FastRoute is an open-source global router originally derived from Iowa State University's FastRoute4.1.
global_route [-guide_file out_file]
[-verbose verbose]
[-congestion_iterations iterations]
[-grid_origin {x y}]
[-allow_congestion]
Options description:
guide_file: Set the output guides file name (e.g., -guide_fileroute.guide)congestion_iterations: Set the number of iterations made to remove the overflow of the routing (e.g.,-congestion_iterations 50)grid_origin: Set the (x, y) origin of the routing grid in DBU. For example,-grid_origin {1 1}corresponds to the die (0, 0) + 1 DBU in each x-, y- direction.allow_congestion: Allow global routing results to be generated with remaining congestionverbose: This flag enables the full reporting of the global routing.
set_routing_layers [-signal min-max]
[-clock min-max]
The set_routing_layers command sets the minimum and maximum routing
layers for signal nets, with the -signal option, and the minimum and
maximum routing layers for clock nets, with the -clock option.
Example: set_routing_layers -signal Metal2-Metal10 -clock Metal6-Metal9
set_macro_extension extension
The set_macro_extension command sets the number of GCells added to the
blockages boundaries from macros. A GCell is typically defined in terms of
Mx routing tracks. The default GCell size is 15 M3 pitches.
Example: set_macro_extension 2
set_global_routing_layer_adjustment layer adjustment
The set_global_routing_layer_adjustment command sets routing resource
adjustments in the routing layers of the design. Such adjustments reduce the number of
routing tracks that the global router assumes to exist. This promotes the spreading of routing
and reduces peak congestion, to reduce challenges for detailed routing.
You can set adjustment for a
specific layer, e.g., set_global_routing_layer_adjustment Metal4 0.5 reduces
the routing resources of routing layer Metal4 by 50%. You can also set adjustment
for all layers at once using *, e.g., set_global_routing_layer_adjustment * 0.3 reduces the routing resources of all routing layers by 30%. And, you can
also set resource adjustment for a layer range, e.g.: set_global_routing_layer_adjustment Metal4-Metal8 0.3 reduces the routing resources of routing layers Metal4,
Metal5, Metal6, Metal7 and Metal8 by 30%.
set_routing_alpha [-net net_name] alpha
By default the global router uses heuristic rectilinear Steiner minimum
trees (RSMTs) as an initial basis to construct route guides. An RSMT
tries to minimize the total wirelength needed to connect a given set
of pins. The Prim-Dijkstra heuristic is an alternative net topology
algorithm that supports a trade-off between total wirelength and maximum
path depth from the net driver to its loads. The set_routing_alpha
command enables the Prim/Dijkstra algorithm and sets the alpha parameter
used to trade-off wirelength and path depth. Alpha is between 0.0
and 1.0. When alpha is 0.0 the net topology minimizes total wirelength
(i.e. capacitance). When alpha is 1.0 it minimizes longest path between
the driver and loads (i.e., maximum resistance). Typical values are
0.4-0.8. For more information about PDRev, check the paper
[here](in https://vlsicad.ucsd.edu/Publications/Journals/j18.pdf).
You can call it multiple times for different nets.
Example: set_routing_alpha -net clk 0.3 sets the alpha value of 0.3 for net clk.
set_global_routing_region_adjustment {lower_left_x lower_left_y upper_right_x upper_right_y}
-layer layer -adjustment adjustment
The set_global_routing_region_adjustment command sets routing resource
adjustments in a specific region of the design. The region is defined as
a rectangle in a routing layer.
Example: set_global_routing_region_adjustment {1.5 2 20 30.5} -layer Metal4 -adjustment 0.7
set_global_routing_random [-seed seed]
[-capacities_perturbation_percentage percent]
[-perturbation_amount value]
The set_global_routing_random command enables randomization of
global routing results. The randomized global routing shuffles the
order of the nets and randomly subtracts or adds to the capacities of
a random set of edges. The -seed option sets the random seed. A
non-zero seed enables randomization. The
-capacities_perturbation_percentage option sets the percentage of
edges whose capacities are perturbed. By default, the edge capacities
are perturbed by adding or subtracting 1 (track) from the original
capacity. The -perturbation_amount option sets the perturbation
value of the edge capacities. This option is only meaningful when
-capacities_perturbation_percentage is used.
