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garnet_amber.py
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import argparse
import magma
from canal.util import IOSide, SwitchBoxType
from gemstone.common.configurable import ConfigurationType
from gemstone.common.jtag_type import JTAGType
from gemstone.generator.generator import Generator, set_debug_mode
from global_buffer.io_placement import place_io_blk
import os
if os.getenv('WHICH_SOC') == "amber":
from global_buffer.design_amber.global_buffer import GlobalBufferMagma
else:
from global_buffer.design.global_buffer import GlobalBufferMagma
from global_buffer.design.global_buffer_parameter import GlobalBufferParams, gen_global_buffer_params
from global_buffer.global_buffer_main import gen_param_header
from systemRDL.util import gen_rdl_header
from global_controller.global_controller_magma import GlobalController
from cgra.ifc_struct import AXI4LiteIfc, ProcPacketIfc
from canal.global_signal import GlobalSignalWiring
from mini_mapper import map_app, get_total_cycle_from_app
from cgra import glb_glc_wiring, glb_interconnect_wiring, glc_interconnect_wiring, create_cgra, compress_config_data
import json
from passes_amber.collateral_pass.config_register import get_interconnect_regs, get_core_registers
from passes_amber.interconnect_port_pass import stall_port_pass, config_port_pass
import archipelago
import archipelago.power
import archipelago.io
import math
from peak_gen.peak_wrapper import wrapped_peak_class
from peak_gen.arch import read_arch
import metamapper.coreir_util as cutil
from metamapper.node import Nodes
from metamapper.common_passes import VerifyNodes, print_dag, gen_dag_img
from metamapper import CoreIRContext
from metamapper.irs.coreir import gen_CoreIRNodes
from metamapper.lake_mem import gen_MEM_fc
from metamapper.lake_pond import gen_Pond_fc
from metamapper.io_tiles import IO_fc, BitIO_fc
from lassen.sim import PE_fc as lassen_fc
import metamapper.peak_util as putil
from mapper_amber.netlist_util import create_netlist_info, print_netlist_info
from metamapper.coreir_mapper import Mapper
# set the debug mode to false to speed up construction
set_debug_mode(False)
class Garnet(Generator):
def __init__(self, width, height, add_pd, interconnect_only: bool = False,
use_sim_sram: bool = True, standalone: bool = False,
mem_ratio: int = 4,
num_tracks: int = 5,
tile_layout_option: int = 0,
add_pond: bool = True,
pond_area_opt: bool = False,
pond_area_opt_share: bool = False,
pond_area_opt_dual_config: bool = False,
use_io_valid: bool = False,
harden_flush: bool = True,
pipeline_config_interval: int = 8,
glb_params: GlobalBufferParams = GlobalBufferParams(),
pe_fc=lassen_fc,
ready_valid: bool = False,
sb_option: str = "Imran",
pipeline_regs_density: list = None,
port_conn_option: list = None):
super().__init__()
