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[/] [openrisc/] [trunk/] [orpsocv2/] [boards/] [actel/] [ordb1a3pe1500/] [syn/] [synplify/] [bin/] [Makefile] - Rev 542
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#
# Makefile for synthesis
#
# To generate the EDIF, just do "# make all"
#
# To synthesize for older ORSoC board with A3P1000, do:
# # make clean all FPGA_FAMILY=ProASIC3 FPGA_PART=A3P1000
#
# Note: correct pll model must be linked in backend path.
#
# Name of the directory we're currently in
CUR_DIR=$(shell pwd)
# The root path of the whole project
BOARD_ROOT ?=$(CUR_DIR)/../../..
# Makefile fragment with most of the setup
include $(BOARD_ROOT)/Makefile.inc
# Tool settings
# For Linux, the Actel licenses only support Synplify Pro
SYN_WORK_DIR ?=synplify_work
SYN_SCRIPT ?=synplify.prj # We will generate this
SYN_LOG ?=syn.log
SYN_TOOL ?=synplify_pro # Name of the executable to call
# Options passed after the executable.
SYN_LICENSE_OPTS ?=-licensetype synplifypro_actel
SYN_TOOL_OPTS ?=$(SYN_SCRIPT) $(SYN_LICENSE_OPTS) -batch -log $(SYN_LOG)
SYN_PROJ_NAME ?= $(DESIGN_NAME)
RTL_TOP ?= $(DESIGN_NAME)_top
EDIF_FILE ?=$(RTL_TOP).edn
EDIF_FILE_OUT ?= ../out/$(EDIF_FILE)
VLOG_NETLIST_FILE ?=$(RTL_TOP).vm
VLOG_NETLIST_FILE_OUT ?= ../out/$(VLOG_NETLIST_FILE)
# Synthesis params
#FREQ ?= 50.0000
FREQ ?= 125.000
FPGA_FAMILY ?=ProASIC3E
#FPGA_PART ?=A3P1000
FPGA_PART ?=A3PE1500
FPGA_PACKAGE ?=PQFP208
#FPGA_SPEED_GRADE ?=-2
FPGA_SPEED_GRADE ?=Std
MAXFAN ?=50
MAXFAN_HARD ?=0
RETIMING ?=1
GLOBALTHRESH ?=50
DISABLE_IO_INSERTION ?= 0
RESOURCE_SHARING ?=1
# Time reporting variable
NUM_PATHS=50
NUM_ENDPOINTS=50
SDC_FILE=$(DESIGN_NAME)_top.sdc
# Rule to print out current config of current session
print-config:
@echo; echo "\t### Synthesis make configuration ###"; echo
@echo "\tRTL_TOP="$(RTL_TOP)
@echo "\tFPGA_FAMILY="$(FPGA_FAMILY)
@echo "\tFPGA_PART="$(FPGA_PART)
@echo "\tFPGA_PACKAGE="$(FPGA_PACKAGE)
@echo "\tFPGA_SPEED_GRADE="$(FPGA_SPEED_GRADE)
@echo "\tFREQ="$(FREQ)
@echo "\tMAXFAN="$(MAXFAN)
@echo "\tMAXFAN_HARD="$(MAXFAN_HARD)
@echo "\tRETIMING="$(RETIMING)
@echo "\tGLOBALTHRESH="$(GLOBALTHRESH)
@echo "\tDISABLE_IO_INSERTION="$(DISABLE_IO_INSERTION)
@echo "\tRESOURCE_SHARING="$(RESOURCE_SHARING)
@echo
all: print-config $(EDIF_FILE_OUT) $(VLOG_NETLIST_FILE_OUT)
#create the work dir
$(SYN_WORK_DIR):
mkdir $(SYN_WORK_DIR)
#
# Dynamically created files included by different parts of the defines
#
SYNDIR_BOOTROM_VERILOG=$(SYN_WORK_DIR)/$(BOOTROM_FILE)
$(SYNDIR_BOOTROM_VERILOG): $(BOOTROM_VERILOG)
cp $^ $@
TIMESCALE_FILE=timescale.v
SYNDIR_TIMESCALE_FILE=$(SYN_WORK_DIR)/$(TIMESCALE_FILE)
$(SYNDIR_TIMESCALE_FILE):
$(Q)echo "" > $@
SYN_VERILOG_DEFINES=synthesis-defines.v
SYNDIR_SYN_VERILOG_DEFINES=$(SYN_WORK_DIR)/$(SYN_VERILOG_DEFINES)
$(SYNDIR_SYN_VERILOG_DEFINES):
$(Q)echo "\`define SYNTHESIS" > $@
$(Q)echo "\`define ACTEL" >> $@
$(Q)echo "" >> $@
GENERATED_DEFINES = $(SYNDIR_BOOTROM_VERILOG)
GENERATED_DEFINES += $(SYNDIR_TIMESCALE_FILE)
GENERATED_DEFINES += $(SYNDIR_SYN_VERILOG_DEFINES)
# Generate the prj file
.PHONY: $(SYN_WORK_DIR)/$(SYN_SCRIPT)
$(SYN_WORK_DIR)/$(SYN_SCRIPT): $(SYN_WORK_DIR) $(RTL_VERILOG_SRC) $(RTL_VERILOG_INCLUDES) $(GENERATED_DEFINES) $(SYN_WORK_DIR)/$(SDC_FILE)
