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Add external alias in regfile example to aliases-example
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@ -60,4 +60,27 @@ addrmap aliases {
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four_field_reg four_field_reg; // Actual register
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alias four_field_reg two_field_alias two_field_alias; // Alias with different properties
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//////////////////////
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// External aliases //
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//////////////////////
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regfile {
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desc = "Instantiate regfile to show that they also work in regfiles.";
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reg ext_main_reg {
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desc = "If aliases registers are declared to be external,
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the external hardware will get a seperate interface
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for those registers.";
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field_templ f1 [15:0];
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field_templ f2 [31:16];
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};
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reg ext_alias_reg {
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field_templ field_1 [15:0];
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};
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external ext_main_reg ext_main_reg; // Actual register
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alias ext_main_reg ext_alias_reg ext_alias_reg; // Alias with different properties
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} example_rf[4];
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};
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@ -20,7 +20,7 @@
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*
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* Generation information:
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* - User: : dpotter
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* - Time : November 06 2021 22:46:49
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* - Time : November 07 2021 11:16:51
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* - Path : /home/dpotter/srdl2sv/examples/aliases
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* - RDL file : ['aliases.rdl']
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* - Hostname : ArchXPS
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@ -74,35 +74,57 @@ module aliases
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// Inputs
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input clk ,
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input HRESETn ,
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input [31:0] HADDR ,
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input HWRITE ,
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input [2:0] HSIZE ,
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input [3:0] HPROT ,
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input [1:0] HTRANS ,
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input [32-1:0] HWDATA ,
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input HSEL ,
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input [0:0] event1__some_event_in ,
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input four_field_reg__f1_hw_wr,
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input [7:0] four_field_reg__f1_in ,
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input four_field_reg__f2_hw_wr,
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input [7:0] four_field_reg__f2_in ,
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input four_field_reg__f3_hw_wr,
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input [7:0] four_field_reg__f3_in ,
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input four_field_reg__f4_hw_wr,
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input [7:0] four_field_reg__f4_in ,
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input clk ,
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input HRESETn ,
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input [31:0] HADDR ,
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input HWRITE ,
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input [2:0] HSIZE ,
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input [3:0] HPROT ,
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input [1:0] HTRANS ,
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input [32-1:0] HWDATA ,
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input HSEL ,
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input example_rf__ext_main_reg__f1_ext_r_err [4],
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input example_rf__ext_main_reg__f1_ext_r_ack [4],
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input example_rf__ext_main_reg__f2_ext_r_err [4],
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input example_rf__ext_main_reg__f2_ext_r_ack [4],
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input example_rf__ext_main_reg__f1_ext_w_err [4],
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input example_rf__ext_main_reg__f1_ext_w_ack [4],
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input example_rf__ext_main_reg__f2_ext_w_err [4],
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input example_rf__ext_main_reg__f2_ext_w_ack [4],
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input [15:0] example_rf__ext_main_reg__f1_ext_r_data[4],
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input [15:0] example_rf__ext_main_reg__f2_ext_r_data[4],
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input [0:0] event1__some_event_in ,
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input four_field_reg__f1_hw_wr ,
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input [7:0] four_field_reg__f1_in ,
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input four_field_reg__f2_hw_wr ,
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input [7:0] four_field_reg__f2_in ,
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input four_field_reg__f3_hw_wr ,
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input [7:0] four_field_reg__f3_in ,
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input four_field_reg__f4_hw_wr ,
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input [7:0] four_field_reg__f4_in ,
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// Outputs
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output HREADYOUT ,
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output HRESP ,
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output [32-1:0] HRDATA ,
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output event1_intr ,
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output [7:0] four_field_reg__f1_r ,
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output [7:0] four_field_reg__f2_r ,
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output [7:0] four_field_reg__f3_r ,
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output reg four_field_reg__f3_swmod,
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output [7:0] four_field_reg__f4_r
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output HREADYOUT ,
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output HRESP ,
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output [32-1:0] HRDATA ,
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output example_rf__ext_main_reg__f1_ext_w_req [4],
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output [15:0] example_rf__ext_main_reg__f1_ext_w_data [4],
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output [15:0] example_rf__ext_main_reg__f1_ext_w_mask [4],
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output example_rf__ext_main_reg__f1_ext_r_req [4],
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output example_rf__ext_alias_reg__field_1_ext_w_req[4],
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output [15:0] example_rf__ext_alias_reg__field_1_ext_w_data[4],
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output [15:0] example_rf__ext_alias_reg__field_1_ext_w_mask[4],
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output example_rf__ext_alias_reg__field_1_ext_r_req[4],
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output example_rf__ext_main_reg__f2_ext_w_req [4],
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output [15:0] example_rf__ext_main_reg__f2_ext_w_data [4],
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output [15:0] example_rf__ext_main_reg__f2_ext_w_mask [4],
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output example_rf__ext_main_reg__f2_ext_r_req [4],
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output event1_intr ,
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output [7:0] four_field_reg__f1_r ,
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output [7:0] four_field_reg__f2_r ,
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output [7:0] four_field_reg__f3_r ,
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output reg four_field_reg__f3_swmod ,
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output [7:0] four_field_reg__f4_r
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);
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@ -142,6 +164,229 @@ srdl2sv_amba3ahblite_inst
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// Interface to internal logic
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.widget_if);
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genvar gv_a;
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/*******************************************************************
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*******************************************************************
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* REGFILE : example_rf
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* DIMENSION : 1
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* DEPTHS (per dimension): [4]
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*******************************************************************
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*******************************************************************/
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/**REGFILE DESCRIPTION**********************************************
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Instantiate regfile to show that they also work in regfiles.