# Check consistency of @standalone and @interconnect_only parameters. If
# @standalone is True, then interconnect_only must also be True.
if standalone:
assert interconnect_only
# configuration parameters
self.glb_params = glb_params
config_addr_width = 32
config_data_width = 32
self.config_addr_width = config_addr_width
self.config_data_width = config_data_width
axi_addr_width = self.glb_params.cgra_axi_addr_width
axi_data_width = self.glb_params.axi_data_width
# axi_data_width must be same as cgra config_data_width
assert axi_data_width == config_data_width
self.ready_valid = ready_valid
tile_id_width = 16
config_addr_reg_width = 8
# size
self.width = width
self.height = height
self.harden_flush = harden_flush
self.pipeline_config_interval = pipeline_config_interval
# only north side has IO
if standalone:
io_side = IOSide.None_
else:
io_side = IOSide.North
self.pe_fc = pe_fc
if not interconnect_only:
# width must be even number
assert (self.width % 2) == 0
# Bank should be larger than or equal to 1KB
assert glb_params.bank_addr_width >= 10
glb_tile_mem_size = 2 ** (glb_params.bank_addr_width - 10) + \
math.ceil(math.log(glb_params.banks_per_tile, 2))
wiring = GlobalSignalWiring.ParallelMeso
self.global_controller = GlobalController(addr_width=config_addr_width,
data_width=config_data_width,
axi_addr_width=axi_addr_width,
axi_data_width=axi_data_width,
num_glb_tiles=glb_params.num_glb_tiles,
cgra_width=glb_params.num_cgra_cols,
glb_addr_width=glb_params.glb_addr_width,
glb_tile_mem_size=glb_tile_mem_size,
block_axi_addr_width=glb_params.axi_addr_width,
group_size=glb_params.num_cols_per_group)
self.global_buffer = GlobalBufferMagma(glb_params)
else:
wiring = GlobalSignalWiring.Meso
sb_type_dict = {
"Imran": SwitchBoxType.Imran,
"Disjoint": SwitchBoxType.Disjoint,
"Wilton": SwitchBoxType.Wilton
}
interconnect = create_cgra(width, height, io_side,
reg_addr_width=config_addr_reg_width,
config_data_width=config_data_width,
tile_id_width=tile_id_width,
num_tracks=num_tracks,
add_pd=add_pd,
add_pond=add_pond,
pond_area_opt=pond_area_opt,
pond_area_opt_share=pond_area_opt_share,
pond_area_opt_dual_config=pond_area_opt_dual_config,
use_io_valid=use_io_valid,
harden_flush=harden_flush,
use_sim_sram=use_sim_sram,
global_signal_wiring=wiring,
pipeline_config_interval=pipeline_config_interval,
mem_ratio=(1, mem_ratio),
tile_layout_option=tile_layout_option,
standalone=standalone,
pe_fc=pe_fc,
ready_valid=ready_valid,
switchbox_type=sb_type_dict.get(sb_option, "Invalid Switchbox Type"),
pipeline_regs_density=pipeline_regs_density,
port_conn_option=port_conn_option)
self.interconnect = interconnect
# make multiple stall ports
stall_port_pass(self.interconnect, port_name="stall", port_width=1, col_offset=1)
# make multiple flush ports
if harden_flush:
stall_port_pass(self.interconnect, port_name="flush", port_width=1,
col_offset=glb_params.num_cols_per_group, pipeline=True)
# make multiple configuration ports
config_port_pass(self.interconnect, pipeline=True)
if not interconnect_only:
self.add_ports(
jtag=JTAGType,
clk_in=magma.In(magma.Clock),
reset_in=magma.In(magma.AsyncReset),
proc_packet=ProcPacketIfc(
glb_params.glb_addr_width, glb_params.bank_data_width).slave,
axi4_slave=AXI4LiteIfc(axi_addr_width, axi_data_width).slave,
interrupt=magma.Out(magma.Bit),
cgra_running_clk_out=magma.Out(magma.Clock),
)
# top <-> global controller ports connection
self.wire(self.ports.clk_in, self.global_controller.ports.clk_in)
self.wire(self.ports.reset_in,
self.global_controller.ports.reset_in)
self.wire(self.ports.jtag, self.global_controller.ports.jtag)
self.wire(self.ports.axi4_slave,
self.global_controller.ports.axi4_slave)
self.wire(self.ports.interrupt,
self.global_controller.ports.interrupt)
self.wire(self.ports.cgra_running_clk_out,
self.global_controller.ports.clk_out)
# top <-> global buffer ports connection
self.wire(self.ports.clk_in, self.global_buffer.ports.clk)
