def apply_modifier(vpr_args, io_grid, seed=0):
        with Silence():
            vpr_context = VPRContext(vpr_args)

            placement = vpr_context.get_random_placement()
            placement.set_io(io_grid)
            calc = BBCalculator.create(placement)
            initial_cost = calc.compute_cost()
            modifier = get_modifier(placement, seed=seed)
            new_placement = modifier.get_placement()
        return new_placement.get_io_grid(), new_placement.get_grid()
    def apply_combination(vpr_args, io_grid, grid1, grid2, seed=None):
        with Silence():
            vpr_context = VPRContext(vpr_args)
            p1 = vpr_context.get_random_placement()
        p1.set_io(io_grid)
        p1.set_grid(grid1)
        p2 = p1.copy()
        p2.set_grid(grid2)

        c = ConstrainedSwapPlacementCombination(p1, p2)
        best_grid, min_id, costs = c.swaps_min_placement(seed=None)
        return best_grid, min_id, costs
Example #3
0
    args.arch_file = path(args.arch_file[0])
    assert(args.run_count > 0)
    
    return args


if __name__ == '__main__':
    import sys

    args = _parse_args()
    vpr_args = ['./vpr', args.netlist_file, args.arch_file] + ('placed.out '\
            'routed.out -place_only -fast -nodisp -place_algorithm '\
            'bounding_box -seed %d' % args.seed).split(' ')

    print vpr_args
    vpr_context = VPRContext(vpr_args)
    new_placements = []

    placement = vpr_context.get_random_placement()
    calc = BBCalculator.create(placement)
    initial_cost = calc.compute_cost()
    for i in range(args.run_count):
        modifier = get_modifier(placement, seed=i)
        new_placement = modifier.get_placement()
        new_placements.append(new_placement)

    final_costs = []
    for p in new_placements:
        calc = BBCalculator.create(p)
        final_costs.append(calc.compute_cost())
Example #4
0
    if args.output_dir:
        args.output_dir = path(args.output_dir)
        args.output_dir.makedirs_p()
    args.netlist_file = path(args.netlist_file[0])
    args.arch_file = path(args.arch_file[0])
    assert(args.run_count > 0)
    
    return args


if __name__ == '__main__':
    import sys

    args = _parse_args()

    vpr_context = VPRContext.annealer_context(args.netlist_file,
            args.arch_file, args.seed)

    # Note that each repeated call to get_random_placement() will return a
    # unique placement.
    placement1 = vpr_context.get_random_placement()
    placement2 = vpr_context.get_random_placement()

    # Since we currently do not process I/O placement in the anneal, for our
    # comparison between placements, we want to start all placements with the
    # same I/O positions.  Therefore, we will use the positions from placement1
    # to apply to placement2.
    placement2.set_io(placement1.get_io_grid())

    c = ConstrainedSwapPlacementCombination(placement1, placement2)

    # Perform all swaps between placement1 and placement2, recording the fitness