// autocreated by expandPorts.tcl 2.0 and portUtil.tcl 2.0 module mkTest5_expanded ( CLK, RST_N, RDY_method1, EN_method1, method1_in1, method1_in2, RDY_method2, method2, method2_in1, method2_in2, RDY_method3, method3, RDY_method4, EN_method4, method4_a, method4_b, method4_c, method4_in1, RDY_method5, EN_method5, method5_in1, RDY_method6, method6, method6_in1_a, method6_in1_b, method6_in1_c, RDY_method7, method7_a, method7_b, method7_c, RDY_method8, EN_method8, method8, RDY_method9, EN_method9, method9, method9_in1, RDY_method10, method10_0_a, method10_0_b, method10_0_c, method10_1_a, method10_1_b, method10_1_c, method10_2_a, method10_2_b, method10_2_c, RDY_method20, method20 ); input CLK; input RST_N; // ==================== // Method = method1 // ready => RDY_method1 1 Bit#(1) // enable => EN_method1 1 Bit#(1) // input => method1_in1 32 Int#(32) // input => method1_in2 32 Int#(32) output RDY_method1; input EN_method1; input [ 31 : 0 ] method1_in1; input [ 31 : 0 ] method1_in2; // ==================== // Method = method2 // ready => RDY_method2 1 Bit#(1) // result => method2 32 Int#(32) // input => method2_in1 32 Int#(32) // input => method2_in2 32 Int#(32) output RDY_method2; output [ 31 : 0 ] method2; input [ 31 : 0 ] method2_in1; input [ 31 : 0 ] method2_in2; // ==================== // Method = method3 // ready => RDY_method3 1 Bit#(1) // result => method3 32 Int#(32) output RDY_method3; output [ 31 : 0 ] method3; // ==================== // Method = method4 // ready => RDY_method4 1 Bit#(1) // enable => EN_method4 1 Bit#(1) // result => method4 13 ActionValue#(Test5::TS) // input => method4_in1 32 Int#(32) output RDY_method4; input EN_method4; output [ 2 : 0 ] method4_a; // method4[12:10] output [ 3 : 0 ] method4_b; // method4[9:6] output [ 5 : 0 ] method4_c; // method4[5:0] input [ 31 : 0 ] method4_in1; // ==================== // Method = method5 // ready => RDY_method5 1 Bit#(1) // enable => EN_method5 1 Bit#(1) // input => method5_in1 4 Bit#(4) output RDY_method5; input EN_method5; input [ 3 : 0 ] method5_in1; // ==================== // Method = method6 // ready => RDY_method6 1 Bit#(1) // result => method6 32 Int#(32) // input => method6_in1 13 Test5::TS output RDY_method6; output [ 31 : 0 ] method6; input [ 2 : 0 ] method6_in1_a; input [ 3 : 0 ] method6_in1_b; input [ 5 : 0 ] method6_in1_c; // ==================== // Method = method7 // ready => RDY_method7 1 Bit#(1) // result => method7 13 Test5::TS output RDY_method7; output [ 2 : 0 ] method7_a; // method7[12:10] output [ 3 : 0 ] method7_b; // method7[9:6] output [ 5 : 0 ] method7_c; // method7[5:0] // ==================== // Method = method8 // ready => RDY_method8 1 Bit#(1) // enable => EN_method8 1 Bit#(1) // result => method8 4 ActionValue#(Bit#(4)) output RDY_method8; input EN_method8; output [ 3 : 0 ] method8; // ==================== // Method = method9 // ready => RDY_method9 1 Bit#(1) // enable => EN_method9 1 Bit#(1) // result => method9 4 ActionValue#(Bit#(4)) // input => method9_in1 4 Bit#(4) output