self.wire(self.ports.proc_packet.wr_en,
self.global_buffer.ports.proc_wr_en[0])
self.wire(self.ports.proc_packet.wr_strb,
self.global_buffer.ports.proc_wr_strb)
self.wire(self.ports.proc_packet.wr_addr,
self.global_buffer.ports.proc_wr_addr)
self.wire(self.ports.proc_packet.wr_data,
self.global_buffer.ports.proc_wr_data)
self.wire(self.ports.proc_packet.rd_en,
self.global_buffer.ports.proc_rd_en[0])
self.wire(self.ports.proc_packet.rd_addr,
self.global_buffer.ports.proc_rd_addr)
self.wire(self.ports.proc_packet.rd_data,
self.global_buffer.ports.proc_rd_data)
self.wire(self.ports.proc_packet.rd_data_valid,
self.global_buffer.ports.proc_rd_data_valid[0])
# Top -> Interconnect clock port connection
self.wire(self.ports.clk_in, self.interconnect.ports.clk)
glb_glc_wiring(self)
glb_interconnect_wiring(self)
glc_interconnect_wiring(self)
else:
# lift all the interconnect ports up
for name in self.interconnect.interface():
self.add_port(name, self.interconnect.ports[name].type())
self.wire(self.ports[name], self.interconnect.ports[name])
self.add_ports(
clk=magma.In(magma.Clock),
reset=magma.In(magma.AsyncReset),
config=magma.In(magma.Array[width,
ConfigurationType(config_data_width,
config_data_width)]),
stall=magma.In(
magma.Bits[self.width * self.interconnect.stall_signal_width]),
read_config_data=magma.Out(magma.Bits[config_data_width])
)
self.wire(self.ports.clk, self.interconnect.ports.clk)
self.wire(self.ports.reset, self.interconnect.ports.reset)
self.wire(self.ports.config,
self.interconnect.ports.config)
self.wire(self.ports.stall,
self.interconnect.ports.stall)
self.wire(self.interconnect.ports.read_config_data,
self.ports.read_config_data)
if harden_flush:
self.add_ports(flush=magma.In(magma.Bits[1]))
self.wire(self.ports.flush, self.interconnect.ports.flush)
def map(self, halide_src):
return map_app(halide_src, retiming=True)
def get_placement_bitstream(self, placement, id_to_name, instrs):
result = []
for node, (x, y) in placement.items():
instance = id_to_name[node]
if instance not in instrs:
continue
instr = instrs[instance]
result += self.interconnect.configure_placement(x, y, instr,
node[0])
return result
def convert_mapped_to_netlist(self, mapped):
raise NotImplemented()
@staticmethod
def get_input_output(netlist):
inputs = []
outputs = []
for _, net in netlist.items():
for blk_id, port in net:
if port == "io2f_16":
inputs.append(blk_id)
elif port == "f2io_16":
outputs.append(blk_id)
elif port == "io2f_1":
inputs.append(blk_id)
elif port == "f2io_1":
outputs.append(blk_id)
return inputs, outputs
def get_io_interface(self, inputs, outputs, placement, id_to_name):
input_interface = []
output_interface = []
reset_port_name = ""
valid_port_name = ""
en_port_name = []
for blk_id in inputs:
x, y = placement[blk_id]
bit_width = 16 if blk_id[0] == "I" else 1
name = f"glb2io_{bit_width}_X{x:02X}_Y{y:02X}"
input_interface.append(name)
assert name in self.interconnect.interface()
blk_name = id_to_name[blk_id]
if "reset" in blk_name:
reset_port_name = name
if "in_en" in blk_name:
en_port_name.append(name)
for blk_id in outputs:
x, y = placement[blk_id]
bit_width = 16 if blk_id[0] == "I" else 1
name = f"io2glb_{bit_width}_X{x:02X}_Y{y:02X}"
output_interface.append(name)
assert name in self.interconnect.interface()
blk_name = id_to_name[blk_id]
if "valid" in blk_name:
valid_port_name = name
return input_interface, output_interface,\
(reset_port_name, valid_port_name, en_port_name)
def load_netlist(self, app, load_only, pipeline_input_broadcasts,
input_broadcast_branch_factor, input_broadcast_max_leaves):
app_dir = os.path.dirname(app)
# Amber version needs headers from headers_amber directory
print(f"--- FOO found app_dir='{appdir}'")
if app_dir[-7:] == "headers":
app_dir = app_dir + "_amber"
print(f"--- FOO and now app_dir='{appdir}'")
if self.pe_fc == lassen_fc:
pe_header = f"{app_dir}/lassen_header.json"
else:
pe_header = f"{app_dir}/pe_header.json"
mem_header = f"{app_dir}/mem_header.json"
io_header = f"{app_dir}/io_header.json"
bit_io_header = f"{app_dir}/bit_io_header.json"
pond_header = f"{app_dir}/pond_header.json"
app_file = app
c = CoreIRContext(reset=True)
cmod = cutil.load_from_json(app_file)
c = CoreIRContext()
cutil.load_libs(["commonlib", "float"])
c.run_passes(["flatten"])
MEM_fc = gen_MEM_fc()
Pond_fc = gen_Pond_fc()
nodes = gen_CoreIRNodes(16)
putil.load_and_link_peak(
nodes,
pe_header,
{"global.PE": self.pe_fc},
)
putil.load_and_link_peak(
nodes,
mem_header,
{"global.MEM": (MEM_fc, True)},
)
putil.load_and_link_peak(
nodes,
io_header,
{"global.IO": IO_fc},
)
putil.load_and_link_peak(
nodes,
bit_io_header,
{"global.BitIO": BitIO_fc},
)
putil.load_and_link_peak(
nodes,
pond_header,
{"global.Pond": (Pond_fc, True)},
)
dag = cutil.coreir_to_dag(nodes, cmod)
tile_info = {"global.PE": self.pe_fc, "global.MEM": MEM_fc,
"global.IO": IO_fc, "global.BitIO": BitIO_fc, "global.Pond": Pond_fc}
netlist_info = create_netlist_info(app_dir,
dag,
tile_info,
load_only,
self.harden_flush,
1 + self.height // self.pipeline_config_interval,
pipeline_input_broadcasts,
input_broadcast_branch_factor,
input_broadcast_max_leaves)
# temporally remapping of port names for the new Pond
for name, mapping in netlist_info["netlist"].items():
for i in range(len(mapping)):
(inst_name, port_name) = mapping[i]
if "data_in_pond" in port_name:
mapping[i] = (inst_name, "input_width_16_num_2")
if "data_out_pond" in port_name:
mapping[i] = (inst_name, "output_width_16_num_0")
print_netlist_info(netlist_info, app_dir + "/netlist_info.txt")
return (netlist_info["id_to_name"], netlist_info["instance_to_instrs"], netlist_info["netlist"],
netlist_info["buses"])
def place_and_route(self, halide_src, unconstrained_io=False, compact=False, load_only=False,
pipeline_input_broadcasts=False, input_broadcast_branch_factor=4,
input_broadcast_max_leaves=16):
id_to_name, instance_to_instr, netlist, bus = self.load_netlist(halide_src,
load_only,
pipeline_input_broadcasts,
input_broadcast_branch_factor,
input_broadcast_max_leaves)
app_dir = os.path.dirname(halide_src)
if unconstrained_io:
fixed_io = None
else:
fixed_io = place_io_blk(id_to_name)
placement, routing, id_to_name = archipelago.pnr(self.interconnect, (netlist, bus),
load_only=load_only,
cwd=app_dir,
id_to_name=id_to_name,
fixed_pos=fixed_io,
compact=compact,
harden_flush=self.harden_flush,
pipeline_config_interval=self.pipeline_config_interval)
return placement, routing, id_to_name, instance_to_instr, netlist, bus
def generate_bitstream(self, halide_src, placement, routing, id_to_name, instance_to_instr, netlist, bus,
compact=False):
routing_fix = archipelago.power.reduce_switching(routing, self.interconnect,
compact=compact)
routing.update(routing_fix)
bitstream = []
bitstream += self.interconnect.get_route_bitstream(routing)
bitstream += self.get_placement_bitstream(placement, id_to_name,
instance_to_instr)
skip_addr = self.interconnect.get_skip_addr()
bitstream = compress_config_data(bitstream, skip_compression=skip_addr)
inputs, outputs = self.get_input_output(netlist)
input_interface, output_interface,\
(reset, valid, en) = self.get_io_interface(inputs,
outputs,
placement,
id_to_name)
delay = 0
# also write out the meta file
archipelago.io.dump_meta_file(
halide_src, "design", os.path.dirname(halide_src))
return bitstream, (input_interface, output_interface, reset, valid, en,
delay)
def compile_virtualize(self, halide_src, max_group):
id_to_name, instance_to_instr, netlist, bus = self.map(halide_src)
partition_result = archipelago.pnr_virtualize(self.interconnect, (netlist, bus), cwd="temp",
id_to_name=id_to_name, max_group=max_group)
result = {}
for c_id, ((placement, routing), p_id_to_name) in partition_result.items():
bitstream = []
