-- Executing script file `fifo.ys' -- $ yosys fifo.v -- Parsing `fifo.v' using frontend ` -vlog2k' -- 1. Executing Verilog-2005 frontend: fifo.v Parsing Verilog input from `fifo.v' to AST representation. Storing AST representation for module `$abstract\addr_gen'. Storing AST representation for module `$abstract\fifo'. Successfully finished Verilog frontend. echo on yosys> hierarchy -top addr_gen 2. Executing HIERARCHY pass (managing design hierarchy). 3. Executing AST frontend in derive mode using pre-parsed AST for module `\addr_gen'. Generating RTLIL representation for module `\addr_gen'. 3.1. Analyzing design hierarchy.. Top module: \addr_gen 3.2. Analyzing design hierarchy.. Top module: \addr_gen Removing unused module `$abstract\fifo'. Removing unused module `$abstract\addr_gen'. Removed 2 unused modules. yosys> select -module addr_gen yosys [addr_gen]> select -list addr_gen addr_gen/$1\addr[7:0] addr_gen/$add$fifo.v:19$3_Y addr_gen/$eq$fifo.v:16$2_Y addr_gen/$0\addr[7:0] addr_gen/addr addr_gen/rst addr_gen/clk addr_gen/en addr_gen/$add$fifo.v:19$3 addr_gen/$eq$fifo.v:16$2 addr_gen/$proc$fifo.v:0$4 addr_gen/$proc$fifo.v:12$1 yosys [addr_gen]> select t:* yosys [addr_gen]*> select -list addr_gen/$add$fifo.v:19$3 addr_gen/$eq$fifo.v:16$2 yosys [addr_gen]*> select -set new_cells % yosys [addr_gen]*> select -clear yosys> show -format dot -prefix addr_gen_show addr_gen 4. Generating Graphviz representation of design. Writing dot description to `addr_gen_show.dot'. Dumping module addr_gen to page 1. yosys> show -format dot -prefix new_cells_show -notitle @new_cells 5. Generating Graphviz representation of design. Writing dot description to `new_cells_show.dot'. Dumping selected parts of module addr_gen to page 1. yosys> show -color maroon3 @new_cells -color cornflowerblue p:* -notitle -format dot -prefix addr_gen_hier 6. Generating Graphviz representation of design. Writing dot description to `addr_gen_hier.dot'. Dumping module addr_gen to page 1. yosys> proc -noopt 7. Executing PROC pass (convert processes to netlists). yosys> proc_clean 7.1. Executing PROC_CLEAN pass (remove empty switches from decision trees). Cleaned up 0 empty switches. yosys> proc_rmdead 7.2. Executing PROC_RMDEAD pass (remove dead branches from decision trees). Marked 2 switch rules as full_case in process $proc$fifo.v:12$1 in module addr_gen. Removed a total of 0 dead cases. yosys> proc_prune 7.3. Executing PROC_PRUNE pass (remove redundant assignments in processes). Removed 0 redundant assignments. Promoted 1 assignment to connection. yosys> proc_init 7.4. Executing PROC_INIT pass (extract init attributes). Found init rule in `\addr_gen.$proc$fifo.v:0$4'. Set init value: \addr = 8'00000000 yosys> proc_arst 7.5. Executing PROC_ARST pass (detect async resets in processes). Found async reset \rst in `\addr_gen.$proc$fifo.v:12$1'. yosys> proc_rom 7.6. Executing PROC_ROM pass (convert switches to ROMs). Converted 0 switches. yosys> proc_mux 7.7. Executing PROC_MUX pass (convert decision trees to multiplexers). Creating decoders for process `\addr_gen.$proc$fifo.v:0$4'. Creating decoders for process `\addr_gen.$proc$fifo.v:12$1'. 1/1: $0\addr[7:0] yosys> proc_dlatch 7.8. Executing PROC_DLATCH pass (convert process syncs to latches). yosys> proc_dff 7.9. Executing PROC_DFF pass (convert process syncs to FFs). Creating register for signal `\addr_gen.\addr' using process `\addr_gen.$proc$fifo.v:12$1'. created $adff cell `$procdff$10' with positive edge clock and positive level reset. yosys> proc_memwr 7.10. Executing PROC_MEMWR pass (convert process memory writes to cells). yosys> proc_clean 7.11. Executing PROC_CLEAN pass (remove empty switches from decision trees). Removing empty process `addr_gen.$proc$fifo.v:0$4'. Found and cleaned up 2 empty switches in `\addr_gen.$proc$fifo.v:12$1'. Removing empty process `addr_gen.