def get_sch_master(module_db: ModuleDB, sch_design_params: Dict[str, Any]) -> Module: lib_name = sch_design_params['lib_name'] cell_name = sch_design_params['cell_name'] params = sch_design_params['params'] gen_cls = cast(Type[Module], module_db.get_schematic_class(lib_name, cell_name)) ans = module_db.new_master(gen_cls, params=params) return ans
def generate(prj, temp_lib, impl_lib, cell_name, lay_params, sch_params, mdl_params, grid_opts, mdl_dir, mdl_opts=None, impl_cell_name=None): """ generate layout, schematic and model. """ # temp_db = make_tdb(prj, impl_loib, grid_opts) # # print('designing module') # # layout # print(lay_params) # template = temp_db.new_template(params=lay_params, temp_cls=NAND, debug=True) # if impl_cell_name is None: # temp_db.instantiate_layout(prj, template, cell_name, debug=True) # else: # temp_db.instantiate_layout(prj, template, impl_cell_name, debug=True) # generate schematic if sch_params is None: sch_params = {} # sch_params.update(template.sch_params) print(sch_params) sch_db = ModuleDB(prj.tech_info, impl_lib, prj=prj) gen_cls = sch_db.get_schematic_class(temp_lib, cell_name) dsn = sch_db.new_master(gen_cls, params=sch_params) if impl_cell_name is None: sch_db.instantiate_master(DesignOutput.SCHEMATIC, dsn) else: sch_db.instantiate_master(DesignOutput.SCHEMATIC, dsn, top_cell_name=impl_cell_name) # generate model file_name = f"{mdl_dir}/{cell_name}.sv" top_cell_name = cell_name if impl_cell_name is None else impl_cell_name if mdl_opts is None: mdl_opts = {} sch_db.instantiate_model(dsn, mdl_params, top_cell_name=top_cell_name, fname=file_name, **mdl_opts)
def generate_wrapper(sch_db: ModuleDB, wrapper_params: Dict[str, Any], cv_info_list: List, dut_netlist: str, gen_sch: bool) -> None: wrapper_lib = wrapper_params.pop('wrapper_lib') wrapper_cell = wrapper_params.pop('wrapper_cell') wrapper_impl_cell = wrapper_params.pop('impl_cell') wrapper_netlist_path = Path(wrapper_params.pop('netlist_file')) wrapper_netlist_path.parent.mkdir(parents=True, exist_ok=True) wrapper_cls = sch_db.get_schematic_class(wrapper_lib, wrapper_cell) wrapper_master = sch_db.new_master(wrapper_cls, params=wrapper_params['params']) wrapper_list = [(wrapper_master, wrapper_impl_cell)] sch_db.batch_schematic(wrapper_list, output=DesignOutput.SPECTRE, fname=str(wrapper_netlist_path), cv_info_list=cv_info_list, cv_netlist=dut_netlist) print(f'wrapper_netlist: {str(wrapper_netlist_path)}') if gen_sch: sch_db.batch_schematic(wrapper_list, output=DesignOutput.SCHEMATIC)
def get_schematic_class(cls) -> Optional[Type[Module]]: # noinspection PyTypeChecker return ModuleDB.get_schematic_class('aib_ams', 'aib_frontend')
def get_schematic_class(cls) -> Optional[Type[Module]]: # noinspection PyTypeChecker return ModuleDB.get_schematic_class('bag3_digital', 'flop_scan_rstlb')
def get_schematic_class(cls) -> Optional[Type[Module]]: # noinspection PyTypeChecker return ModuleDB.get_schematic_class('aib_ams', 'aib_driver_output_driver')
def get_schematic_class(cls) -> Optional[Type[Module]]: # noinspection PyTypeChecker return ModuleDB.get_schematic_class('bag3_digital', 'lvshift_core_w_drivers')
def get_schematic_class(cls) -> Optional[Type[Module]]: # noinspection PyTypeChecker return ModuleDB.get_schematic_class('tutorial_ams', 'nor')