inire/examples/07_large_scale_routing.py

import time

from shapely.geometry import box

from inire import (
    CongestionOptions,
    DiagnosticsOptions,
    NetSpec,
    ObjectiveWeights,
    Port,
    RoutingOptions,
    RoutingProblem,
    RoutingResult,
    SearchOptions,
    route,
)
from inire.utils.visualization import plot_expanded_nodes, plot_routing_results


def main() -> None:
    print("Running Example 07: Fan-Out (10 Nets, 50um Radius)...")

    bounds = (0, 0, 1000, 1000)
    obstacles = [
        box(450, 0, 550, 400),
        box(450, 600, 550, 1000),
    ]

    num_nets = 10
    start_x = 50
    start_y_base = 500 - (num_nets * 10.0) / 2.0
    end_x = 950
    end_y_base = 100
    end_y_pitch = 800.0 / (num_nets - 1)

    netlist: dict[str, tuple[Port, Port]] = {}
    for index in range(num_nets):
        start_y = int(round(start_y_base + index * 10.0))
        end_y = int(round(end_y_base + index * end_y_pitch))
        netlist[f"net_{index:02d}"] = (Port(start_x, start_y, 0), Port(end_x, end_y, 0))

    problem = RoutingProblem(
        bounds=bounds,
        nets=tuple(NetSpec(net_id, start, target, width=2.0) for net_id, (start, target) in netlist.items()),
        static_obstacles=tuple(obstacles),
        clearance=6.0,
    )
    options = RoutingOptions(
        search=SearchOptions(
            node_limit=2_000_000,
            bend_radii=(50.0,),
            sbend_radii=(50.0,),
            greedy_h_weight=1.5,
        ),
        objective=ObjectiveWeights(
            unit_length_cost=0.1,
            bend_penalty=100.0,
            sbend_penalty=400.0,
        ),
        congestion=CongestionOptions(
            max_iterations=15,
            base_penalty=100.0,
            multiplier=1.4,
            shuffle_nets=True,
            seed=42,
        ),
        diagnostics=DiagnosticsOptions(capture_expanded=True),
    )

    iteration_stats: list[dict[str, int]] = []

    def iteration_callback(iteration: int, current_results: dict[str, RoutingResult]) -> None:
        successes = sum(1 for result in current_results.values() if result.is_valid)
        total_collisions = sum(result.collisions for result in current_results.values())
        print(f"  Iteration {iteration} finished. Successes: {successes}/{len(netlist)}, Collisions: {total_collisions}")
        iteration_stats.append(
            {
                "Iteration": iteration,
                "Success": successes,
                "Congestion": total_collisions,
            }
        )

    print(f"Routing {len(netlist)} nets through 200um bottleneck...")
    start_time = time.perf_counter()
    run = route(problem, options=options, iteration_callback=iteration_callback)
    end_time = time.perf_counter()

    print(f"Routing took {end_time - start_time:.4f}s")
    print("\n--- Iteration Summary ---")
    print(f"{'Iter':<5} | {'Success':<8} | {'Congest':<8}")
    print("-" * 30)
    for stats in iteration_stats:
        print(f"{stats['Iteration']:<5} | {stats['Success']:<8} | {stats['Congestion']:<8}")

    success_count = sum(1 for result in run.results_by_net.values() if result.is_valid)
    print(f"\nFinal: Routed {success_count}/{len(netlist)} nets successfully.")
    for net_id, result in run.results_by_net.items():
        if not result.is_valid:
            print(f"  FAILED: {net_id}, collisions={result.collisions}")
        else:
            print(f"  {net_id}: SUCCESS")

    fig, ax = plot_routing_results(run.results_by_net, list(obstacles), bounds, netlist=netlist)
    plot_expanded_nodes(list(run.expanded_nodes), ax=ax)
    fig.savefig("examples/07_large_scale_routing.png")
    print("Saved plot to examples/07_large_scale_routing.png")


if __name__ == "__main__":
    main()
performance bottleneck 2026-03-12 23:50:25 -07:00			`import time`
rework structure of everything 2026-03-30 15:32:29 -07:00
examples work 2026-03-10 21:55:54 -07:00			`from shapely.geometry import box`

rework structure of everything 2026-03-30 15:32:29 -07:00			`from inire import (`
			`CongestionOptions,`
			`DiagnosticsOptions,`
			`NetSpec,`
			`ObjectiveWeights,`
			`Port,`
			`RoutingOptions,`
			`RoutingProblem,`
			`RoutingResult,`
			`SearchOptions,`
			`route,`
			`)`
			`from inire.utils.visualization import plot_expanded_nodes, plot_routing_results`


examples work 2026-03-10 21:55:54 -07:00			`def main() -> None:`
trim down 2026-03-29 01:26:22 -07:00			`print("Running Example 07: Fan-Out (10 Nets, 50um Radius)...")`
examples work 2026-03-10 21:55:54 -07:00
go to a tunable 5um grid 2026-03-11 09:37:54 -07:00			`bounds = (0, 0, 1000, 1000)`
examples work 2026-03-10 21:55:54 -07:00			`obstacles = [`
go to a tunable 5um grid 2026-03-11 09:37:54 -07:00			`box(450, 0, 550, 400),`
			`box(450, 600, 550, 1000),`
examples work 2026-03-10 21:55:54 -07:00			`]`

