📄 portdecls.ref
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InstName: I8 LibName: portDecls_design CellName: ANSIbus ViewName: netlist Master Cell Name: ANSIbus NumBits: 1 ModInst: Is Bound: yes InstName: I9 LibName: portDecls_design CellName: mixed ViewName: netlist Master Cell Name: mixed NumBits: 1 ModInst: Is Bound: yes InstName: I10 LibName: portDecls_design CellName: ANSImixed ViewName: netlist Master Cell Name: ANSImixed NumBits: 1 ModInst: Is Bound: yes InstName: I11 LibName: portDecls_design CellName: resize ViewName: netlist Master Cell Name: resize NumBits: 1Reader succeeded******************************************************************************* No Explode, EMH******************************************************************************Warning: Always blocks are not implementedWarning: Always blocks are not implementedWarning: Always blocks are not implementedWarning: Always blocks are not implementedWarning: Always blocks are not implementedWarning: Always blocks are not implementedWarning: Always blocks are not implementedWarning: Always blocks are not implementedWarning: Always blocks are not implementedWarning: Always blocks are not implementedWarning: Always blocks are not implementedInfo: The top module is topContents of portDecls_designEMH.top.netlist Contents of module simpleScalar Term: 'c' (ModScalarTerm) TermType: inputOutput NumBits: 1 Net: 'c' Position: 2 Term: 'b' (ModScalarTerm) TermType: output NumBits: 1 Net: 'b' Position: 1 Term: 'a' (ModScalarTerm) TermType: input NumBits: 1 Net: 'a' Position: 0 Net: 'c' (ModScalarNet) Net: 'b' (ModScalarNet) Net: 'a' (ModScalarNet) Contents of module simpleBus Term: 'c[1:0]' (ModBusTerm) TermType: inputOutput NumBits: 2 Net: 'c[1:0]' Position: 2 Term: 'b[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'b[1:0]' Position: 1 Term: 'a[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'a[1:0]' Position: 0 Net: 'c[1:0]' (ModBusNet) Net: 'b[1:0]' (ModBusNet) Net: 'a[1:0]' (ModBusNet) Contents of module simpleANSIscalar Term: 'c' (ModScalarTerm) TermType: inputOutput NumBits: 1 Net: 'c' Position: 2 Term: 'b' (ModScalarTerm) TermType: output NumBits: 1 Net: 'b' Position: 1 Term: 'a' (ModScalarTerm) TermType: input NumBits: 1 Net: 'a' Position: 0 Net: 'c' (ModScalarNet) Net: 'b' (ModScalarNet) Net: 'a' (ModScalarNet) Contents of module simpleANSIbus Term: 'c[1:0]' (ModBusTerm) TermType: inputOutput NumBits: 2 Net: 'c[1:0]' Position: 2 Term: 'b[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'b[1:0]' Position: 1 Term: 'a[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'a[1:0]' Position: 0 Net: 'c[1:0]' (ModBusNet) Net: 'b[1:0]' (ModBusNet) Net: 'a[1:0]' (ModBusNet) Contents of module scalar Term: 'g' (ModScalarTerm) TermType: inputOutput NumBits: 1 Net: 'g' Position: 6 Term: 'f' (ModScalarTerm) TermType: inputOutput NumBits: 1 Net: 'f' Position: 5 Term: 'e' (ModScalarTerm) TermType: output NumBits: 1 Net: 'e' Position: 4 Term: 'd' (ModScalarTerm) TermType: output NumBits: 1 Net: 'd' Position: 3 Term: 'c' (ModScalarTerm) TermType: input NumBits: 1 Net: 'c' Position: 2 Term: 'b' (ModScalarTerm) TermType: input NumBits: 1 Net: 'b' Position: 1 