$proc$fifo.v:12$1'. Cleaned up 2 empty switches. yosys> select -set new_cells t:$mux t:*dff yosys> show -color maroon3 @new_cells -notitle -format dot -prefix addr_gen_proc 8. Generating Graphviz representation of design. Writing dot description to `addr_gen_proc.dot'. Dumping module addr_gen to page 1. yosys> opt_expr 9. Executing OPT_EXPR pass (perform const folding). Optimizing module addr_gen. yosys> clean Removed 0 unused cells and 4 unused wires. yosys> select -set new_cells t:$eq yosys> show -color cornflowerblue @new_cells -notitle -format dot -prefix addr_gen_clean 10. Generating Graphviz representation of design. Writing dot description to `addr_gen_clean.dot'. Dumping module addr_gen to page 1. yosys> design -reset yosys> read_verilog fifo.v 11. Executing Verilog-2005 frontend: fifo.v Parsing Verilog input from `fifo.v' to AST representation. Generating RTLIL representation for module `\addr_gen'. Generating RTLIL representation for module `\fifo'. Successfully finished Verilog frontend. yosys> hierarchy -check -top fifo 12. Executing HIERARCHY pass (managing design hierarchy). 12.1. Analyzing design hierarchy.. Top module: \fifo Used module: \addr_gen Parameter \MAX_DATA = 256 12.2. Executing AST frontend in derive mode using pre-parsed AST for module `\addr_gen'. Parameter \MAX_DATA = 256 Generating RTLIL representation for module `$paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000'. Parameter \MAX_DATA = 256 Found cached RTLIL representation for module `$paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000'. 12.3. Analyzing design hierarchy.. Top module: \fifo Used module: $paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000 12.4. Analyzing design hierarchy.. Top module: \fifo Used module: $paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000 Removing unused module `\addr_gen'. Removed 1 unused modules. yosys> proc 13. Executing PROC pass (convert processes to netlists). yosys> proc_clean 13.1. Executing PROC_CLEAN pass (remove empty switches from decision trees). Cleaned up 0 empty switches. yosys> proc_rmdead 13.2. Executing PROC_RMDEAD pass (remove dead branches from decision trees). Marked 2 switch rules as full_case in process $proc$fifo.v:62$24 in module fifo. Marked 1 switch rules as full_case in process $proc$fifo.v:36$16 in module fifo. Marked 2 switch rules as full_case in process $proc$fifo.v:12$32 in module $paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000. Removed a total of 0 dead cases. yosys> proc_prune 13.3. Executing PROC_PRUNE pass (remove redundant assignments in processes). Removed 0 redundant assignments. Promoted 6 assignments to connections. yosys> proc_init 13.4. Executing PROC_INIT pass (extract init attributes). Found init rule in `\fifo.$proc$fifo.v:0$31'. Set init value: \count = 9'000000000 Found init rule in `$paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000.$proc$fifo.v:0$35'. Set init value: \addr = 8'00000000 yosys> proc_arst 13.5. Executing PROC_ARST pass (detect async resets in processes). Found async reset \rst in `\fifo.$proc$fifo.v:62$24'. Found async reset \rst in `$paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000.$proc$fifo.v:12$32'. yosys> proc_rom 13.6. Executing PROC_ROM pass (convert switches to ROMs). Converted 0 switches. yosys> proc_mux 13.7. Executing PROC_MUX pass (convert decision trees to multiplexers). Creating decoders for process `\fifo.$proc$fifo.v:0$31'. Creating decoders for process `\fifo.$proc$fifo.v:62$24'. 1/1: $0\count[8:0] Creating decoders for process `\fifo.$proc$fifo.v:36$16'. 1/3: $1$memwr$\data$fifo.v:38$15_EN[7:0]$22 2/3: $1$memwr$\data$fifo.v:38$15_DATA[7:0]$21 3/3: $1$memwr$\data$fifo.v:38$15_ADDR[7:0]$20 Creating decoders for process `$paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000.