$(Q)echo; echo "\t### Generating Synplify project file ###"; echo
$(Q)echo -n "# Autogenerated synthesis script " > $@
$(Q)date >> $@
$(Q)for file in $(RTL_VERILOG_SRC); do \
echo "add_file -verilog "$$file >> $@; \
done
$(Q)for file in $(RTL_VHDL_SRC); do \
echo "add_file -vhdl "$$file >> $@; \
done
$(Q)for file in $(BOARD_BACKEND_VERILOG_SRC); do \
echo "add_file -verilog "$$file >> $@; \
done
$(Q)echo "add_file -constraint "$(SDC_FILE) >> $@
$(Q)echo "set_option -include_path "$(BOARD_RTL_VERILOG_INCLUDE_DIR) >> $@
$(Q)echo "set_option -include_path ." >> $@
$(Q)echo "impl -add "$(SYN_PROJ_NAME)" -type fpga" >> $@
$(Q)echo "set_option -technology "$(FPGA_FAMILY) >> $@
$(Q)echo "set_option -part "$(FPGA_PART) >> $@
$(Q)echo "set_option -package "$(FPGA_PACKAGE) >> $@
$(Q)echo "set_option -speed_grade "$(FPGA_SPEED_GRADE) >> $@
$(Q)echo "set_option -part_companion \"\"" >> $@
$(Q)echo "set_option -use_fsm_explorer 0" >> $@
$(Q)echo "set_option -top_module \""$(RTL_TOP)"\"" >> $@
$(Q)echo "set_option -symbolic_fsm_compiler 1" >> $@
$(Q)echo "set_option -compiler_compatible 0" >> $@
$(Q)echo "set_option -resource_sharing "$(RESOURCE_SHARING) >> $@
$(Q)echo "set_option -frequency "$(FREQ) >> $@
$(Q)echo "set_option -write_verilog 1" >> $@
$(Q)echo "set_option -write_vhdl 0" >> $@
$(Q)echo "set_option -run_prop_extract 1" >> $@
$(Q)echo "set_option -maxfan "$(MAXFAN) >> $@
$(Q)echo "set_option -maxfan_hard "$(MAXFAN_HARD) >> $@
$(Q)echo "set_option -disable_io_insertion "$(DISABLE_IO_INSERTION) >> $@
$(Q)echo "set_option -retiming "$(RETIMING) >> $@
$(Q)echo "set_option -report_path 4000" >> $@
$(Q)echo "set_option -opcond COMWC" >> $@
$(Q)echo "set_option -update_models_cp 0" >> $@
$(Q)echo "set_option -preserve_registers 0" >> $@
$(Q)echo "set_option -globalthreshold "$(GLOBALTHRESH) >> $@
$(Q)echo "set_option -syn_global_buffers 18" >> $@
$(Q)echo "set_option -reporting_filter {-from {*} -to {*}}" >> $@
$(Q)echo "set_option -reporting_filename "$(RTL_TOP)".ta" >> $@
$(Q)echo "set_option -reporting_output_srm 0" >> $@
$(Q)echo "set_option -write_apr_constraint 1" >> $@
$(Q)echo "project -result_format \"edif\"" >> $@
$(Q)echo "project -result_file \""$(EDIF_FILE)"\"" >> $@
$(Q)echo "set_option -vlog_std v2001" >> $@
$(Q)echo "set_option -num_startend_points "$(NUM_ENDPOINTS) >> $@
$(Q)echo "set_option -num_critical_paths "$(NUM_PATHS) >> $@
$(Q)echo "set_option -project_relative_includes 1" >> $@