Term: 'a' (ModScalarTerm) TermType: input NumBits: 1 Net: 'a' Position: 0 Net: 'g' (ModScalarNet) Net: 'f' (ModScalarNet) Net: 'e' (ModScalarNet) Net: 'd' (ModScalarNet) Net: 'c' (ModScalarNet) Net: 'b' (ModScalarNet) Net: 'a' (ModScalarNet) Contents of module bus Term: 'g[1:0]' (ModBusTerm) TermType: inputOutput NumBits: 2 Net: 'g[1:0]' Position: 6 Term: 'f[1:0]' (ModBusTerm) TermType: inputOutput NumBits: 2 Net: 'f[1:0]' Position: 5 Term: 'e[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'e[1:0]' Position: 4 Term: 'd[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'd[1:0]' Position: 3 Term: 'c[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'c[1:0]' Position: 2 Term: 'b[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'b[1:0]' Position: 1 Term: 'a[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'a[1:0]' Position: 0 Net: 'g[1:0]' (ModBusNet) Net: 'f[1:0]' (ModBusNet) Net: 'e[1:0]' (ModBusNet) Net: 'd[1:0]' (ModBusNet) Net: 'c[1:0]' (ModBusNet) Net: 'b[1:0]' (ModBusNet) Net: 'a[1:0]' (ModBusNet) Contents of module ANSIscalar Term: 'g' (ModScalarTerm) TermType: inputOutput NumBits: 1 Net: 'g' Position: 6 Term: 'f' (ModScalarTerm) TermType: inputOutput NumBits: 1 Net: 'f' Position: 5 Term: 'e' (ModScalarTerm) TermType: output NumBits: 1 Net: 'e' Position: 4 Term: 'd' (ModScalarTerm) TermType: output NumBits: 1 Net: 'd' Position: 3 Term: 'c' (ModScalarTerm) TermType: input NumBits: 1 Net: 'c' Position: 2 Term: 'b' (ModScalarTerm) TermType: input NumBits: 1 Net: 'b' Position: 1 Term: 'a' (ModScalarTerm) TermType: input NumBits: 1 Net: 'a' Position: 0 Net: 'g' (ModScalarNet) Net: 'f' (ModScalarNet) Net: 'e' (ModScalarNet) Net: 'd' (ModScalarNet) Net: 'c' (ModScalarNet) Net: 'b' (ModScalarNet) Net: 'a' (ModScalarNet) Contents of module ANSIbus Term: 'g[1:0]' (ModBusTerm) TermType: inputOutput NumBits: 2 Net: 'g[1:0]' Position: 6 Term: 'f[1:0]' (ModBusTerm) TermType: inputOutput NumBits: 2 Net: 'f[1:0]' Position: 5 Term: 'e[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'e[1:0]' Position: 4 Term: 'd[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'd[1:0]' Position: 3 Term: 'c[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'c[1:0]' Position: 2 Term: 'b[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'b[1:0]' Position: 1 Term: 'a[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'a[1:0]' Position: 0 Net: 'g[1:0]' (ModBusNet) Net: 'f[1:0]' (ModBusNet) Net: 'e[1:0]' (ModBusNet) Net: 'd[1:0]' (ModBusNet) Net: 'c[1:0]' (ModBusNet) Net: 'b[1:0]' (ModBusNet) Net: 'a[1:0]' (ModBusNet) Contents of module mixed Term: 'g[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'g[1:0]' Position: 6 Term: 'f' (ModScalarTerm) TermType: output NumBits: 1 Net: 'f' Position: 5 Term: 'e' (ModScalarTerm) TermType: output NumBits: 1 Net: 'e' Position: 4 Term: 'd[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'd[1:0]' Position: 3 Term: 'c[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'c[1:0]' Position: 2 Term: 'b' (ModScalarTerm) TermType: input NumBits: 1 Net: 'b' Position: 1 Term: 'a' (ModScalarTerm) TermType: input NumBits: 1 Net: 'a' Position: 0 Net: 'l[1:0]' (ModBusNet) Net: 'k[1:0]' (ModBusNet) Net: 