| #!/usr/bin/env python3 |
| # SPDX-FileCopyrightText: 2020 Efabless Corporation |
| # |
| # Licensed under the Apache License, Version 2.0 (the "License"); |
| # you may not use this file except in compliance with the License. |
| # You may obtain a copy of the License at |
| # |
| # http://www.apache.org/licenses/LICENSE-2.0 |
| # |
| # Unless required by applicable law or agreed to in writing, software |
| # distributed under the License is distributed on an "AS IS" BASIS, |
| # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| # See the License for the specific language governing permissions and |
| # limitations under the License. |
| # SPDX-License-Identifier: Apache-2.0 |
| |
| # |
| # check_density.py --- |
| # |
| # Run density checks on the final (filled) GDS. |
| # |
| |
| import sys |
| import os |
| import re |
| import select |
| import subprocess |
| |
| def usage(): |
| print("Usage:") |
| print("check_density.py [<path_to_project>] [-keep]") |
| print("") |
| print("where:") |
| print(" <path_to_project> is the path to the project top level directory.") |
| print("") |
| print(" If <path_to_project> is not given, then it is assumed to be the cwd.") |
| print(" If '-keep' is specified, then keep the check script.") |
| return 0 |
| |
| |
| if __name__ == '__main__': |
| |
| optionlist = [] |
| arguments = [] |
| |
| debugmode = False |
| keepmode = False |
| |
| for option in sys.argv[1:]: |
| if option.find('-', 0) == 0: |
| optionlist.append(option) |
| else: |
| arguments.append(option) |
| |
| if len(arguments) > 1: |
| print("Wrong number of arguments given to check_density.py.") |
| usage() |
| sys.exit(0) |
| |
| if len(arguments) == 1: |
| user_project_path = arguments[0] |
| else: |
| user_project_path = os.getcwd() |
| |
| # Check for valid user path |
| |
| if not os.path.isdir(user_project_path): |
| print('Error: Project path "' + user_project_path + '" does not exist or is not readable.') |
| sys.exit(1) |
| |
| # Check for valid user ID |
| user_id_value = None |
| if os.path.isfile(user_project_path + '/info.yaml'): |
| with open(user_project_path + '/info.yaml', 'r') as ifile: |
| infolines = ifile.read().splitlines() |
| for line in infolines: |
| kvpair = line.split(':') |
| if len(kvpair) == 2: |
| key = kvpair[0].strip() |
| value = kvpair[1].strip() |
| if key == 'project_id': |
| user_id_value = value.strip('"\'') |
| break |
| |
| if user_id_value: |
| project = 'caravel' |
| project_with_id = 'caravel_' + user_id_value |
| else: |
| print('Error: No project_id found in info.yaml file.') |
| sys.exit(1) |
| |
| if '-debug' in optionlist: |
| debugmode = True |
| if '-keep' in optionlist: |
| keepmode = True |
| |
| magpath = user_project_path + '/mag' |
| rcfile = magpath + '/.magicrc' |
| |
| with open(magpath + '/check_density.tcl', 'w') as ofile: |
| print('#!/bin/env wish', file=ofile) |
| print('crashbackups stop', file=ofile) |
| print('drc off', file=ofile) |
| print('snap internal', file=ofile) |
| |
| print('set starttime [orig_clock format [orig_clock seconds] -format "%D %T"]', file=ofile) |
| print('puts stdout "Started reading GDS: $starttime"', file=ofile) |
| print('', file=ofile) |
| print('flush stdout', file=ofile) |
| print('update idletasks', file=ofile) |
| |
| # Read final project from .gds |
| print('gds readonly true', file=ofile) |
| print('gds rescale false', file=ofile) |
| print('gds read ../gds/' + project_with_id + '.gds', file=ofile) |
| print('', file=ofile) |
| |
| print('set midtime [orig_clock format [orig_clock seconds] -format "%D %T"]', file=ofile) |
| print('puts stdout "Starting density checks: $midtime"', file=ofile) |
