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https://opencores.org/ocsvn/mjpeg-decoder_new/mjpeg-decoder_new/trunk
Subversion Repositories mjpeg-decoder_new
[/] [mjpeg-decoder/] [trunk/] [mjpeg/] [system.make] - Rev 2
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#################################################################
# Makefile generated by Xilinx Platform Studio
# Project:/home/smanz/Diplomarbeit/main/trunk/mjpeg/system.xmp
#################################################################
# Name of the Microprocessor system
# The hardware specification of the system is in file :
# /home/smanz/Diplomarbeit/main/trunk/mjpeg/system.mhs
# The software specification of the system is in file :
# /home/smanz/Diplomarbeit/main/trunk/mjpeg/system.mss
include system_incl.make
#################################################################
# EXTERNAL TARGETS
#################################################################
all:
@echo "Makefile to build a Microprocessor system :"
@echo "Run make with any of the following targets"
@echo " "
@echo " netlist : Generates the netlist for the given MHS "
@echo " bits : Runs Implementation tools to generate the bitstream"
@echo " exporttopn:Export to ProjNav"
@echo " "
@echo " libs : Configures the sw libraries for this system"
@echo " program : Compiles the program sources for all the processor instances"
@echo " "
@echo " init_bram: Initializes bitstream with BRAM data"
@echo " ace : Generate ace file from bitstream and elf"
@echo " download : Downloads the bitstream onto the board"
@echo " "
@echo " sim : Generates HDL simulation models and runs simulator for chosen simulation mode"
@echo " simmodel : Generates HDL simulation models for chosen simulation mode"
@echo " behavioral:Generates behavioral HDL models with BRAM initialization"
@echo " structural:Generates structural simulation HDL models with BRAM initialization"
@echo " timing : Generates timing simulation HDL models with BRAM initialization"
@echo " vp : Generates virtual platform model"
@echo " "
@echo " netlistclean: Deletes netlist"
@echo " bitsclean: Deletes bit, ncd, bmm files"
@echo " hwclean : Deletes implementation dir"
@echo " libsclean: Deletes sw libraries"
@echo " programclean: Deletes compiled ELF files"
@echo " swclean : Deletes sw libraries and ELF files"
@echo " simclean : Deletes simulation dir"
@echo " vpclean : Deletes virtualplatform dir"
@echo " clean : Deletes all generated files/directories"
@echo " "
@echo " make <target> : (Default)"
@echo " Creates a Microprocessor system using default initializations"
@echo " specified for each processor in MSS file"
bits: $(SYSTEM_BIT)
ace: $(SYSTEM_ACE)
netlist: $(POSTSYN_NETLIST)
libs: $(LIBRARIES)
program: $(ALL_USER_ELF_FILES)
download: $(DOWNLOAD_BIT) dummy
@echo "*********************************************"
@echo "Downloading Bitstream onto the target board"
@echo "*********************************************"
impact -batch etc/download.cmd
init_bram: $(DOWNLOAD_BIT)
sim: $(DEFAULT_SIM_SCRIPT)
cd simulation/behavioral; \
$(SIM_CMD) &
simmodel: $(DEFAULT_SIM_SCRIPT)
behavioral_model: $(BEHAVIORAL_SIM_SCRIPT)
structural_model: $(STRUCTURAL_SIM_SCRIPT)
vp: $(VPEXEC)
clean: hwclean libsclean programclean simclean vpclean
rm -f _impact.cmd
hwclean: netlistclean bitsclean
rm -rf implementation synthesis xst hdl
rm -rf xst.srp $(SYSTEM).srp
netlistclean:
rm -f $(POSTSYN_NETLIST)
rm -f $(BMM_FILE)
bitsclean:
rm -f $(SYSTEM_BIT)
rm -f implementation/$(SYSTEM).ncd
rm -f implementation/$(SYSTEM)_bd.bmm
bitsclean:
simclean:
rm -rf simulation/behavioral
swclean: libsclean programclean
@echo ""
libsclean: $(LIBSCLEAN_TARGETS)
programclean: $(PROGRAMCLEAN_TARGETS)
vpclean:
rm -rf virtualplatform
#################################################################
# SOFTWARE PLATFORM FLOW
#################################################################
$(LIBRARIES): $(MHSFILE) $(MSSFILE) __xps/libgen.opt
@echo "*********************************************"
@echo "Creating software libraries..."
