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[/] [openrisc/] [trunk/] [orpsocv2/] [boards/] [xilinx/] [atlys/] [backend/] [par/] [bin/] [Makefile] - Rev 868
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######################################################################
#### ####
#### ORPSoC Xilinx backend Makefile ####
#### ####
#### Author(s): ####
#### - Julius Baxter, julius@opencores.org ####
#### ####
#### ####
######################################################################
#### ####
#### Copyright (C) 2009,2010,2011 Authors and OPENCORES.ORG ####
#### ####
#### This source file may be used and distributed without ####
#### restriction provided that this copyright statement is not ####
#### removed from the file and that any derivative work contains ####
#### the original copyright notice and the associated disclaimer. ####
#### ####
#### This source file is free software; you can redistribute it ####
#### and/or modify it under the terms of the GNU Lesser General ####
#### Public License as published by the Free Software Foundation; ####
#### either version 2.1 of the License, or (at your option) any ####
#### later version. ####
#### ####
#### This source is distributed in the hope that it will be ####
#### useful, but WITHOUT ANY WARRANTY; without even the implied ####
#### warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR ####
#### PURPOSE. See the GNU Lesser General Public License for more ####
#### details. ####
#### ####
#### You should have received a copy of the GNU Lesser General ####
#### Public License along with this source; if not, download it ####
#### from http://www.opencores.org/lgpl.shtml ####
#### ####
######################################################################
# Name of the directory we're currently in
CUR_DIR=$(shell pwd)
# The root path of the board build
BOARD_ROOT ?=$(CUR_DIR)/../../..
include $(BOARD_ROOT)/Makefile.inc
#
# Options for Xilinx PAR tools
#
FPGA_PART=xc6slx45-2-csg324
ifeq ($(V), 1)
XILINX_FLAGS ?=
else
XILINX_FLAGS ?=-intstyle silent
endif
XILINX_MAP_FLAGS=-logic_opt off
XILINX_AREA_TARGET = speed
TIMING_REPORT_OPTIONS = -u 1000 -e 1000
SPI_FLASH_SIZE_KBYTES ?=16384
SPI_BOOTLOADER_SW_OFFSET_HEX ?=1c0000
print-config:
$(Q)echo; echo "\t### Backend make configuration ###"; echo
$(Q)echo "\tFPGA_PART="$(FPGA_PART)
$(Q)echo "\tXILINX_FLAGS="$(XILINX_FLAGS)
$(Q)echo "\tXILINX_MAP_FLAGS="$(XILINX_MAP_FLAGS)
$(Q)echo "\tXILINX_AREA_TARGET="$(XILINX_AREA_TARGET)
$(Q)echo "\tTIMING_REPORT_OPTIONS="$(TIMING_REPORT_OPTIONS)
$(Q)echo "\tSPI_FLASH_SIZE_KBYTES="$(SPI_FLASH_SIZE_KBYTES)
$(Q)echo "\tSPI_BOOTLOADER_SW_OFFSET_HEX="$(SPI_BOOTLOADER_SW_OFFSET_HEX)
NGC_FILE=$(BOARD_SYN_RUN_DIR)/$(DESIGN_NAME).ngc
NGD_FILE=$(DESIGN_NAME).ngd
UCF_FILE=../bin/$(BOARD_NAME).ucf
MAPPED_NCD=$(DESIGN_NAME)_mapped.ncd
PARRED_NCD=$(DESIGN_NAME).ncd
PCF_FILE=$(DESIGN_NAME).pcf
BIT_FILE=$(DESIGN_NAME).bit
BIT_FILE_FOR_SPI=$(DESIGN_NAME)_spiboot.bit
BATCH_FILE=$(DESIGN_NAME).batch
MCS_FILE=$(DESIGN_NAME).mcs
$(NGC_FILE):
$(Q)$(MAKE) -C $(BOARD_SYN_RUN_DIR) $(DESIGN_NAME).ngc
$(NGD_FILE): $(UCF_FILE) $(NGC_FILE)
@echo; echo "\t#### Running NGDBuild ####";
$(Q)ngdbuild -p $(FPGA_PART) -sd $(BOARD_BACKEND_BIN_DIR) \
-uc $(UCF_FILE) $(NGC_FILE) $@
#This target uses Xilinx tools to perform Mapping
$(MAPPED_NCD): $(NGD_FILE)
@echo; echo "\t#### Mapping ####";
$(Q)map -p $(FPGA_PART) -detail -pr b \
-timing -ol high -w $(XILINX_FLAGS) -o $@ -xe n $(NGD_FILE) $(PCF_FILE)
#This target uses Xilinx tools to Place & Route the design
$(PARRED_NCD): $(MAPPED_NCD)
@echo; echo "\t#### PAR'ing ####";
$(Q)par -w -ol high -xe n $(XILINX_FLAGS) $< $@ $(PCF_FILE)
#This target uses Xilinx tools to generate a bitstream for download
$(BIT_FILE): $(PARRED_NCD)
@echo; echo "\t#### Generating .bit file ####";
$(Q)bitgen -w $(XILINX_FLAGS) -g StartUpClk:JtagClk $< $@
$(BIT_FILE_FOR_SPI): $(PARRED_NCD)
@echo; echo "\t#### Generating .bit file for SPI load ####";
$(Q)bitgen -w $(XILINX_FLAGS) -g StartUpClk:CClk $< $@
# Generate MCS with bootloader specified by user, if BOOTLOADER_BIN defined.
ifeq ($(BOOTLOADER_BIN),)
$(MCS_FILE): $(BIT_FILE_FOR_SPI)
@echo; echo "\t#### Generating .mcs file for SPI load ####";
$(Q)promgen -spi -p mcs -w -o $@ -s $(SPI_FLASH_SIZE_KBYTES) -u 0 $<
else
$(MCS_FILE): $(BIT_FILE_FOR_SPI)
@echo; echo "\t#### Generating .mcs file with bootloader for SPI load ####";
$(Q)promgen -spi -p mcs -w -o $@ -s $(SPI_FLASH_SIZE_KBYTES) -u 0 $< \
-data_file up $(SPI_BOOTLOADER_SW_OFFSET_HEX) $(BOOTLOADER_BIN)
endif
#this target downloads the bitstream to the target fpga
download: $(BIT_FILE) $(BATCH_FILE)
$(Q)impact -batch $(BATCH_FILE)
#This target uses netgen to make a simulation netlist
netlist: $(PARRED_NCD)
@echo; echo "\t#### Generating netlist ####";
$(Q)netgen -ofmt verilog -sim -dir netlist -pcf $(PCF_FILE) $<
#This one uses TRCE to make a timing report
timingreport: $(PARRED_NCD)
@echo; echo "\t#### Generating timing report ####";
$(Q)trce $(TIMING_REPORT_OPTIONS) $<
clean:
$(Q)rm -rf *.* xlnx_auto*
clean-syn:
$(Q)$(MAKE) -C $(BOARD_SYN_RUN_DIR) distclean
distclean: clean-syn clean
.PRECIOUS : $(PARRED_NCD) $(MAPPED_NCD) $(NGC_FILE) $(NGD_FILE) $(BIT_FILE) $(BIT_FILE_FOR_SPI)
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