| print('', file=ofile) |
| print('flush stdout', file=ofile) |
| print('update idletasks', file=ofile) |
| |
| # Get step box dimensions (700um for size and 70um for step) |
| print('box values 0 0 0 0', file=ofile) |
| # print('box size 700um 700um', file=ofile) |
| # print('set stepbox [box values]', file=ofile) |
| # print('set stepwidth [lindex $stepbox 2]', file=ofile) |
| # print('set stepheight [lindex $stepbox 3]', file=ofile) |
| |
| print('box size 70um 70um', file=ofile) |
| print('set stepbox [box values]', file=ofile) |
| print('set stepsizex [lindex $stepbox 2]', file=ofile) |
| print('set stepsizey [lindex $stepbox 3]', file=ofile) |
| |
| print('select top cell', file=ofile) |
| print('expand', file=ofile) |
| print('set fullbox [box values]', file=ofile) |
| print('set xmax [lindex $fullbox 2]', file=ofile) |
| print('set xmin [lindex $fullbox 0]', file=ofile) |
| print('set fullwidth [expr {$xmax - $xmin}]', file=ofile) |
| print('set xtiles [expr {int(ceil(($fullwidth + 0.0) / $stepsizex))}]', file=ofile) |
| print('set ymax [lindex $fullbox 3]', file=ofile) |
| print('set ymin [lindex $fullbox 1]', file=ofile) |
| print('set fullheight [expr {$ymax - $ymin}]', file=ofile) |
| print('set ytiles [expr {int(ceil(($fullheight + 0.0) / $stepsizey))}]', file=ofile) |
| print('box size $stepsizex $stepsizey', file=ofile) |
| print('set xbase [lindex $fullbox 0]', file=ofile) |
| print('set ybase [lindex $fullbox 1]', file=ofile) |
| print('', file=ofile) |
| |
| print('puts stdout "XTILES: $xtiles"', file=ofile) |
| print('puts stdout "YTILES: $ytiles"', file=ofile) |
| print('', file=ofile) |
| |
| # Need to know what fraction of a full tile is the last row and column |
| print('set xfrac [expr {($xtiles * $stepsizex - $fullwidth + 0.0) / $stepsizex}]', file=ofile) |
| print('set yfrac [expr {($ytiles * $stepsizey - $fullheight + 0.0) / $stepsizey}]', file=ofile) |
| print('puts stdout "XFRAC: $xfrac"', file=ofile) |
| print('puts stdout "YFRAC: $yfrac"', file=ofile) |
| |
| print('cif ostyle density', file=ofile) |
| |
| # Process density at steps. For efficiency, this is done in 70x70 um |
| # areas, dumped to a file, and then aggregated into the 700x700 areas. |
| |
| print('for {set y 0} {$y < $ytiles} {incr y} {', file=ofile) |
| print(' for {set x 0} {$x < $xtiles} {incr x} {', file=ofile) |
| print(' set xlo [expr $xbase + $x * $stepsizex]', file=ofile) |
| print(' set ylo [expr $ybase + $y * $stepsizey]', file=ofile) |
| print(' set xhi [expr $xlo + $stepsizex]', file=ofile) |
| print(' set yhi [expr $ylo + $stepsizey]', file=ofile) |
| print(' box values $xlo $ylo $xhi $yhi', file=ofile) |
| |
| # Flatten this area |
| print(' flatten -dobbox -nolabels tile', file=ofile) |
| print(' load tile', file=ofile) |
| print(' select top cell', file=ofile) |
| |
| # Run density check for each layer |
| print(' puts stdout "Density results for tile x=$x y=$y"', file=ofile) |
| |
| print(' set fdens [cif list cover fom_all]', file=ofile) |
| print(' set pdens [cif list cover poly_all]', file=ofile) |
| print(' set ldens [cif list cover li_all]', file=ofile) |
| print(' set m1dens [cif list cover m1_all]', file=ofile) |
| print(' set m2dens [cif list cover m2_all]', file=ofile) |
| print(' set m3dens [cif list cover m3_all]', file=ofile) |
| print(' set m4dens [cif list cover m4_all]', file=ofile) |
| print(' set m5dens [cif list cover m5_all]', file=ofile) |
| print(' puts stdout "FOM: $fdens"', file=ofile) |
| print(' puts stdout "POLY: $pdens"', file=ofile) |
| print(' puts stdout "LI1: $ldens"', file=ofile) |
| print(' puts stdout "MET1: $m1dens"', file=ofile) |