@echo "*********************************************"
libgen $(LIBGEN_OPTIONS) $(MSSFILE)
ppc405_0_libsclean:
rm -rf ppc405_0/lib/
ppc405_1_libsclean:
rm -rf ppc405_1/lib/
#################################################################
# SOFTWARE APPLICATION TESTAPP_MEMORY
#################################################################
TestApp_Memory_program: $(TESTAPP_MEMORY_OUTPUT)
$(TESTAPP_MEMORY_OUTPUT) : $(TESTAPP_MEMORY_SOURCES) $(TESTAPP_MEMORY_HEADERS) $(TESTAPP_MEMORY_LINKER_SCRIPT) \
$(LIBRARIES) __xps/testapp_memory_compiler.opt
@mkdir -p $(TESTAPP_MEMORY_OUTPUT_DIR)
$(TESTAPP_MEMORY_CC) $(TESTAPP_MEMORY_CC_OPT) $(TESTAPP_MEMORY_SOURCES) -o $(TESTAPP_MEMORY_OUTPUT) \
$(TESTAPP_MEMORY_OTHER_CC_FLAGS) $(TESTAPP_MEMORY_INCLUDES) $(TESTAPP_MEMORY_LIBPATH) \
$(TESTAPP_MEMORY_CFLAGS) $(TESTAPP_MEMORY_LFLAGS)
$(TESTAPP_MEMORY_CC_SIZE) $(TESTAPP_MEMORY_OUTPUT)
@echo ""
TestApp_Memory_programclean:
rm -f $(TESTAPP_MEMORY_OUTPUT)
#################################################################
# SOFTWARE APPLICATION TESTAPP_PERIPHERAL
#################################################################
TestApp_Peripheral_program: $(TESTAPP_PERIPHERAL_OUTPUT)
$(TESTAPP_PERIPHERAL_OUTPUT) : $(TESTAPP_PERIPHERAL_SOURCES) $(TESTAPP_PERIPHERAL_HEADERS) $(TESTAPP_PERIPHERAL_LINKER_SCRIPT) \
$(LIBRARIES) __xps/testapp_peripheral_compiler.opt
@mkdir -p $(TESTAPP_PERIPHERAL_OUTPUT_DIR)
$(TESTAPP_PERIPHERAL_CC) $(TESTAPP_PERIPHERAL_CC_OPT) $(TESTAPP_PERIPHERAL_SOURCES) -o $(TESTAPP_PERIPHERAL_OUTPUT) \
$(TESTAPP_PERIPHERAL_OTHER_CC_FLAGS) $(TESTAPP_PERIPHERAL_INCLUDES) $(TESTAPP_PERIPHERAL_LIBPATH) \
$(TESTAPP_PERIPHERAL_CFLAGS) $(TESTAPP_PERIPHERAL_LFLAGS)
$(TESTAPP_PERIPHERAL_CC_SIZE) $(TESTAPP_PERIPHERAL_OUTPUT)
@echo ""
TestApp_Peripheral_programclean:
rm -f $(TESTAPP_PERIPHERAL_OUTPUT)
#################################################################
# BOOTLOOP ELF FILES
#################################################################
$(PPC405_0_BOOTLOOP): $(PPC405_BOOTLOOP)
@mkdir -p $(BOOTLOOP_DIR)
cp -f $(PPC405_BOOTLOOP) $(PPC405_0_BOOTLOOP)
$(PPC405_1_BOOTLOOP): $(PPC405_BOOTLOOP)
@mkdir -p $(BOOTLOOP_DIR)
cp -f $(PPC405_BOOTLOOP) $(PPC405_1_BOOTLOOP)
#################################################################
# HARDWARE IMPLEMENTATION FLOW
#################################################################
$(BMM_FILE) \
$(WRAPPER_NGC_FILES): $(MHSFILE) __xps/platgen.opt \
$(CORE_STATE_DEVELOPMENT_FILES)
@echo "****************************************************"
@echo "Creating system netlist for hardware specification.."