$(Q)echo "impl -active \""$(SYN_PROJ_NAME)"\"" >> $@
#
# Constraint script generation
#
IN_CLK_PERIOD_NS = 15.625 # 64 MHz
WB_CLK_PERIOD_NS = 31.25 # 32 MHz
#
# Timing (SDC)
#
# I can't figure out how to get these constraints into synplify properly..
# but doesn't really appear to matter, we simply overconstrain the whole
# thing to fastest frequency we need, which is currently:
# SMII @ 125MHz
#
$(SYN_WORK_DIR)/$(SDC_FILE):
$(Q)echo; echo "\t### Generating SDC file ###"; echo
$(Q)rm -f $@
$(Q)echo >> $@
# $(Q)echo "create_clock -name { sys_clk } -period "$(IN_CLK_PERIOD_NS)" { p:sys_clk } " >> $@
# $(Q)echo "create_clock -name { tck_pad_i } -period 100.000 -waveform { 0.000 50.000 } { p:tck_pad_i } " >> $@
# $(Q)echo "create_generated_clock -name { clkgen0/pll0/Core:GLA } -divide_by 72 -multiply_by 36 -source { clkgen0/pll0/Core:CLKA } { clkgen0/pll0/Core:GLA }" >> $@
# $(Q)echo "create_generated_clock -name { clkgen0/pll0/Core:GLB } -divide_by 36 -multiply_by 36 -source { clkgen0/pll0/Core:CLKA } { clkgen0/pll0/Core:GLB } " >> $@
# $(Q)echo "create_generated_clock -name { clkgen0.pll0.wb_clk_i } -divide_by 72 -multiply_by 36 -source { t:clkgen0.pll0.wb_clk_i } { t:clkgen0.pll0.wb_clk_i }" >> $@
# change into work dir, call synplify, hopefully create the edif
$(SYN_WORK_DIR)/$(SYN_PROJ_NAME)/$(EDIF_FILE): $(SYN_WORK_DIR)/$(SYN_SCRIPT)
cd $(SYN_WORK_DIR) && time $(SYN_TOOL) $(SYN_TOOL_OPTS)
##
# Generate a report for each module, and for whole thing
##
MODULES ?= or1200_top
MODULES_SRR=$(shell for mod in $(MODULES); do echo $(SYN_WORK_DIR)"/"$(SYN_PROJ_NAME)"/"$$mod".srr"; done)
syn-report: $(MODULES_SRR)
rm -f $@
for srrfile in $^; do \
echo `echo $$srrfile | xargs basename | cut -d '.' -f 1`>> $@; \
grep "Core Cells" $$srrfile >> $@; \
grep "Block Rams" $$srrfile >> $@; \
grep -B 1 -A 5 "Starting Clock" $$srrfile >> $@; \
echo >> $@; echo >> $@; \
done
%.srr:
@echo; echo "\tGenerating "$@; echo
export RTL_TOP=$(shell echo $@ | xargs basename | cut -d '.' -f 1); \
$(MAKE) $(SYN_WORK_DIR)/$(SYN_PROJ_NAME)/$$RTL_TOP.edn
$(EDIF_FILE_OUT): $(SYN_WORK_DIR)/$(SYN_PROJ_NAME)/$(EDIF_FILE)
cp $^ $@
$(VLOG_NETLIST_FILE_OUT): $(SYN_WORK_DIR)/$(SYN_PROJ_NAME)/$(VLOG_NETLIST_FILE)
cp $^ $@
distclean: clean-sw clean clean-bootrom clean-edifs
clean-sw:
$(MAKE) -C $(PROJECT_ROOT)/sw/lib distclean
clean: clean-build
clean-edifs:
rm -f *.edn ../out/*
clean-build:
rm -rf $(SYN_WORK_DIR) *.edn
clean-srr:
rm $(MODULES_SRR)