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# Copyright (c) 2021 The Regents of the University of California
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#
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# neither the name of the copyright holders nor the names of its
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#
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"""
This script shows an example of running a full system RISCV Ubuntu boot
simulation using the gem5 library. This simulation boots Ubuntu 20.04 using
2 TIMING CPU cores. The simulation ends when the startup is completed
successfully.
Usage
-----
```
scons build/RISCV/gem5.opt
./build/RISCV/gem5.opt \
configs/example/gem5_library/riscv-ubuntu-run.py
```
"""
import m5
from m5.objects import Root
from gem5.utils.requires import requires
from gem5.components.boards.riscv_board import RiscvBoard
from gem5.components.memory import DualChannelDDR4_2400
from gem5.components.processors.simple_processor import (
SimpleProcessor,
)
from gem5.components.processors.cpu_types import CPUTypes
from gem5.isas import ISA
from gem5.coherence_protocol import CoherenceProtocol
from gem5.resources.resource import Resource
# This runs a check to ensure the gem5 binary is compiled for RISCV.
requires(
isa_required=ISA.RISCV,
)
# With RISCV, we use simple caches.
from gem5.components.cachehierarchies.classic\
.private_l1_private_l2_cache_hierarchy import (
PrivateL1PrivateL2CacheHierarchy,
)
# Here we setup the parameters of the l1 and l2 caches.
cache_hierarchy = PrivateL1PrivateL2CacheHierarchy(
l1d_size="16kB",
l1i_size="16kB",
l2_size="256kB",
)
# Memory: Dual Channel DDR4 2400 DRAM device.
memory = DualChannelDDR4_2400(size = "3GB")
# Here we setup the processor. We use a simple processor.
processor = SimpleProcessor(
cpu_type=CPUTypes.TIMING,
num_cores=2,
)
# Here we setup the board. The RiscvBoard allows for Full-System RISCV
# simulations.
board = RiscvBoard(
clk_freq="3GHz",
processor=processor,
memory=memory,
cache_hierarchy=cache_hierarchy,
)
# Here we set the Full System workload.
# The `set_kernel_disk_workload` function for the RiscvBoard accepts a
# RISCV bootloader and a disk image. Once the system successfully boots, it
# encounters an `m5_exit instruction encountered`. We stop the simulation then.
# When the simulation has ended you may inspect `m5out/system.pc.com_1.device`
# to see the stdout.
board.set_kernel_disk_workload(
# The RISCV bootloader will be automatically downloaded to the
# `~/.cache/gem5` directory if not already present.
# The riscv-ubuntu boot-test was tested with riscv-bootloader-5.10
kernel=Resource(
"riscv-bootloader-vmlinux-5.10",
),
# The RISCV ubuntu image will be automatically downloaded to the
# `~/.cache/gem5` directory if not already present.
disk_image=Resource(
"riscv-ubuntu-20.04-img",
),
)
root = Root(full_system=True, system=board)
m5.instantiate()
# We simulate the system till we encounter `m5_exit instruction encountered`.
exit_event = m5.simulate()
# We check whether the simulation ended with `m5_exit instruction encountered`
if exit_event.getCause() == "m5_exit instruction encountered":
# We acknowledge the user that the boot was successful.
print("Successfully completed booting!")
else:
# `m5_exit instruction encountered` was never encountered. We exit the
# program unsuccessfully.
print("The startup was not completed successfully!",)
print(
"Exiting @ tick {} because {}."\
.format(m5.curTick(), exit_event.getCause())
)
exit(-1)
# We are done with the simulation. We exit the program now.
print(
"Exiting @ tick {} because {}."\
.format(m5.curTick(), exit_event.getCause())
)