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[/] [openrisc/] [trunk/] [or1200/] [syn/] [synopsys/] [bin/] [top.scr] - Rev 410
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/* * Examples of Synopsys Design Compiler * synthesis script for OR1200 IP core * */ TOPLEVEL = or1200_top TECH = vs_umc18 /* vs_umc18, art_umc18 */ CLK = clk_i RST = rst_i CLK_PERIOD = 5 /* 200 MHz */ MAX_AREA = 0 /* Push hard */ DO_UNGROUP = no /* yes, no */ DO_VERIFY = no /* yes, no */ CLK_UNCERTAINTY = 0.1 /* 100 ps */ DFF_CKQ = 0.2 /* Clk to Q in technology time units */ DFF_SETUP = 0.1 /* Setup time in technology time units */ /* Starting timestamp */ sh date /* * Set some basic variables related to environment * */ /* Enable Verilog HDL preprocessor */ hdlin_enable_vpp = true /* Set log path */ LOG_PATH = "../log/" /* Set gate-level netlist path */ GATE_PATH = "../out/" /* Set RAMS_PATH */ RAMS_PATH = "../../../lib/" /* Set RTL source path */ RTL_PATH = { "../../../rtl/verilog/" } /* Optimize adders */ synlib_model_map_effort = high hlo_share_effort = low STAGE = final /* * Load libraries * */ /* Search paths */ search_path = {. /libs/Artisan/aci/sc-x/synopsys/ } + \ { /libs/Artisan/aci/sc-x/symbols/synopsys/ } + \ { /libs/art_rams/ } + \ { /libs/vs_rams/ /usr/dc/libraries/syn/ } + \ { /libs/Virtual_silicon/UMCL18U250D2_2.1/design_compiler/ } /* Synthetic libraries */ snps = get_unix_variable("SYNOPSYS") synthetic_library = { \ snps + "/libraries/syn/dw01.sldb" \ snps + "/libraries/syn/dw02.sldb" \ snps + "/libraries/syn/dw03.sldb" \ snps + "/libraries/syn/dw04.sldb" \ snps + "/libraries/syn/dw05.sldb" \ snps + "/libraries/syn/dw06.sldb" \ snps + "/libraries/syn/dw07.sldb" } /* Set Artisan Sage-X UMC 0.18u standard cell library */ if (TECH == "art_umc18") { target_library = { slow.db \ vs_hdsp_2048x32_wc_1.08V_125C.db \ vs_hdsp_2048x8_tc_1.2V_25C.db \ vs_hdsp_512x20_wc_1.08V_125C.db \ vs_hdsp_64x14_wc_1.08V_125C.db \ vs_hdsp_64x22_wc_1.08V_125C.db \ vs_hdsp_64x24_wc_1.08V_125C.db \ vs_hdtp_64x32_wc_1.08V_125C.db \ } symbol_library = { umc18.sdb } } /* Set Virtual Silicon UMC 0.18u standard cell library */ if (TECH == "vs_umc18") { target_library = { umcl18u250t2_wc.db \ vs_hdsp_2048x32_wc_1.08V_125C.db \ vs_hdsp_2048x8_wc_1.08V_125C.db \ vs_hdsp_512x20_wc_1.08V_125C.db \ vs_hdsp_64x14_wc_1.08V_125C.db \ vs_hdsp_64x22_wc_1.08V_125C.db \ vs_hdsp_64x24_wc_1.08V_125C.db \ vs_hdtp_64x32_wc_1.08V_125C.db \ } symbol_library = { umcl18u250t2.sdb } } link_library = target_library + synthetic_library /* * Load HDL source files * */ include ../bin/read_design.inc > LOG_PATH + read_design_ + TOPLEVEL + .log /* Set design top */ current_design TOPLEVEL /* Link all blocks and uniquify them */ link uniquify check_design > LOG_PATH + check_design_ + TOPLEVEL + .log /* * Apply constraints * */ if (TECH == "vs_umc18") { DFF_CELL = DFFPQ2 LIB_DFF_D = umcl18u250t2_wc/DFFPQ2/D OPER_COND = WORST } else if (TECH == "art_umc18") { DFF_CELL = DFFHQX2 LIB_DFF_D = slow/DFFHQX2/D OPER_COND = slow } else { echo "Error: Unsupported technology" exit } /* Clocks constraints */ create_clock dwb_clk_i -period CLK_PERIOD create_clock iwb_clk_i -period CLK_PERIOD create_clock CLK -period CLK_PERIOD set_clock_skew all_clocks() -uncertainty CLK_UNCERTAINTY set_dont_touch_network all_clocks() /* Reset constraints */ set_driving_cell -none RST set_drive 0 RST set_dont_touch_network RST /* All inputs except reset and clock */ all_inputs_wo_rst_clk = all_inputs() - CLK - RST /* Set output delays and load for output signals * * All outputs are assumed to go directly into * external flip-flops for the purpose of this * synthesis */ set_output_delay DFF_SETUP -clock CLK all_outputs() set_load load_of(LIB_DFF_D) * 4 all_outputs() /* Input delay and driving cell of all inputs * * All these signals are assumed to come directly from * flip-flops for the purpose of this synthesis * */ set_input_delay DFF_CKQ -clock CLK all_inputs_wo_rst_clk set_driving_cell -cell DFF_CELL -pin Q all_inputs_wo_rst_clk /* Set design fanout */ /* set_max_fanout 10 TOPLEVEL */ /* Optimize all near-critical paths to give extra slack for layout */ c_range = CLK_PERIOD * 0.10 group_path -critical_range c_range -name CLK -to CLK /* Operating conditions */ set_operating_conditions OPER_COND /* Lets do basic synthesis */ if (DO_UNGROUP == "yes") { ungroup -all } set_ultra_optimization -f compile_new_optimization = true /* set_structure -boolean false -timing true set_flatten -effort medium -minimize single_output */ /* set_flatten false */ /* compile -boundary_optimization -map_effort medium -ungroup_all */ compile -boundary_optimization -map_effort high -auto_ungroup /* compile -map_effort low */ /* Save current design using synopsys format */ write -hierarchy -format db -output GATE_PATH + STAGE + _ + TOPLEVEL + .db /* Save current design using verilog format */ write -hierarchy -format verilog -output GATE_PATH + STAGE + _ + TOPLEVEL + .v /* Basic reports */ report_area > LOG_PATH + STAGE + _ + TOPLEVEL + _area.log report_timing -nworst 10 > LOG_PATH + STAGE + _ + TOPLEVEL + _timing.log report_hierarchy > LOG_PATH + STAGE + _ + TOPLEVEL + _hierarchy.log report_resources > LOG_PATH + STAGE + _ + TOPLEVEL + _resources.log report_references > LOG_PATH + STAGE + _ + TOPLEVEL + _references.log report_constraint > LOG_PATH + STAGE + _ + TOPLEVEL + _constraint.log report_ultra_optimizations > LOG_PATH + STAGE + _ + TOPLEVEL + _ultra_optimizations.log /* report_power > LOG_PATH + STAGE + _ + TOPLEVEL + _power.log */ /* Verify design */ if (DO_VERIFY == "yes") { compile -no_map -verify > LOG_PATH + verify_ + TOPLEVEL + .log } /* Finish */ sh date exit
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