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/*******************************************************************/
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// Variables of register 'ext_main_reg'
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logic example_rf__ext_main_reg_active [4];
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logic example_rf__ext_main_reg_sw_rd [4];
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logic example_rf__ext_main_reg_sw_wr [4];
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logic example_rf__ext_alias_reg_active [4];
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logic example_rf__ext_alias_reg_sw_rd [4];
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logic example_rf__ext_alias_reg_sw_wr [4];
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logic [31:0] example_rf__ext_main_reg_data_mux_in [4];
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logic example_rf__ext_main_reg_rdy_mux_in [4];
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logic example_rf__ext_main_reg_err_mux_in [4];
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logic [31:0] example_rf__ext_alias_reg_data_mux_in[4];
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logic example_rf__ext_alias_reg_rdy_mux_in [4];
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logic example_rf__ext_alias_reg_err_mux_in [4];
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logic [15:0] example_rf__ext_main_reg__f1_q [4];
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logic [15:0] example_rf__ext_alias_reg__field_1_q [4];
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logic [15:0] example_rf__ext_main_reg__f2_q [4];
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generate
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for (gv_a = 0; gv_a < 4; gv_a++)
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begin
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/*******************************************************************
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/*******************************************************************
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/* REGISTER : ext_main_reg
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/* DIMENSION : 0
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/* DEPTHS (per dimension): []
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/*******************************************************************
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/*******************************************************************/
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/**REGISTER DESCRIPTION*********************************************
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If aliases registers are declared to be external,
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the external hardware will get a seperate interface
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for those registers.
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/*******************************************************************/
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// Register-activation for 'example_rf__ext_main_reg'
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assign example_rf__ext_main_reg_active[gv_a] = widget_if.addr == 16+(gv_a*8);
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assign example_rf__ext_main_reg_sw_rd[gv_a] = example_rf__ext_main_reg_active[gv_a] && widget_if.r_vld;
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assign example_rf__ext_main_reg_sw_wr[gv_a] = example_rf__ext_main_reg_active[gv_a] && widget_if.w_vld;
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// Register-activation for 'example_rf__ext_alias_reg' (alias)
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assign example_rf__ext_alias_reg_active[gv_a] = widget_if.addr == 20+(gv_a*8);
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assign example_rf__ext_alias_reg_sw_rd[gv_a] = example_rf__ext_alias_reg_active[gv_a] && widget_if.r_vld;
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assign example_rf__ext_alias_reg_sw_wr[gv_a] = example_rf__ext_alias_reg_active[gv_a] && widget_if.w_vld;
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//-----------------FIELD SUMMARY-----------------
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// name : f1 (example_rf__ext_main_reg[15:0])
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// access : hw = rw
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// sw = rw (precedence)
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// reset : - / -
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// flags : ['sw', 'wel']
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// external : True
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// storage type : StorageType.FLOPS
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//-----------------------------------------------
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/***********************************
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* Handle external write interface *
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***********************************
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* The 'example_rf__ext_main_reg__f1_ext_w_req' output will be asserted once a write
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* is requested by the bus and will stay high until 'example_rf__ext_main_reg__f1_ext_w_ack'
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* gets set. During a write, hardware shall not touch any bits that
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* are not defined in 'example_rf__ext_main_reg__f1_ext_w_mask'.