RDY_method9; input EN_method9; output [ 3 : 0 ] method9; input [ 3 : 0 ] method9_in1; // ==================== // Method = method10 // ready => RDY_method10 1 Bit#(1) // result => method10 39 {Vector::Vector#(3, Test5::TS)} output RDY_method10; output [ 2 : 0 ] method10_0_a; // method10[38:36] output [ 3 : 0 ] method10_0_b; // method10[35:32] output [ 5 : 0 ] method10_0_c; // method10[31:26] output [ 2 : 0 ] method10_1_a; // method10[25:23] output [ 3 : 0 ] method10_1_b; // method10[22:19] output [ 5 : 0 ] method10_1_c; // method10[18:13] output [ 2 : 0 ] method10_2_a; // method10[12:10] output [ 3 : 0 ] method10_2_b; // method10[9:6] output [ 5 : 0 ] method10_2_c; // method10[5:0] // ==================== // Method = method20 // ready => RDY_method20 1 Bit#(1) // result => method20 4 Test5::TEnum output RDY_method20; output [ 3 : 0 ] method20; wire RDY_method1; wire RDY_method2; wire [ 31 : 0 ] method2; wire RDY_method3; wire [ 31 : 0 ] method3; wire RDY_method4; wire [ 2 : 0 ] method4_a; // method4[12:10] wire [ 3 : 0 ] method4_b; // method4[9:6] wire [ 5 : 0 ] method4_c; // method4[5:0] wire RDY_method5; wire RDY_method6; wire [ 31 : 0 ] method6; wire RDY_method7; wire [ 2 : 0 ] method7_a; // method7[12:10] wire [ 3 : 0 ] method7_b; // method7[9:6] wire [ 5 : 0 ] method7_c; // method7[5:0] wire RDY_method8; wire [ 3 : 0 ] method8; wire RDY_method9; wire [ 3 : 0 ] method9; wire RDY_method10; wire [ 2 : 0 ] method10_0_a; // method10[38:36] wire [ 3 : 0 ] method10_0_b; // method10[35:32] wire [ 5 : 0 ] method10_0_c; // method10[31:26] wire [ 2 : 0 ] method10_1_a; // method10[25:23] wire [ 3 : 0 ] method10_1_b; // method10[22:19] wire [ 5 : 0 ] method10_1_c; // method10[18:13] wire [ 2 : 0 ] method10_2_a; // method10[12:10] wire [ 3 : 0 ] method10_2_b; // method10[9:6] wire [ 5 : 0 ] method10_2_c; // method10[5:0] wire RDY_method20; wire [ 3 : 0 ] method20; mkTest5 _mkTest5 ( .CLK( CLK ), .RST_N( RST_N ), .RDY_method1( RDY_method1 ), .EN_method1( EN_method1 ), .method1_in1( method1_in1 ), .method1_in2( method1_in2 ), .RDY_method2( RDY_method2 ), .method2( method2 ), .method2_in1( method2_in1 ), .method2_in2( method2_in2 ), .RDY_method3( RDY_method3 ), .method3( method3 ), .RDY_method4( RDY_method4 ), .EN_method4( EN_method4 ), .method4( { method4_a,method4_b,method4_c } ), .method4_in1( method4_in1 ), .RDY_method5( RDY_method5 ), .EN_method5( EN_method5 ), .method5_in1( method5_in1 ), .RDY_method6( RDY_method6 ), .method6( method6 ), .method6_in1( { method6_in1_a,method6_in1_b,method6_in1_c } ), .RDY_method7( RDY_method7 ), .method7( { method7_a,method7_b,method7_c } ), .RDY_method8( RDY_method8 ), .EN_method8( EN_method8 ), .method8( method8 ), .RDY_method9( RDY_method9 ), .EN_method9( EN_method9 ), .method9( method9 ), .method9_in1( method9_in1 ), .RDY_method10( RDY_method10 ), .method10( { method10_0_a,method10_0_b,method10_0_c,method10_1_a,method10_1_b,method10_1_c,method10_2_a,method10_2_b,method10_2_c } ), .RDY_method20( RDY_method20 ), .method20( method20 ) ); endmodule