'j' (ModScalarNet) Net: 'i' (ModScalarNet) Net: 'h[1:0]' (ModBusNet) Net: 'g[1:0]' (ModBusNet) Net: 'f' (ModScalarNet) Net: 'e' (ModScalarNet) Net: 'd[1:0]' (ModBusNet) Net: 'c[1:0]' (ModBusNet) Net: 'b' (ModScalarNet) Net: 'a' (ModScalarNet) Contents of module ANSImixed Term: 'l[1:0]' (ModBusTerm) TermType: inputOutput NumBits: 2 Net: 'l[1:0]' Position: 11 Term: 'k[1:0]' (ModBusTerm) TermType: inputOutput NumBits: 2 Net: 'k[1:0]' Position: 10 Term: 'j' (ModScalarTerm) TermType: inputOutput NumBits: 1 Net: 'j' Position: 9 Term: 'i' (ModScalarTerm) TermType: inputOutput NumBits: 1 Net: 'i' Position: 8 Term: 'h[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'h[1:0]' Position: 7 Term: 'g[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'g[1:0]' Position: 6 Term: 'f' (ModScalarTerm) TermType: output NumBits: 1 Net: 'f' Position: 5 Term: 'e' (ModScalarTerm) TermType: output NumBits: 1 Net: 'e' Position: 4 Term: 'd[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'd[1:0]' Position: 3 Term: 'c[1:0]' (ModBusTerm) TermType: input NumBits: 2 Net: 'c[1:0]' Position: 2 Term: 'b' (ModScalarTerm) TermType: input NumBits: 1 Net: 'b' Position: 1 Term: 'a' (ModScalarTerm) TermType: input NumBits: 1 Net: 'a' Position: 0 Net: 'l[1:0]' (ModBusNet) Net: 'k[1:0]' (ModBusNet) Net: 'j' (ModScalarNet) Net: 'i' (ModScalarNet) Net: 'h[1:0]' (ModBusNet) Net: 'g[1:0]' (ModBusNet) Net: 'f' (ModScalarNet) Net: 'e' (ModScalarNet) Net: 'd[1:0]' (ModBusNet) Net: 'c[1:0]' (ModBusNet) Net: 'b' (ModScalarNet) Net: 'a' (ModScalarNet) Contents of module resize Term: 'out5[3:0]' (ModBusTerm) TermType: output NumBits: 4 Net: 'out5[3:0]' Position: 5 Term: 'out4[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'out4[1:0]' Position: 4 Term: 'out3[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'out3[1:0]' Position: 3 Term: 'out2[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'out2[1:0]' Position: 2 Term: 'out1[1:0]' (ModBusTerm) TermType: output NumBits: 2 Net: 'out1[1:0]' Position: 1 Term: 'clk' (ModScalarTerm) TermType: input NumBits: 1 Net: 'clk' Position: 0 Net: 'out5[3:0]' (ModBusNet) Net: 'out4[1:0]' (ModBusNet) Net: 'out3[1:0]' (ModBusNet) Net: 'out2[1:0]' (ModBusNet) Net: 'out1[1:0]' (ModBusNet) Net: 'clk' (ModScalarNet) Contents of TOP module top ModInst: Is Bound: yes InstName: I11 Master Cell Name: resize NumBits: 1 ModInst: Is Bound: yes InstName: I10 Master Cell Name: ANSImixed NumBits: 1 ModInst: Is Bound: yes InstName: I9 Master Cell Name: mixed NumBits: 1 ModInst: Is Bound: yes InstName: I8 Master Cell Name: ANSIbus NumBits: 1 ModInst: Is Bound: yes InstName: I7 Master Cell Name: ANSIscalar NumBits: 1 ModInst: Is Bound: yes InstName: I6 Master Cell Name: bus NumBits: 1 ModInst: Is Bound: yes InstName: I5 Master Cell Name: scalar NumBits: 1 ModInst: Is Bound: yes InstName: I4 Master Cell Name: simpleANSIbus NumBits: 1 ModInst: Is Bound: yes InstName: I3 Master Cell Name: simpleANSIscalar NumBits: 1 ModInst: Is Bound: yes InstName: I2 Master Cell Name: simpleBus NumBits: 1 ModInst: Is Bound: yes InstName: I1 Master Cell Name: simpleScalar NumBits: 1Reader succeeded⌨️ 快捷键说明
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