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*
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* 'example_rf__ext_main_reg__f1_ext_w_ack' shall be held 1'b1 until all fields in the register
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* acknowledged the read. In practice, this means until 'example_rf__ext_main_reg__f1_ext_w_req'
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* goes back to 1'b0.
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*
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* If 'example_rf__ext_main_reg__f1_ext_w_err' gets set, it must also be held during the
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* complete time 'example_rf__ext_main_reg__f1_ext_w_ack' is high.
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*/
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// Write request
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assign example_rf__ext_main_reg__f1_ext_w_req[gv_a] = example_rf__ext_main_reg_sw_wr[gv_a];
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// Assign value from bus to output
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assign example_rf__ext_main_reg__f1_ext_w_data[gv_a] = widget_if.w_data[15:0];
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// Provide bit-wise mask. Only bits set to 1'b1 shall be written
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assign example_rf__ext_main_reg__f1_ext_w_mask[gv_a] = {{8{widget_if.byte_en[1]}},{8{widget_if.byte_en[0]}}};
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/**********************************
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* Handle external read interface *
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**********************************
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* The 'example_rf__ext_main_reg__f1_ext_r_req' output will be asserted once a read
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* is requested by the bus and will stay high until 'example_rf__ext_main_reg__f1_ext_r_ack'
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* gets set. During a read, byte-enables will be ignored.
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*
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* 'example_rf__ext_main_reg__f1_ext_r_ack' shall be held 1'b1 until all fields in the register
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* acknowledged the read. In practice, this means until 'example_rf__ext_main_reg__f1_ext_r_req'
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* goes back to 1'b0.
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*
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* If 'example_rf__ext_main_reg__f1_ext_r_err' gets set, it must also be held during the
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* complete time 'example_rf__ext_main_reg__f1_ext_r_ack' is high.
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*/
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// Actual data
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assign example_rf__ext_main_reg__f1_ext_r_req[gv_a] = example_rf__ext_main_reg_sw_rd[gv_a];
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// Assign return from outside hardware
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assign example_rf__ext_main_reg__f1_q[gv_a] = example_rf__ext_main_reg__f1_ext_r_data;
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/**********************************
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* Alias external write interface *
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**********************************
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* The hardware gets notified via a different wire that
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* software accessed the register via an alias, but the return
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* shall be done via the main register's I/O. This is similar to
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* the implementation of an alias registers.
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*/
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assign example_rf__ext_alias_reg__field_1_ext_w_req[gv_a] = example_rf__ext_alias_reg_sw_wr[gv_a];
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assign example_rf__ext_alias_reg__field_1_ext_w_data[gv_a] = widget_if.w_data[15:0];
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assign example_rf__ext_alias_reg__field_1_ext_w_mask[gv_a] = {{8{widget_if.byte_en[1]}},{8{widget_if.byte_en[0]}}};
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/*********************************
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* Alias external read interface *
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*********************************
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* The hardware gets notified via a different wire that
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* software accessed the register via an alias, but the return
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* shall be done via the main register's I/O. This is similar to
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* the implementation of an alias registers.
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*/
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assign example_rf__ext_alias_reg__field_1_ext_r_req[gv_a] = example_rf__ext_alias_reg_sw_rd[gv_a];
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//-----------------FIELD SUMMARY-----------------
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// name : f2 (example_rf__ext_main_reg[31:16])
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// access : hw = rw
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// sw = rw (precedence)
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// reset : - / -
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// flags : ['sw', 'wel']
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// external : True
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// storage type : StorageType.FLOPS
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//-----------------------------------------------
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/***********************************
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* Handle external write interface *
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***********************************
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* The 'example_rf__ext_main_reg__f2_ext_w_req' output will be asserted once a write
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* is requested by the bus and will stay high until 'example_rf__ext_main_reg__f2_ext_w_ack'
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* gets set. During a write, hardware shall not touch any bits that
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* are not defined in 'example_rf__ext_main_reg__f2_ext_w_mask'.
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*
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* 'example_rf__ext_main_reg__f2_ext_w_ack' shall be held 1'b1 until all fields in the register
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* acknowledged the read. In practice, this means until 'example_rf__ext_main_reg__f2_ext_w_req'
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* goes back to 1'b0.
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*
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* If 'example_rf__ext_main_reg__f2_ext_w_err' gets set, it must also be held during the
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* complete time 'example_rf__ext_main_reg__f2_ext_w_ack' is high.