$proc$fifo.v:0$35'. Creating decoders for process `$paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000.$proc$fifo.v:12$32'. 1/1: $0\addr[7:0] yosys> proc_dlatch 13.8. Executing PROC_DLATCH pass (convert process syncs to latches). yosys> proc_dff 13.9. Executing PROC_DFF pass (convert process syncs to FFs). Creating register for signal `\fifo.\count' using process `\fifo.$proc$fifo.v:62$24'. created $adff cell `$procdff$55' with positive edge clock and positive level reset. Creating register for signal `\fifo.\rdata' using process `\fifo.$proc$fifo.v:36$16'. created $dff cell `$procdff$56' with positive edge clock. Creating register for signal `\fifo.$memwr$\data$fifo.v:38$15_ADDR' using process `\fifo.$proc$fifo.v:36$16'. created $dff cell `$procdff$57' with positive edge clock. Creating register for signal `\fifo.$memwr$\data$fifo.v:38$15_DATA' using process `\fifo.$proc$fifo.v:36$16'. created $dff cell `$procdff$58' with positive edge clock. Creating register for signal `\fifo.$memwr$\data$fifo.v:38$15_EN' using process `\fifo.$proc$fifo.v:36$16'. created $dff cell `$procdff$59' with positive edge clock. Creating register for signal `$paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000.\addr' using process `$paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000.$proc$fifo.v:12$32'. created $adff cell `$procdff$60' with positive edge clock and positive level reset. yosys> proc_memwr 13.10. Executing PROC_MEMWR pass (convert process memory writes to cells). yosys> proc_clean 13.11. Executing PROC_CLEAN pass (remove empty switches from decision trees). Removing empty process `fifo.$proc$fifo.v:0$31'. Found and cleaned up 2 empty switches in `\fifo.$proc$fifo.v:62$24'. Removing empty process `fifo.$proc$fifo.v:62$24'. Found and cleaned up 1 empty switch in `\fifo.$proc$fifo.v:36$16'. Removing empty process `fifo.$proc$fifo.v:36$16'. Removing empty process `$paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000.$proc$fifo.v:0$35'. Found and cleaned up 2 empty switches in `$paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000.$proc$fifo.v:12$32'. Removing empty process `$paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000.$proc$fifo.v:12$32'. Cleaned up 5 empty switches. yosys> opt_expr -keepdc 13.12. Executing OPT_EXPR pass (perform const folding). Optimizing module fifo. Optimizing module $paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000. yosys> select -set new_cells t:$memrd yosys> show -color maroon3 c:fifo_reader -color cornflowerblue @new_cells -notitle -format dot -prefix rdata_proc o:rdata %ci* 14. Generating Graphviz representation of design. Writing dot description to `rdata_proc.dot'. Dumping selected parts of module fifo to page 1. yosys> flatten 15. Executing FLATTEN pass (flatten design). Deleting now unused module $paramod\addr_gen\MAX_DATA=s32'00000000000000000000000100000000. yosys> clean Removed 3 unused cells and 25 unused wires. yosys> select -set rdata_path o:rdata %ci* yosys> select -set new_cells @rdata_path o:rdata %ci3 %d i:* %d yosys> show -color maroon3 @new_cells -notitle -format dot -prefix rdata_flat @rdata_path 16. Generating Graphviz representation of design. Writing dot description to `rdata_flat.dot'. Dumping selected parts of module fifo to page 1. yosys> opt_dff 17. Executing OPT_DFF pass (perform DFF optimizations). Adding EN signal on $procdff$55 ($adff) from module fifo (D = $0\count[8:0], Q = \count). Adding EN signal on $flatten\fifo_writer.$procdff$60 ($adff) from module fifo (D = $flatten\fifo_writer.$procmux$51_Y, Q = \fifo_writer.addr). Adding EN signal on $flatten\fifo_reader.$procdff$60 ($adff) from module fifo (D = $flatten\fifo_reader.