	nx $nx ny $ny deltax $deltax deltay $deltay
	select cell ${devname}_$i
	set bh [box height]
	set bh [* $bh [+ $ny 1]]
	box move n $bh
	incr i
	}
	set bp [box position]
	set bpx [lindex $bp 0]
	box position $bpx $starty
	box move e 20000
	}
	resumeall
	}

	snap int
	box size 0 0

	# Layout:
	# phv
	# mrl1 mrp1 mrdp mrdp_hv
	# nhv pdiode_h
	# ndiode_h
	# pshort nndiode
	# xhrpoly xpwres mrdn mrdn_hv pdiode
	# nshort ndiode
	#

	mos_array 6 nshort 0 0
	mos_array 6 pshort 0 75000
	mos_array 6 nhv 0 150000
	mos_array 6 phv 0 225000
	mos_array 6 nlowvt 0 300000
	mos_array 6 sonos_e 0 375000 12700 1650
	mos_array 6 plowvt 0 450000
	mos_array 6 phighvt 0 525000
	mos_array 6 nhvnative 0 600000

	res_array 6 xhrpoly 100000 0
	res_array 6 mrl1 100000 180000
	res_array 6 uhrpoly 100000 360000

	res_array 6 xpwres 200000 0 13500 1100
	res_array 6 mrp1 200000 200000

	res_array 6 mrdn 300000 0
	res_array 6 mrdp 300000 180000

	res_array 6 mrdn_hv 400000 0
	res_array 6 mrdp_hv 400000 180000

	diode_array 6 ndiode 500000 0
	diode_array 6 pdiode 500000 30000
	diode_array 6 ndiode_h 500000 60000
	diode_array 6 pdiode_h 500000 90000

	cap_array 6 xcmimc1 600000 0
	cap_array 6 xcmimc2 600000 70000 18000 650

	mos_array 6 xcnwvc 700000 0 15000 254
	mos_array 6 xchvnwc 700000 70000 18000 254
	mos_array 6 xcnwvc2 700000 140000 15000 254

	fixed_array 2 sky130_fd_pr_rf_npn_1x1 850000 0
	fixed_array 2 sky130_fd_pr_rf_npn_1x2 850000 30000
	fixed_array 2 sky130_fd_pr_rf_pnp5x 850000 60000

	fixed_array 2 sky130_fd_pr_rf2_xcmvpp11p5x11p7_lim5shield 900000 0
	fixed_array 2 sky130_fd_pr_rf2_xcmvpp11p5x11p7_m3_lim5shield 900000 30000
	fixed_array 2 sky130_fd_pr_rf2_xcmvpp11p5x11p7_m4shield 900000 60000
	fixed_array 2 sky130_fd_pr_rf2_xcmvpp11p5x11p7_polym4shield 900000 90000
	fixed_array 2 sky130_fd_pr_rf2_xcmvpp4p4x4p6_m3_lim5shield 900000 120000
	fixed_array 2 sky130_fd_pr_rf2_xcmvpp6p8x6p1_lim4shield 900000 150000
	fixed_array 2 sky130_fd_pr_rf2_xcmvpp6p8x6p1_polym4shield 900000 180000
	fixed_array 2 sky130_fd_pr_rf2_xcmvpp8p6x7p9_m3_lim5shield 900000 210000
	fixed_array 2 sky130_fd_pr_rf2_xcmvppx4_2xnhvnative10x4 900000 240000
	# fixed_array 2 sky130_fd_pr_rf2_xcmvpp11p5x11p7_polym50p4shield 900000 270000

	fixed_array 2 sky130_fd_pr_rf_xcmvpp11p5x11p7_m3_lishield 950000 0
	fixed_array 2 sky130_fd_pr_rf_xcmvpp11p5x11p7_m3shield 950000 30000
	fixed_array 2 sky130_fd_pr_rf_xcmvpp2 950000 60000
	fixed_array 2 sky130_fd_pr_rf_xcmvpp2_nwell 950000 90000
	fixed_array 2 sky130_fd_pr_rf_xcmvpp4p4x4p6_m3_lishield 950000 120000
	fixed_array 2 sky130_fd_pr_rf_xcmvpp4p4x4p6_m3shield 950000 150000
	fixed_array 2 sky130_fd_pr_rf_xcmvpp8p6x7p9_m3_lishield 950000 180000
	fixed_array 2 sky130_fd_pr_rf_xcmvpp8p6x7p9_m3shield 950000 210000
	# fixed_array 2 sky130_fd_pr_rf_xcmvpp1p8x1p8_lishield 950000 240000
	# fixed_array 2 sky130_fd_pr_rf_xcmvpp1p8x1p8_m3shield 950000 270000

	fixed_array 1 balun 1000000 0
	fixed_array 1 xind4_02 1000000 200000
	fixed_array 1 xind4_011 1250000 0

	# Draw a deep nwell region around the sonos transistor block
	box values -5200i 369500i 76800i 427500i
	sky130::deep_nwell_draw

	save torture_test_sky130
	gds write torture_test_sky130