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*/
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// Write request
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assign example_rf__ext_main_reg__f2_ext_w_req[gv_a] = example_rf__ext_main_reg_sw_wr[gv_a];
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// Assign value from bus to output
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assign example_rf__ext_main_reg__f2_ext_w_data[gv_a] = widget_if.w_data[31:16];
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// Provide bit-wise mask. Only bits set to 1'b1 shall be written
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assign example_rf__ext_main_reg__f2_ext_w_mask[gv_a] = {{8{widget_if.byte_en[3]}},{8{widget_if.byte_en[2]}}};
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/**********************************
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* Handle external read interface *
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**********************************
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* The 'example_rf__ext_main_reg__f2_ext_r_req' output will be asserted once a read
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* is requested by the bus and will stay high until 'example_rf__ext_main_reg__f2_ext_r_ack'
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* gets set. During a read, byte-enables will be ignored.
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*
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* 'example_rf__ext_main_reg__f2_ext_r_ack' shall be held 1'b1 until all fields in the register
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* acknowledged the read. In practice, this means until 'example_rf__ext_main_reg__f2_ext_r_req'
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* goes back to 1'b0.
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*
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* If 'example_rf__ext_main_reg__f2_ext_r_err' gets set, it must also be held during the
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* complete time 'example_rf__ext_main_reg__f2_ext_r_ack' is high.
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*/
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// Actual data
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assign example_rf__ext_main_reg__f2_ext_r_req[gv_a] = example_rf__ext_main_reg_sw_rd[gv_a];
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// Assign return from outside hardware
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assign example_rf__ext_main_reg__f2_q[gv_a] = example_rf__ext_main_reg__f2_ext_r_data;
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/**********************************************
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* Assign all fields to signal to Mux *
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**********************************************/
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// Assign all fields. Fields that are not readable are tied to 0.
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assign example_rf__ext_main_reg_data_mux_in[gv_a] = {example_rf__ext_main_reg__f2_q[gv_a], example_rf__ext_main_reg__f1_q[gv_a]};
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// Internal registers are ready immediately
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assign example_rf__ext_main_reg_rdy_mux_in[gv_a] = (example_rf__ext_main_reg__f1_ext_r_ack[gv_a] && example_rf__ext_main_reg__f2_ext_r_ack[gv_a] && widget_if.r_vld) || (example_rf__ext_main_reg__f1_ext_w_ack[gv_a] && example_rf__ext_main_reg__f2_ext_w_ack[gv_a] && widget_if.w_vld);
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// Return an error if *no* read and *no* write was succesful. If some bits
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// cannot be read/written but others are succesful, don't return and error
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// Hence, as long as one action can be succesful, no error will be returned.
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assign example_rf__ext_main_reg_err_mux_in[gv_a] = !((widget_if.r_vld && (|widget_if.byte_en[3:0])) || (widget_if.w_vld && (|widget_if.byte_en[3:0]))) || (example_rf__ext_main_reg__f1_ext_r_err[gv_a] && example_rf__ext_main_reg__f1_ext_r_ack[gv_a] && widget_if.r_vld) || (example_rf__ext_main_reg__f2_ext_r_err[gv_a] && example_rf__ext_main_reg__f2_ext_r_ack[gv_a] && widget_if.r_vld) || (example_rf__ext_main_reg__f1_ext_w_err[gv_a] && example_rf__ext_main_reg__f1_ext_w_ack[gv_a] && widget_if.w_vld) || (example_rf__ext_main_reg__f2_ext_w_err[gv_a] && example_rf__ext_main_reg__f2_ext_w_ack[gv_a] && widget_if.w_vld);
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/**********************************************
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* Assign all fields to signal to Mux (alias) *
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**********************************************/
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// Assign all fields. Fields that are not readable are tied to 0.
