openlane/README.md - third_party/shuttle/sky130/mpw-001/slot-014 - Git at Google

 # Using OpenLANE to Harden Your Design:

 You can utilize the Makefile existing here in this directory to do that.

 But, first you need to specify 3 things:
 ```bash
 export IMAGE_NAME=openlane:<the openlane tag/version you are using>
 export PDK_ROOT=<The location where the pdk is installed>
 export OPENLANE_ROOT=<the absolute path to the cloned openlane directory>
 ```

 Then, you have two options:
 1. Create a macro for your design and harden it, then insert it into user_project_wrapper.

 2. Flatten your design with the user_project_wrapper and harden them as one.


 **NOTE:** The OpenLANE documentation should cover everything you might need to create your design. You can find that [here](https://github.com/efabless/openlane/blob/master/README.md).

 ## Option 1:

 This could be done by creating a directory for your design here in this directory, and adding a configuration file for it under the same directory. You can follow the instructions given [here](https://github.com/efabless/openlane#adding-a-design) to generate an initial configuration file for your design, or you can start with the following:

 ```tcl
 set script_dir [file dirname [file normalize [info script]]]

 set ::env(DESIGN_NAME) <Your Design Name>

 set ::env(VERILOG_FILES) "$script_dir/../../verilog/rtl/<Your RTL.v>"

 set ::env(CLOCK_PORT) <Clock port name if it exists>
 set ::env(CLOCK_PERIOD) <Desired clock period>
 ```

 Then you can add them as you see fit to get the desired DRC/LVS clean outcome.

 After that, run the following command:
 ```bash
 make <your design directory name>
 ```

 Then, follow the instructions given in Option 2.

 ## Option 2:

 1. Add your design to the RTL of the [user_project_wrapper](../verilog/rtl/user_project_wrapper.v).

 2. Modify the configuration file [here](./user_project_wrapper/config.tcl) to include any extra files you may need. Make sure to change these accordingly:
 ```tcl
 set ::env(CLOCK_NET) "mprj.clk"


 set ::env(VERILOG_FILES) "\
 	$script_dir/../../verilog/rtl/defines.v \
 	$script_dir/../../verilog/rtl/user_project_wrapper.v"

 set ::env(VERILOG_FILES_BLACKBOX) "\
 	$script_dir/../../verilog/rtl/defines.v \
 	$script_dir/../../verilog/rtl/user_proj_example.v"

 set ::env(EXTRA_LEFS) "\
 	$script_dir/../../lef/user_proj_example.lef"

 set ::env(EXTRA_GDS_FILES) "\
 	$script_dir/../../gds/user_proj_example.gds"
 ```
 **NOTE:** Don't change the size or the pin order!

 3. Remove this line `add_macro_placement mprj 1150 1700 N` from the interactive script [here](./user_project_wrapper/config.tcl) and replace it with the placement for your macro instances. Or, remove it entirely if you have no macros, along with this line `manual_macro_placement f`.

 4. Run your design through the flow: `make user_project_wrapper`

 5. Re-iterate until you have what you want.

 6. Go back to the main [README.md](../README.md) and continue the process of boarding the chip.


 ## Extra Pointers:


 - The OpenLANE documentation should cover everything you might need to create your design. You can find that [here](https://github.com/efabless/openlane/blob/master/README.md).
 - The OpenLANE [FAQs](https://github.com/efabless/openlane/wiki) can guide through your troubles.
 - [Here](https://github.com/efabless/openlane/blob/master/configuration/README.md) you can find all the configurations and how to use them.
 - [Here](https://github.com/efabless/openlane/blob/master/doc/advanced_readme.md) you can learn how to write an interactive script.
 - [Here](https://github.com/efabless/openlane/blob/master/doc/OpenLANE_commands.md) you can find a full documentation for all OpenLANE commands.
 - [This documentation](https://github.com/efabless/openlane/blob/master/regression_results/README.md) describes how to use the exploration script to achieve an LVS/DRC clean design.
	# Using OpenLANE to Harden Your Design:

	You can utilize the Makefile existing here in this directory to do that.