| print(' puts stdout "MET2: $m2dens"', file=ofile) |
| print(' puts stdout "MET3: $m3dens"', file=ofile) |
| print(' puts stdout "MET4: $m4dens"', file=ofile) |
| print(' puts stdout "MET5: $m5dens"', file=ofile) |
| print(' flush stdout', file=ofile) |
| print(' update idletasks', file=ofile) |
| |
| print(' load ' + project_with_id, file=ofile) |
| print(' cellname delete tile', file=ofile) |
| |
| print(' }', file=ofile) |
| print('}', file=ofile) |
| |
| print('set endtime [orig_clock format [orig_clock seconds] -format "%D %T"]', file=ofile) |
| print('puts stdout "Ended: $endtime"', file=ofile) |
| print('', file=ofile) |
| |
| |
| myenv = os.environ.copy() |
| # Real views are necessary for the DRC checks |
| myenv['MAGTYPE'] = 'mag' |
| |
| print('Running density checks on file ' + project_with_id + '.gds', flush=True) |
| |
| mproc = subprocess.Popen(['magic', '-dnull', '-noconsole', |
| '-rcfile', rcfile, magpath + '/check_density.tcl'], |
| stdin = subprocess.DEVNULL, |
| stdout = subprocess.PIPE, |
| stderr = subprocess.PIPE, |
| cwd = magpath, |
| env = myenv, |
| universal_newlines = True) |
| |
| # Use signal to poll the process and generate any output as it arrives |
| |
| dlines = [] |
| |
| while mproc: |
| status = mproc.poll() |
| if status != None: |
| try: |
| output = mproc.communicate(timeout=1) |
| except ValueError: |
| print('Magic forced stop, status ' + str(status)) |
| sys.exit(1) |
| else: |
| outlines = output[0] |
| errlines = output[1] |
| for line in outlines.splitlines(): |
| dlines.append(line) |
| print(line) |
| for line in errlines.splitlines(): |
| print(line) |
| print('Magic exited with status ' + str(status)) |
| if int(status) != 0: |
| sys.exit(int(status)) |
| else: |
| break |
| else: |
| n = 0 |
| while True: |
| n += 1 |
| if n > 100: |
| n = 0 |
| status = mproc.poll() |
| if status != None: |
| break |
| sresult = select.select([mproc.stdout, mproc.stderr], [], [], 0)[0] |
| if mproc.stdout in sresult: |
| outstring = mproc.stdout.readline().strip() |
| dlines.append(outstring) |
| print(outstring) |
| elif mproc.stderr in sresult: |
| outstring = mproc.stderr.readline().strip() |
| print(outstring) |
| else: |
| break |
| |
| fomfill = [] |
| polyfill = [] |
| lifill = [] |
| met1fill = [] |
| met2fill = [] |
| met3fill = [] |
| met4fill = [] |
| met5fill = [] |
| xtiles = 0 |
| ytiles = 0 |
| xfrac = 0.0 |
| yfrac = 0.0 |
| |
| for line in dlines: |
| dpair = line.split(':') |
| if len(dpair) == 2: |
| layer = dpair[0] |
| try: |
| density = float(dpair[1].strip()) |
| except: |
| continue |
| if layer == 'FOM': |
| fomfill.append(density) |
| elif layer == 'POLY': |
| polyfill.append(density) |
| elif layer == 'LI1': |
| lifill.append(density) |
| elif layer == 'MET1': |
| met1fill.append(density) |
| elif layer == 'MET2': |
| met2fill.append(density) |
| elif layer == 'MET3': |
| met3fill.append(density) |
| elif layer == 'MET4': |
| met4fill.append(density) |
| elif layer == 'MET5': |
| met5fill.append(density) |
| elif layer == 'XTILES': |
| xtiles = int(dpair[1].strip()) |
| elif layer == 'YTILES': |
| ytiles = int(dpair[1].strip()) |
| elif layer == 'XFRAC': |
| xfrac = float(dpair[1].strip()) |
| elif layer == 'YFRAC': |
| yfrac = float(dpair[1].strip()) |
| |
| if ytiles == 0 or xtiles == 0: |
| print('Failed to read XTILES or YTILES from output.') |
| sys.exit(1) |
| |
| total_tiles = (ytiles - 9) * (xtiles - 9) |
| |
| print('') |
| print('Density results (total tiles = ' + str(total_tiles) + '):') |
| |
| # Full areas are 10 x 10 tiles = 100. But the right and top sides are |
| # not full tiles, so the full area must be prorated. |