Example:
set_global_routing_random -seed 42 \ -capacities_perturbation_percentage 50 \ -perturbation_amount 2
repair_antennas [diode_cell/diode_pin] [-iterations iterations]
The repair_antenna command checks the global routing for antenna
violations and repairs the violations by inserting diodes near the
gates of the violating nets. By default the command runs only one
iteration to repair antennas. Filler instances added by the
filler_placement command should NOT be in the database when
repair_antennas is called.
See LEF/DEF 5.8 Language Reference, Appendix C, "Calculating and Fixing Process Antenna Violations" for a description of antenna violations.
Example: repair_antennas
If no diode_cell/diode_pin argument is specified the LEF cell with
class CORE ANTENNACELL will be used.
If any repairs are made the filler instances are remove and must be
placed with the filler_placement command.
If the LEF technology layer ANTENNADIFFSIDEAREARATIO properties are constant instead of PWL, inserting diodes does not improve the antenna ratios and no diodes are inserted. The following error message will be reported:
[WARNING GRT-0243] Unable to repair antennas on net with diodes.
write_guides file_name
The write_guides generates the guide file from the routing results.
Example: write_guides route.guide.
To estimate RC parasitics based on global route results, use the -global_routing
option of the estimate_parasitics command.
estimate_parasitics -global_routing
draw_route_guides net_names [-show_pin_locations]
The draw_route_guides command plots the route guides for a set of nets.
To erase the route guides from the GUI, pass an empty list to this command:
draw_route_guides {}.
The show_pin_locations flag draw circles for the pin positions on the routing grid.
report_wire_length [-net net_list]
[-file file]
[-global_route]
[-detailed_route]
[-verbose]
Options description:
net: A list of nets. Use*to report the wire length for all nets of the design.file: The name of the file for the wire length report.global_route: This flag is used to report the wire length of the global routing.detailed_route: This flag is used to report the wire length of the detailed routing.verbose: This flag enables the full reporting of the wire length information.
The report_wire_length command reports the wire length of the nets. Use the -global_route
and the -detailed_route flags to report the wire length from global and detailed routing,
respectively. If none of these flags are used, the tool will identify the state of the design
and report the wire length accordingly.
Example: report_wire_length -net {clk net60} -global_route -detailed_route -verbose -file out.csv
global_route_debug [-st]
[-rst]
[-tree2D]
[-tree3D]
[-net net_name]
Options description:
st: Show the Steiner Tree generated by stt.rst: Show the Rectilinear Steiner Tree generated by FastRoute.tree2D: Show the Rectilinear Steiner Tree generated by FastRoute after the overflow iterations.tree3D: Show the 3D Rectilinear Steiner Tree post-layer assignment.net: Set the name of the net name to be displayed.
The global_route_debug command allows you to start a debug mode to view the status of the Steiner Trees. This must be used before calling the global_route command. Set the name of the net and the trees that you want to visualize.
Check out GitHub discussion about this tool.
- The algorithm base is from FastRoute4.1, and the database comes from OpenDB
- FastRoute 4.1 documentation. The FastRoute4.1 version was received from yuexu@iastate.edu on June 15, 2019, with the BSD-3 open source license as given in the FastRoute website.
- Min Pan, Yue Xu, Yanheng Zhang and Chris Chu. "FastRoute: An Efficient and High-Quality Global Router. VLSI Design, Article ID 608362, 2012." Available here.
- P-D paper is C. J. Alpert, T. C. Hu, J. H. Huang, A. B. Kahng and D. Karger, "Prim-Dijkstra Tradeoffs for Improved Performance-Driven Global Routing", IEEE Transactions on Computer-Aided Design of Integrated Circuits and Systems 14(7) (1995), pp. 890-896. Available here.
BSD 3-Clause License. See LICENSE file.