@echo "****************************************************"
platgen $(PLATGEN_OPTIONS) $(MHSFILE)
$(POSTSYN_NETLIST): $(WRAPPER_NGC_FILES)
@echo "Running synthesis..."
bash -c "cd synthesis; ./synthesis.sh"
$(SYSTEM_BIT): $(FPGA_IMP_DEPENDENCY)
@echo "*********************************************"
@echo "Running Xilinx Implementation tools.."
@echo "*********************************************"
@cp -f $(UCF_FILE) implementation/$(SYSTEM).ucf
@cp -f $(XFLOW_OPT_FILE) implementation/xflow.opt
xflow -wd implementation -p $(DEVICE) -implement xflow.opt $(SYSTEM).ngc
@echo "*********************************************"
@echo "Running Bitgen.."
@echo "*********************************************"
@cp -f $(BITGEN_UT_FILE) implementation/bitgen.ut
cd implementation; bitgen -w -f bitgen.ut $(SYSTEM)
exporttopn:
@echo "You have chosen XPS for implementation tool flow."
@echo "Please select ProjNav as your implementation flow in Project Options."
@echo "In batch mode, use commad xset pnproj <nplfile>."
$(DOWNLOAD_BIT): $(SYSTEM_BIT) $(BRAMINIT_ELF_FILES) __xps/bitinit.opt
@cp -f implementation/$(SYSTEM)_bd.bmm .
@echo "*********************************************"
@echo "Initializing BRAM contents of the bitstream"
@echo "*********************************************"
bitinit $(MHSFILE) $(SEARCHPATHOPT) $(BRAMINIT_ELF_FILE_ARGS) \
-bt $(SYSTEM_BIT) -o $(DOWNLOAD_BIT)
@rm -f $(SYSTEM)_bd.bmm
$(SYSTEM_ACE):
@echo "In order to generate ace file, you must have:-"
@echo "- exactly one processor."
@echo "- opb_mdm, if using microblaze."
#################################################################
# SIMULATION FLOW
#################################################################
################## BEHAVIORAL SIMULATION ##################
$(BEHAVIORAL_SIM_SCRIPT): $(MHSFILE) __xps/simgen.opt \
$(BRAMINIT_ELF_FILES)
@echo "*********************************************"
@echo "Creating behavioral simulation models..."
@echo "*********************************************"
simgen $(SIMGEN_OPTIONS) -m behavioral $(MHSFILE)
################## STRUCTURAL SIMULATION ##################
$(STRUCTURAL_SIM_SCRIPT): $(WRAPPER_NGC_FILES) __xps/simgen.opt \
$(BRAMINIT_ELF_FILES)
@echo "*********************************************"
@echo "Creating structural simulation models..."
@echo "*********************************************"
simgen $(SIMGEN_OPTIONS) -sd implementation -m structural $(MHSFILE)
################## TIMING SIMULATION ##################
$(TIMING_SIM_SCRIPT): $(SYSTEM_BIT) __xps/simgen.opt \
$(BRAMINIT_ELF_FILES)
@echo "*********************************************"
@echo "Creating timing simulation models..."
@echo "*********************************************"
simgen $(SIMGEN_OPTIONS) -sd implementation -m timing $(MHSFILE)
#################################################################
# VIRTUAL PLATFORM FLOW
#################################################################
$(VPEXEC): $(MHSFILE) __xps/vpgen.opt
@echo "****************************************************"
@echo "Creating virtual platform for hardware specification.."
@echo "****************************************************"
vpgen $(VPGEN_OPTIONS) $(MHSFILE)
dummy:
@echo ""
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