			`num_nets = 10`
go to a tunable 5um grid 2026-03-11 09:37:54 -07:00			`start_x = 50`
			`start_y_base = 500 - (num_nets * 10.0) / 2.0`
			`end_x = 950`
			`end_y_base = 100`
			`end_y_pitch = 800.0 / (num_nets - 1)`
examples work 2026-03-10 21:55:54 -07:00
rework structure of everything 2026-03-30 15:32:29 -07:00			`netlist: dict[str, tuple[Port, Port]] = {}`
			`for index in range(num_nets):`
			`start_y = int(round(start_y_base + index * 10.0))`
			`end_y = int(round(end_y_base + index * end_y_pitch))`
			`netlist[f"net_{index:02d}"] = (Port(start_x, start_y, 0), Port(end_x, end_y, 0))`
examples work 2026-03-10 21:55:54 -07:00
rework structure of everything 2026-03-30 15:32:29 -07:00			`problem = RoutingProblem(`
			`bounds=bounds,`
			`nets=tuple(NetSpec(net_id, start, target, width=2.0) for net_id, (start, target) in netlist.items()),`
			`static_obstacles=tuple(obstacles),`
			`clearance=6.0,`
			`)`
			`options = RoutingOptions(`
			`search=SearchOptions(`
			`node_limit=2_000_000,`
			`bend_radii=(50.0,),`
			`sbend_radii=(50.0,),`
			`greedy_h_weight=1.5,`
			`),`
			`objective=ObjectiveWeights(`
			`unit_length_cost=0.1,`
			`bend_penalty=100.0,`
			`sbend_penalty=400.0,`
			`),`
			`congestion=CongestionOptions(`
			`max_iterations=15,`
			`base_penalty=100.0,`
			`multiplier=1.4,`
			`shuffle_nets=True,`
			`seed=42,`
			`),`
			`diagnostics=DiagnosticsOptions(capture_expanded=True),`
			`)`

			`iteration_stats: list[dict[str, int]] = []`

			`def iteration_callback(iteration: int, current_results: dict[str, RoutingResult]) -> None:`
			`successes = sum(1 for result in current_results.values() if result.is_valid)`
			`total_collisions = sum(result.collisions for result in current_results.values())`
			`print(f" Iteration {iteration} finished. Successes: {successes}/{len(netlist)}, Collisions: {total_collisions}")`
			`iteration_stats.append(`
			`{`
			`"Iteration": iteration,`
			`"Success": successes,`
			`"Congestion": total_collisions,`
			`}`
			`)`
examples work 2026-03-10 21:55:54 -07:00
go to a tunable 5um grid 2026-03-11 09:37:54 -07:00			`print(f"Routing {len(netlist)} nets through 200um bottleneck...")`
rework structure of everything 2026-03-30 15:32:29 -07:00			`start_time = time.perf_counter()`
			`run = route(problem, options=options, iteration_callback=iteration_callback)`
			`end_time = time.perf_counter()`
fix straight endpoint collisions 2026-03-18 00:06:41 -07:00
rework structure of everything 2026-03-30 15:32:29 -07:00			`print(f"Routing took {end_time - start_time:.4f}s")`
ex07 works 2026-03-16 17:05:16 -07:00			`print("\n--- Iteration Summary ---")`
rework structure of everything 2026-03-30 15:32:29 -07:00			`print(f"{'Iter':<5} \| {'Success':<8} \| {'Congest':<8}")`
			`print("-" * 30)`
			`for stats in iteration_stats:`
			`print(f"{stats['Iteration']:<5} \| {stats['Success']:<8} \| {stats['Congestion']:<8}")`
fix straight endpoint collisions 2026-03-18 00:06:41 -07:00
rework structure of everything 2026-03-30 15:32:29 -07:00			`success_count = sum(1 for result in run.results_by_net.values() if result.is_valid)`
ex07 works 2026-03-16 17:05:16 -07:00			`print(f"\nFinal: Routed {success_count}/{len(netlist)} nets successfully.")`
rework structure of everything 2026-03-30 15:32:29 -07:00			`for net_id, result in run.results_by_net.items():`
			`if not result.is_valid:`
			`print(f" FAILED: {net_id}, collisions={result.collisions}")`
performance bottleneck 2026-03-12 23:50:25 -07:00			`else:`
rework structure of everything 2026-03-30 15:32:29 -07:00			`print(f" {net_id}: SUCCESS")`
fix straight endpoint collisions 2026-03-18 00:06:41 -07:00
rework structure of everything 2026-03-30 15:32:29 -07:00			`fig, ax = plot_routing_results(run.results_by_net, list(obstacles), bounds, netlist=netlist)`
			`plot_expanded_nodes(list(run.expanded_nodes), ax=ax)`
examples work 2026-03-10 21:55:54 -07:00			`fig.savefig("examples/07_large_scale_routing.png")`
			`print("Saved plot to examples/07_large_scale_routing.png")`

rework structure of everything 2026-03-30 15:32:29 -07:00
examples work 2026-03-10 21:55:54 -07:00			`if __name__ == "__main__":`
			`main()`