Exemplo n.º 1
0
def main():
    # load command-line arguments
    parser = argparse.ArgumentParser()
    parser.add_argument('--json')
    parser.add_argument('--units', default='inch')
    args = parser.parse_args()

    # read board placement from SMT-PCB
    with open(args.json, 'r') as f:
        json_dict = json.load(f)

    board_edge = json_dict['board_edge']

    width, height = BoardTools.get_board_dims(board_edge)

    # define unit conversion
    if args.units.lower() in ['in', 'inch', 'inches']:
        conv = lambda x: 0.0393701 * x
        area_str = 'in^2'
    if args.units.lower() in ['mm', 'mms', 'millimeters']:
        conv = lambda x: x
        area_str = 'mm^2'
    if args.units.lower() in ['mil', 'mils']:
        conv = lambda x: 39.3701 * x
        area_str = 'mil^2'

    area = conv(width) * conv(height)

    # print summary
    print '############'
    print 'Summary'
    print 'Board area: %0.3f %s' % (area, area_str)
    print '############'
Exemplo n.º 2
0
def place_rects(args):
    # read in SMT input
    with open(args.json, 'r') as f:
        json_dict = json.load(f)

    # create the placer grid
    width, height = BoardTools.get_board_dims(json_dict['board_edge'])
    grid = PlaceGrid(width=width, height=height, dx=args.dx, dy=args.dy)
    fab = design.Fabric(grid.place_dims)

    # Create the design
    comps_list = grid.make_comps_list(json_dict['module_dict'])
    routing_list = grid.make_routing_list(json_dict['routing_list'])
    d = design.Design(comps_list, routing_list, fab, position.RotIntXY)

    # Add constraints
    d.add_constraint_generator('no_overlap', constraints.no_overlap)
    d.add_pad_cg('max_dist', constraints.pad_max_dists)

    # create the solver
    if args.optimize:
        d.add_pad_opt('min_total_dist', constraints.pad_dists)
        s = z3.Optimize()
    else:
        s = z3.Solver()

    # add the constraints to the solver
    s.add(d.constraints)

    # set up the optimization, if desired
    if args.optimize:
        for func in d.r_opt_param:
            s.minimize(func)

    with open('freeduino.smt', 'w') as f:
        f.write(s.to_smt2())
    # run the placement
    start = time.time()
    result = s.check()
    end = time.time()
    place_time = end - start
    print('Placement took', place_time, 'seconds.')
    if args.dout:
        with open(args.dout, 'a+') as f:
            f.write(str(place_time) + '\n')

    if result == z3.unsat:
        raise Exception('Problem is unsat.')

    return d, s.model()