| |
| sideadjust = 90.0 + (10.0 * xfrac) |
| topadjust = 90.0 + (10.0 * yfrac) |
| corneradjust = 81.0 + (9.0 * xfrac) + (9.0 * yfrac) + (xfrac * yfrac) |
| |
| print('') |
| print('FOM Density:') |
| for y in range(0, ytiles - 9): |
| if y == ytiles - 10: |
| atotal = topadjust |
| else: |
| atotal = 100.0 |
| for x in range(0, xtiles - 9): |
| if x == xtiles - 10: |
| if y == ytiles - 10: |
| atotal = corneradjust |
| else: |
| atotal = sideadjust |
| fomaccum = 0 |
| for w in range(y, y + 10): |
| base = xtiles * w + x |
| fomaccum += sum(fomfill[base : base + 10]) |
| |
| fomaccum /= atotal |
| print('Tile (' + str(x) + ', ' + str(y) + '): ' + str(fomaccum)) |
| if fomaccum < 0.33: |
| print('***Error: FOM Density < 33%') |
| elif fomaccum > 0.57: |
| print('***Error: FOM Density > 57%') |
| |
| print('') |
| print('POLY Density:') |
| for y in range(0, ytiles - 9): |
| if y == ytiles - 10: |
| atotal = topadjust |
| else: |
| atotal = 100.0 |
| for x in range(0, xtiles - 9): |
| if x == xtiles - 10: |
| if y == ytiles - 10: |
| atotal = corneradjust |
| else: |
| atotal = sideadjust |
| polyaccum = 0 |
| for w in range(y, y + 10): |
| base = xtiles * w + x |
| polyaccum += sum(polyfill[base : base + 10]) |
| |
| polyaccum /= atotal |
| print('Tile (' + str(x) + ', ' + str(y) + '): ' + str(polyaccum)) |
| |
| print('') |
| print('LI Density:') |
| for y in range(0, ytiles - 9): |
| if y == ytiles - 10: |
| atotal = topadjust |
| else: |
| atotal = 100.0 |
| for x in range(0, xtiles - 9): |
| if x == xtiles - 10: |
| if y == ytiles - 10: |
| atotal = corneradjust |
| else: |
| atotal = sideadjust |
| liaccum = 0 |
| for w in range(y, y + 10): |
| base = xtiles * w + x |
| liaccum += sum(lifill[base : base + 10]) |
| |
| liaccum /= atotal |
| print('Tile (' + str(x) + ', ' + str(y) + '): ' + str(liaccum)) |
| if liaccum < 0.35: |
| print('***Error: LI Density < 35%') |
| elif liaccum > 0.70: |
| print('***Error: LI Density > 70%') |
| |
| print('') |
| print('MET1 Density:') |
| for y in range(0, ytiles - 9): |
| if y == ytiles - 10: |
| atotal = topadjust |
| else: |
| atotal = 100.0 |
| for x in range(0, xtiles - 9): |
| if x == xtiles - 10: |
| if y == ytiles - 10: |
| atotal = corneradjust |
| else: |
| atotal = sideadjust |
| met1accum = 0 |
| for w in range(y, y + 10): |
| base = xtiles * w + x |
| met1accum += sum(met1fill[base : base + 10]) |
| |
| met1accum /= atotal |
| print('Tile (' + str(x) + ', ' + str(y) + '): ' + str(met1accum)) |
| if met1accum < 0.35: |
| print('***Error: MET1 Density < 35%') |
| elif met1accum > 0.70: |
| print('***Error: MET1 Density > 70%') |
| |
| print('') |
| print('MET2 Density:') |
| for y in range(0, ytiles - 9): |
| if y == ytiles - 10: |
| atotal = topadjust |
| else: |
| atotal = 100.0 |
| for x in range(0, xtiles - 9): |
| if x == xtiles - 10: |
| if y == ytiles - 10: |
| atotal = corneradjust |
| else: |
| atotal = sideadjust |
| met2accum = 0 |
| for w in range(y, y + 10): |
| base = xtiles * w + x |
| met2accum += sum(met2fill[base : base + 10]) |
| |
| met2accum /= atotal |
| print('Tile (' + str(x) + ', ' + str(y) + '): ' + str(met2accum)) |
| if met2accum < 0.35: |
| print('***Error: MET2 Density < 35%') |
| elif met2accum > 0.70: |
| print('***Error: MET2 Density > 70%') |
| |
| print('') |
| print('MET3 Density:') |
| for y in range(0, ytiles - 9): |
| if y == ytiles - 10: |
| atotal = topadjust |
| else: |
| atotal = 100.0 |
| for x in range(0, xtiles - 9): |
| if x == xtiles - 10: |
| if y == ytiles - 10: |
| atotal = corneradjust |
| else: |
| atotal = sideadjust |
| met3accum = 0 |
| for w in range(y, y + 10): |
| base = xtiles * w + x |