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assign example_rf__ext_alias_reg_data_mux_in[gv_a] = {{16{1'b0}}, example_rf__ext_main_reg__f1_q[gv_a]};
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// Internal registers are ready immediately
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assign example_rf__ext_alias_reg_rdy_mux_in[gv_a] = (example_rf__ext_main_reg__f1_ext_r_ack[gv_a] && example_rf__ext_main_reg__f2_ext_r_ack[gv_a] && widget_if.r_vld) || (example_rf__ext_main_reg__f1_ext_w_ack[gv_a] && example_rf__ext_main_reg__f2_ext_w_ack[gv_a] && widget_if.w_vld);
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// Return an error if *no* read and *no* write was succesful. If some bits
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// cannot be read/written but others are succesful, don't return and error
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||||
// Hence, as long as one action can be succesful, no error will be returned.
|
||||
assign example_rf__ext_alias_reg_err_mux_in[gv_a] = !((widget_if.r_vld && (|widget_if.byte_en[1:0])) || (widget_if.w_vld && (|widget_if.byte_en[1:0]))) || (example_rf__ext_main_reg__f1_ext_r_err[gv_a] && example_rf__ext_main_reg__f1_ext_r_ack[gv_a] && widget_if.r_vld) || (example_rf__ext_main_reg__f1_ext_w_err[gv_a] && example_rf__ext_main_reg__f1_ext_w_ack[gv_a] && widget_if.w_vld);
|
||||
end // of for loop with iterator gv_a
|
||||
endgenerate
|
||||
|
||||
|
||||
/*******************************************************************
|
||||
/*******************************************************************
|
||||
/* REGISTER : event1
|
||||
@ -450,6 +695,54 @@ assign two_field_alias_err_mux_in = !((widget_if.r_vld && (widget_if.byte_en[3]
|
||||
always_comb
|
||||
begin
|
||||
unique case (1'b1)
|
||||
example_rf__ext_main_reg_active[0]:
|
||||
begin
|
||||
widget_if.r_data = example_rf__ext_main_reg_data_mux_in[0];
|
||||
widget_if.err = example_rf__ext_main_reg_err_mux_in[0];
|
||||
widget_if.rdy = example_rf__ext_main_reg_rdy_mux_in[0];
|
||||
end
|
||||
example_rf__ext_main_reg_active[1]:
|
||||
begin
|
||||
widget_if.r_data = example_rf__ext_main_reg_data_mux_in[1];
|
||||
widget_if.err = example_rf__ext_main_reg_err_mux_in[1];
|
||||
widget_if.rdy = example_rf__ext_main_reg_rdy_mux_in[1];
|
||||
end
|
||||
example_rf__ext_main_reg_active[2]:
|
||||
begin
|
||||
widget_if.r_data = example_rf__ext_main_reg_data_mux_in[2];
|
||||
widget_if.err = example_rf__ext_main_reg_err_mux_in[2];
|
||||
widget_if.rdy = example_rf__ext_main_reg_rdy_mux_in[2];
|
||||
end
|
||||
example_rf__ext_main_reg_active[3]:
|
||||
begin
|
||||
widget_if.r_data = example_rf__ext_main_reg_data_mux_in[3];
|
||||
widget_if.err = example_rf__ext_main_reg_err_mux_in[3];
|
||||
widget_if.rdy = example_rf__ext_main_reg_rdy_mux_in[3];
|
||||
end
|
||||
example_rf__ext_alias_reg_active[0]:
|
||||
begin
|
||||
widget_if.r_data = example_rf__ext_alias_reg_data_mux_in[0];
|
||||
widget_if.err = example_rf__ext_alias_reg_err_mux_in[0];
|
||||
widget_if.rdy = example_rf__ext_alias_reg_rdy_mux_in[0];
|
||||
end
|
||||
example_rf__ext_alias_reg_active[1]:
|
||||
begin
|
||||
widget_if.r_data = example_rf__ext_alias_reg_data_mux_in[1];
|
||||
widget_if.err = example_rf__ext_alias_reg_err_mux_in[1];
|
||||
widget_if.rdy = example_rf__ext_alias_reg_rdy_mux_in[1];
|
||||
end
|
||||
example_rf__ext_alias_reg_active[2]:
|
||||
begin
|
||||
widget_if.r_data = example_rf__ext_alias_reg_data_mux_in[2];
|
||||
widget_if.err = example_rf__ext_alias_reg_err_mux_in[2];
|
||||
widget_if.rdy = example_rf__ext_alias_reg_rdy_mux_in[2];
|
||||
end
|
||||
example_rf__ext_alias_reg_active[3]:
|
||||
begin
|
||||
widget_if.r_data = example_rf__ext_alias_reg_data_mux_in[3];
|
||||
widget_if.err = example_rf__ext_alias_reg_err_mux_in[3];
|
||||
widget_if.rdy = example_rf__ext_alias_reg_rdy_mux_in[3];
|
||||
end
|
||||
event1_active:
|
||||
begin
|
||||
widget_if.r_data = event1_data_mux_in;
|
||||
|
Loading…
Reference in New Issue
Block a user