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Makefile
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Makefile
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#Copyright (C) 2023, Advanced Micro Devices, Inc. All rights reserved.
#SPDX-License-Identifier: X11
### SPRITE PYTHON SECTION
DEST_DIR ?= $(CURDIR)
MK_PATH := $(abspath $(lastword Makefile))
MK_DIR := $(patsubst %/,%,$(dir $(MK_PATH)))
ROOTFS = ${PLATFORM_REPO_PATHS}/sw/versal/xilinx-versal-common-v2023.2/rootfs.ext4
IMAGE = ${PLATFORM_REPO_PATHS}/sw/versal/xilinx-versal-common-v2023.2/Image
SDKTARGETSYSROOT ?= ${SYSROOT}
BASE_PLATFORM ?= ${PLATFORM_REPO_PATHS}/xilinx_vck190_base_202320_1/xilinx_vck190_base_202320_1.xpfm
PYTHONPATH += ${XILINX_VIVADO}/data/emulation/hw_em/lib/python:${XILINX_VIVADO}/data/emulation/python/xtlm_ipc:${XILINX_VIVADO}/data/emulation/ip_utils/xtlm_ipc/xtlm_ipc_v1_0/python
#will update to empty once regression gets successful run
PYTHON_INSTALL ?= /tools/batonroot/rodin/engkits/lnx64/python-3.6.5_metropolis/bin
RELATIVE_PROJECT_DIR := ./
PROJECT_REPO := $(shell readlink -f $(RELATIVE_PROJECT_DIR))
# Makefile input options
TARGET := hw_emu
PFM := tutorial
PLIO_WIDTH := 64
EMU_CMD := ./launch_hw_emu.sh -run-app embedded_exec.sh
SHOW_PLOT ?= False
ifeq ($(SHOW_PLOT),True)
TG_ARGS = 64 0 plot
else
TG_ARGS = 64 0
endif
ifndef PYTHON_INSTALL
$(error PYTHON_INSTALL is not set)
else
PYTHONHOME ?= ${PYTHON_INSTALL}/..
endif
# File names and locations
GRAPH := aie/graph.cpp
GRAPH_O := libadf.a
KERNEL :=
KERNEL_XO := $(XILINX_VITIS)/data/emulation/XO/sim_ipc_axis_master_${PLIO_WIDTH}.xo $(XILINX_VITIS)/data/emulation/XO/sim_ipc_axis_slave_${PLIO_WIDTH}.xo
CONFIG_FILE := system.cfg
# Command-line options
VPP := v++
AIECC := v++ --mode aie -c
AIE_INCLUDE_FLAGS := --include="$(XILINX_VITIS)/aietools/include" --include="./aie" --include="./data" --include="./aie/kernels" --include="./"
AIE_FLAGS := --target=hw $(AIE_INCLUDE_FLAGS) --aie.xlopt=0 --aie.workdir=./Work --platform=${XILINX_VITIS}/base_platforms/xilinx_vck190_base_202320_1/xilinx_vck190_base_202320_1.xpfm
ifeq (${EXTIO}, true)
AIE_FLAGS += --aie.Xpreproc=-DEXTERNAL_IO
endif
VPP_XO_FLAGS := -c --platform $(BASE_PLATFORM) --save-temps -g
VPP_LINK_FLAGS := -l --platform $(BASE_PLATFORM) $(KERNEL_XO) $(GRAPH_O) -t $(TARGET) --save-temps -g --config $(CONFIG_FILE) -o $(PFM).xsa
VPP_FLAGS := $(VPP_LINK_FLAGS)
LDCLFLAGS :=
GCC_FLAGS := -Wall -c \
-std=c++14 \
-Wno-int-to-pointer-cast \
--sysroot=${SDKTARGETSYSROOT}
GCC_INCLUDES := -I$(SDKTARGETSYSROOT)/usr/include/xrt \
-I$(SDKTARGETSYSROOT)/usr/include \
-I${XILINX_VITIS}/include
GCC_LIB := -lxrt_core -lxrt_coreutil \
-L$(SDKTARGETSYSROOT)/usr/lib \
--sysroot=${SDKTARGETSYSROOT}
LDCLFLAGS := $(GCC_LIB)
.ONESHELL:
.PHONY: clean all kernels aie xclbin host package
###
# Guarding Checks. Do not modify.
###
check_defined = \
$(strip $(foreach 1,$1, \
$(call __check_defined,$1,$(strip $(value 2)))))
__check_defined = \
$(if $(value $1),, \
$(error Undefined $1$(if $2, ($2))))
guard-PLATFORM_REPO_PATHS:
$(call check_defined, PLATFORM_REPO_PATHS, Set your where you downloaded xilinx_vck190_base_202120_1)
guard-ROOTFS:
$(call check_defined, ROOTFS, Set to: xilinx-versal-common-v2023.2/rootfs.ext4)
guard-IMAGE:
$(call check_defined, IMAGE, Set to: xilinx-versal-common-v2023.2/Image)
guard-CXX:
$(call check_defined, CXX, Run: xilinx-versal-common-v2023.2/environment-setup-aarch64-xilinx-linux)
guard-SDKTARGETSYSROOT:
$(call check_defined, SDKTARGETSYSROOT, Run: xilinx-versal-common-v2023.2/environment-setup-aarch64-xilinx-linux)
all: kernels aie xclbin host package
sd_card: all
######################################################
# This step compiles the HLS C kernels and creates an ADF Graph
# the %.xo is used as the output and creates from the %.cpp files
# The graph is generated by having the -target=hw
kernels: guard-PLATFORM_REPO_PATHS $(KERNEL_XO)
@echo "COMPLETE: Kernels Created."
%.xo: pl_kernels/%.cpp
$(VPP) $(VPP_XO_FLAGS) -k $(basename $(notdir $<)) $< -o $@
aie: $(GRAPH_O)
aiesim: $(GRAPH_O)
aiesimulator --profile --pkg-dir=./Work
$(GRAPH_O): $(GRAPH)
$(AIECC) $(AIE_FLAGS) $(GRAPH)
@echo "COMPLETE: libadf.a created."
#####################################################
########################################################
# Once the kernels and graph are generated, you can build
# the hardware part of the design. This creates an xclbin
# that will be used to run the design on the platform.
xclbin: guard-PLATFORM_REPO_PATHS $(GRAPH_O) $(KERNEL_XO)
$(VPP) $(VPP_LINK_FLAGS) || (echo "task: [xclbin] failed error code: $$?"; exit 1)
@echo "COMPLETE: .xclbin created."
########################################################
############################################################################################################################
# For hardware and hardware emulation, compile the PS code and generate the host.exe. This is needed for creating the sd_card.
host: guard-CXX guard-SDKTARGETSYSROOT
cd ./sw
$(CXX) $(GCC_FLAGS) $(GCC_INCLUDES) -o main.o host.cpp
$(CXX) *.o $(GCC_LIB) -std=c++14 -o host.exe
@echo "COMPLETE: Host application created."
############################################################################################################################
##################################################################################################
# Depending on the TARGET, it'll either generate the PDI for hw_emu or hw.
package: guard-PLATFORM_REPO_PATHS guard-IMAGE guard-ROOTFS
cd ./sw
v++ -p -t ${TARGET} \
-f ${BASE_PLATFORM} \
--package.rootfs=${ROOTFS} \
--package.image_format=ext4 \
--package.boot_mode=sd \
--package.kernel_image=${IMAGE} \
--package.defer_aie_run \
--package.sd_file embedded_exec.sh \
--package.sd_file host.exe \
../tutorial.xsa \
../libadf.a
@echo "COMPLETE: hw_emu package created."
###################################################################################################
#Build the design and then run hardware emulation
run: all run_emu
###########################################################################
# If the customer is running SPRITE wont be defined and they'll follow the tutorial instructions
# to open a separate terminal.
# If SPRITE is running python will run in a background process.
run_emu:
# $(PYTHON) sw/pysrc/run_traffic_gen.py ${PLIO_WIDTH} 1 &
cd ./sw/pysrc
${PYTHON_INSTALL}/python3 run_traffic_gen.py ${TG_ARGS} &
cd ..
$(EMU_CMD)
###########################################################################
clean:
rm -rf _x v++* $(GRAPH_O) *.o *.compile_summary* *.xpe xnwOut *.xclbin* *.log *.xsa Work *.db *.csv *$(PFM)* *.jou .Xil
rm -rf sw/*.log sw/*.xclbin sw/cfg/ sw/qemu_dts_files sw/emu_qemu_scripts sw/*.exe sw/_x/ sw/*summary sw/*.o sw/*.elf sw/*.xpe sw/xnwOut sw/Work sw/*.csv sw/*.db sw/*.bin sw/*.BIN sw/*.bif sw/launch_hw_emulator.sh sw/*.txt sw/emulation sw/.Xil
rm -rf sw/sd_card sw/sd_card.img
run_tgen:
${PYTHON_INSTALL}/python3 sw/pysrc/run_traffic_gen.py ${TG_ARGS}