| met3accum += sum(met3fill[base : base + 10]) |
| |
| met3accum /= atotal |
| print('Tile (' + str(x) + ', ' + str(y) + '): ' + str(met3accum)) |
| if met3accum < 0.35: |
| print('***Error: MET3 Density < 35%') |
| elif met3accum > 0.70: |
| print('***Error: MET3 Density > 70%') |
| |
| print('') |
| print('MET4 Density:') |
| for y in range(0, ytiles - 9): |
| if y == ytiles - 10: |
| atotal = topadjust |
| else: |
| atotal = 100.0 |
| for x in range(0, xtiles - 9): |
| if x == xtiles - 10: |
| if y == ytiles - 10: |
| atotal = corneradjust |
| else: |
| atotal = sideadjust |
| met4accum = 0 |
| for w in range(y, y + 10): |
| base = xtiles * w + x |
| met4accum += sum(met4fill[base : base + 10]) |
| |
| met4accum /= atotal |
| print('Tile (' + str(x) + ', ' + str(y) + '): ' + str(met4accum)) |
| if met4accum < 0.35: |
| print('***Error: MET4 Density < 35%') |
| elif met4accum > 0.70: |
| print('***Error: MET4 Density > 70%') |
| |
| print('') |
| print('MET5 Density:') |
| for y in range(0, ytiles - 9): |
| if y == ytiles - 10: |
| atotal = topadjust |
| else: |
| atotal = 100.0 |
| for x in range(0, xtiles - 9): |
| if x == xtiles - 10: |
| if y == ytiles - 10: |
| atotal = corneradjust |
| else: |
| atotal = sideadjust |
| met5accum = 0 |
| for w in range(y, y + 10): |
| base = xtiles * w + x |
| met5accum += sum(met5fill[base : base + 10]) |
| |
| met5accum /= atotal |
| print('Tile (' + str(x) + ', ' + str(y) + '): ' + str(met5accum)) |
| if met5accum < 0.45: |
| print('***Error: MET5 Density < 45%') |
| elif met5accum > 0.86: |
| print('***Error: MET5 Density > 86%') |
| |
| print('') |
| print('Whole-chip density results:') |
| |
| atotal = ((xtiles - 1.0) * (ytiles - 1.0)) + ((ytiles - 1.0) * xfrac) + ((xtiles - 1.0) * yfrac) + (xfrac * yfrac) |
| |
| fomaccum = sum(fomfill) / atotal |
| print('') |
| print('FOM Density: ' + str(fomaccum)) |
| if fomaccum < 0.33: |
| print('***Error: FOM Density < 33%') |
| elif fomaccum > 0.57: |
| print('***Error: FOM Density > 57%') |
| |
| polyaccum = sum(polyfill) / atotal |
| print('') |
| print('POLY Density: ' + str(polyaccum)) |
| |
| liaccum = sum(lifill) / atotal |
| print('') |
| print('LI Density: ' + str(liaccum)) |
| if liaccum < 0.35: |
| print('***Error: LI Density < 35%') |
| elif liaccum > 0.70: |
| print('***Error: LI Density > 70%') |
| |
| met1accum = sum(met1fill) / atotal |
| print('') |
| print('MET1 Density: ' + str(met1accum)) |
| if met1accum < 0.35: |
| print('***Error: MET1 Density < 35%') |
| elif met1accum > 0.70: |
| print('***Error: MET1 Density > 70%') |
| |
| met2accum = sum(met2fill) / atotal |
| print('') |
| print('MET2 Density: ' + str(met2accum)) |
| if met2accum < 0.35: |
| print('***Error: MET2 Density < 35%') |
| elif met2accum > 0.70: |
| print('***Error: MET2 Density > 70%') |
| |
| met3accum = sum(met3fill) / atotal |
| print('') |
| print('MET3 Density: ' + str(met3accum)) |
| if met3accum < 0.35: |
| print('***Error: MET3 Density < 35%') |
| elif met3accum > 0.70: |
| print('***Error: MET3 Density > 70%') |
| |
| met4accum = sum(met4fill) / atotal |
| print('') |
| print('MET4 Density: ' + str(met4accum)) |
| if met4accum < 0.35: |
| print('***Error: MET4 Density < 35%') |
| elif met4accum > 0.70: |
| print('***Error: MET4 Density > 70%') |
| |
| met5accum = sum(met5fill) / atotal |
| print('') |
| print('MET5 Density: ' + str(met5accum)) |
| if met5accum < 0.45: |
| print('***Error: MET5 Density < 45%') |
| elif met5accum > 0.86: |
| print('***Error: MET5 Density > 86%') |
| |
| if not keepmode: |
| os.remove(magpath + '/check_density.tcl') |
| |
| print('') |
| print('Done!') |
| sys.exit(0) |