	But, first you need to specify 3 things:
	```bash
	export IMAGE_NAME=openlane:<the openlane tag/version you are using>
	export PDK_ROOT=<The location where the pdk is installed>
	export OPENLANE_ROOT=<the absolute path to the cloned openlane directory>
	```

	Then, you have two options:
	1. Create a macro for your design and harden it, then insert it into user_project_wrapper.

	2. Flatten your design with the user_project_wrapper and harden them as one.


	NOTE: The OpenLANE documentation should cover everything you might need to create your design. You can find that [here](https://github.com/efabless/openlane/blob/master/README.md).

	## Option 1:

	This could be done by creating a directory for your design here in this directory, and adding a configuration file for it under the same directory. You can follow the instructions given [here](https://github.com/efabless/openlane#adding-a-design) to generate an initial configuration file for your design, or you can start with the following:

	```tcl
	set script_dir [file dirname [file normalize [info script]]]

	set ::env(DESIGN_NAME) <Your Design Name>

	set ::env(VERILOG_FILES) "$script_dir/../../verilog/rtl/<Your RTL.v>"

	set ::env(CLOCK_PORT) <Clock port name if it exists>
	set ::env(CLOCK_PERIOD) <Desired clock period>
	```

	Then you can add them as you see fit to get the desired DRC/LVS clean outcome.

	After that, run the following command:
	```bash
	make <your design directory name>
	```

	Then, follow the instructions given in Option 2.

	## Option 2:

	1. Add your design to the RTL of the [user_project_wrapper](../verilog/rtl/user_project_wrapper.v).

	2. Modify the configuration file [here](./user_project_wrapper/config.tcl) to include any extra files you may need. Make sure to change these accordingly:
	```tcl
	set ::env(CLOCK_NET) "mprj.clk"


	set ::env(VERILOG_FILES) "\
	$script_dir/../../verilog/rtl/defines.v \
	$script_dir/../../verilog/rtl/user_project_wrapper.v"

	set ::env(VERILOG_FILES_BLACKBOX) "\
	$script_dir/../../verilog/rtl/defines.v \
	$script_dir/../../verilog/rtl/user_proj_example.v"

	set ::env(EXTRA_LEFS) "\
	$script_dir/../../lef/user_proj_example.lef"

	set ::env(EXTRA_GDS_FILES) "\
	$script_dir/../../gds/user_proj_example.gds"
	```
	NOTE: Don't change the size or the pin order!

	3. Remove this line `add_macro_placement mprj 1150 1700 N` from the interactive script [here](./user_project_wrapper/config.tcl) and replace it with the placement for your macro instances. Or, remove it entirely if you have no macros, along with this line `manual_macro_placement f`.

	4. Run your design through the flow: `make user_project_wrapper`

	5. Re-iterate until you have what you want.

	6. Go back to the main [README.md](../README.md) and continue the process of boarding the chip.


	## Extra Pointers:


	- The OpenLANE documentation should cover everything you might need to create your design. You can find that [here](https://github.com/efabless/openlane/blob/master/README.md).
	- The OpenLANE [FAQs](https://github.com/efabless/openlane/wiki) can guide through your troubles.
	- [Here](https://github.com/efabless/openlane/blob/master/configuration/README.md) you can find all the configurations and how to use them.
	- [Here](https://github.com/efabless/openlane/blob/master/doc/advanced_readme.md) you can learn how to write an interactive script.
	- [Here](https://github.com/efabless/openlane/blob/master/doc/OpenLANE_commands.md) you can find a full documentation for all OpenLANE commands.
	- [This documentation](https://github.com/efabless/openlane/blob/master/regression_results/README.md) describes how to use the exploration script to achieve an LVS/DRC clean design.