$procmux$51_Y, Q = \fifo_reader.addr). yosys> select -set new_cells t:$adffe yosys> show -color maroon3 @new_cells -notitle -format dot -prefix rdata_adffe o:rdata %ci* 18. Generating Graphviz representation of design. Writing dot description to `rdata_adffe.dot'. Dumping selected parts of module fifo to page 1. yosys> wreduce 19. Executing WREDUCE pass (reducing word size of cells). Removed top 31 bits (of 32) from port B of cell fifo.$add$fifo.v:66$27 ($add). Removed top 23 bits (of 32) from port Y of cell fifo.$add$fifo.v:66$27 ($add). Removed top 31 bits (of 32) from port B of cell fifo.$sub$fifo.v:68$30 ($sub). Removed top 23 bits (of 32) from port Y of cell fifo.$sub$fifo.v:68$30 ($sub). Removed top 1 bits (of 2) from port B of cell fifo.$auto$opt_dff.cc:195:make_patterns_logic$66 ($ne). Removed cell fifo.$flatten\fifo_writer.$procmux$53 ($mux). Removed top 31 bits (of 32) from port B of cell fifo.$flatten\fifo_writer.$add$fifo.v:19$34 ($add). Removed top 24 bits (of 32) from port Y of cell fifo.$flatten\fifo_writer.$add$fifo.v:19$34 ($add). Removed cell fifo.$flatten\fifo_reader.$procmux$53 ($mux). Removed top 31 bits (of 32) from port B of cell fifo.$flatten\fifo_reader.$add$fifo.v:19$34 ($add). Removed top 24 bits (of 32) from port Y of cell fifo.$flatten\fifo_reader.$add$fifo.v:19$34 ($add). Removed top 23 bits (of 32) from wire fifo.$add$fifo.v:66$27_Y. Removed top 24 bits (of 32) from wire fifo.$flatten\fifo_reader.$add$fifo.v:19$34_Y. yosys> show -notitle -format dot -prefix rdata_wreduce o:rdata %ci* 20. Generating Graphviz representation of design. Writing dot description to `rdata_wreduce.dot'. Dumping selected parts of module fifo to page 1. yosys> opt_clean 21. Executing OPT_CLEAN pass (remove unused cells and wires). Finding unused cells or wires in module \fifo.. Removed 0 unused cells and 4 unused wires. yosys> memory_dff 22. Executing MEMORY_DFF pass (merging $dff cells to $memrd). Checking read port `\data'[0] in module `\fifo': merging output FF to cell. Write port 0: non-transparent. yosys> select -set new_cells t:$memrd_v2 yosys> show -color maroon3 @new_cells -notitle -format dot -prefix rdata_memrdv2 o:rdata %ci* 23. Generating Graphviz representation of design. Writing dot description to `rdata_memrdv2.dot'. Dumping selected parts of module fifo to page 1. yosys> alumacc 24. Executing ALUMACC pass (create $alu and $macc cells). Extracting $alu and $macc cells in module fifo: creating $macc model for $add$fifo.v:66$27 ($add). creating $macc model for $flatten\fifo_reader.$add$fifo.v:19$34 ($add). creating $macc model for $flatten\fifo_writer.$add$fifo.v:19$34 ($add). creating $macc model for $sub$fifo.v:68$30 ($sub). creating $alu model for $macc $sub$fifo.v:68$30. creating $alu model for $macc $flatten\fifo_writer.$add$fifo.v:19$34. creating $alu model for $macc $flatten\fifo_reader.$add$fifo.v:19$34. creating $alu model for $macc $add$fifo.v:66$27. creating $alu cell for $add$fifo.v:66$27: $auto$alumacc.cc:485:replace_alu$80 creating $alu cell for $flatten\fifo_reader.$add$fifo.v:19$34: $auto$alumacc.cc:485:replace_alu$83 creating $alu cell for $flatten\fifo_writer.$add$fifo.v:19$34: $auto$alumacc.cc:485:replace_alu$86 creating $alu cell for $sub$fifo.v:68$30: $auto$alumacc.cc:485:replace_alu$89 created 4 $alu and 0 $macc cells. yosys> select -set new_cells t:$alu t:$macc yosys> show -color maroon3 @new_cells -notitle -format dot -prefix rdata_alumacc o:rdata %ci* 25. Generating Graphviz representation of design. Writing dot description to `rdata_alumacc.dot'. Dumping selected parts of module fifo to page 1. yosys> memory_collect 26. Executing MEMORY_COLLECT pass (generating $mem cells). yosys> select -set new_cells t:$mem_v2 yosys> select -set rdata_path @new_cells %ci*:-$mem_v2[WR_DATA,WR_ADDR,WR_EN] @new_cells %co* %% yosys> show -color maroon3 @new_cells -notitle -format dot -prefix rdata_coarse @rdata_path 27. Generating Graphviz representation of design. Writing dot description to `rdata_coarse.dot'. Dumping selected parts of module fifo to page 1.