bitstream += self.interconnect.get_route_bitstream(routing)
bitstream += self.get_placement_bitstream(placement, p_id_to_name,
instance_to_instr)
skip_addr = self.interconnect.get_skip_addr()
bitstream = compress_config_data(
bitstream, skip_compression=skip_addr)
result[c_id] = bitstream
return result
def create_stub(self):
result = """
module Interconnect (
input clk,
output [31:0] read_config_data,
input reset,
"""
# add stall based on the size
result += f" input [{str(self.width * self.interconnect.stall_signal_width - 1)}:0] stall,\n\n"
# magma can't generate SV struct array, which would be the ideal solution here
for i in range(self.width):
result += f" input [31:0] config_{i}_config_addr,\n"
result += f" input [31:0] config_{i}_config_data,\n"
result += f" input [0:0] config_{i}_read,\n"
result += f" input [0:0] config_{i}_write,\n"
# loop through the interfaces
ports = []
for port_name, port_node in self.interconnect.interface().items():
io = "output" if "io2glb" in port_name else "input"
ports.append(f" {io} [{port_node.width - 1}:0] {port_name}")
result += ",\n".join(ports)
result += "\n);\nendmodule\n"
with open("garnet_stub.v", "w+") as f:
f.write(result)
def name(self):
return "Garnet"
def write_out_bitstream(filename, bitstream):
with open(filename, "w+") as f:
bs = ["{0:08X} {1:08X}".format(entry[0], entry[1]) for entry
in bitstream]
f.write("\n".join(bs))
def main():
parser = argparse.ArgumentParser(description='Garnet CGRA')
parser.add_argument('--width', type=int, default=4)
parser.add_argument('--height', type=int, default=2)
parser.add_argument('--pipeline_config_interval', type=int, default=8)
parser.add_argument('--glb_tile_mem_size', type=int, default=256)
parser.add_argument("--input-app", type=str, default="", dest="app")
parser.add_argument("--input-file", type=str, default="", dest="input")
parser.add_argument("--output-file", type=str, default="", dest="output")
parser.add_argument("--gold-file", type=str, default="",
dest="gold")
parser.add_argument("-v", "--verilog", action="store_true")
parser.add_argument("--no-pd", "--no-power-domain", action="store_true")
parser.add_argument("--no-pond", action="store_true")
parser.add_argument("--interconnect-only", action="store_true")
parser.add_argument("--compact", action="store_true")
parser.add_argument("--use_sim_sram", action="store_true")
parser.add_argument("--standalone", action="store_true")
parser.add_argument("--unconstrained-io", action="store_true")
parser.add_argument("--dump-config-reg", action="store_true")
parser.add_argument("--virtualize-group-size", type=int, default=4)
parser.add_argument("--virtualize", action="store_true")
parser.add_argument("--no-harden-flush", action="store_true")
parser.add_argument("--use-io-valid", action="store_true")
parser.add_argument("--pipeline-pnr", action="store_true")
parser.add_argument("--generate-bitstream-only", action="store_true")
parser.add_argument("--no-input-broadcast-pipelining", action="store_true")
parser.add_argument("--input-broadcast-branch-factor", type=int, default=4)
parser.add_argument("--input-broadcast-max-leaves", type=int, default=16)
parser.add_argument('--pe', type=str, default="")
parser.add_argument('--mem-ratio', type=int, default=4)
parser.add_argument('--num-tracks', type=int, default=5)
parser.add_argument('--tile-layout-option', type=int, default=0)
parser.add_argument("--rv", "--ready-valid", action="store_true", dest="ready_valid")
parser.add_argument("--no-pond-area-opt", action="store_true")
parser.add_argument("--pond-area-opt-share", action="store_true")
parser.add_argument("--no-pond-area-opt-dual-config", action="store_true")
parser.add_argument("--sb-option", type=str, default="Imran")
parser.add_argument("--pipeline-regs-density", nargs="+", type=int, default=None)
parser.add_argument("--port-conn-option", nargs="+", type=int, default=None)
args = parser.parse_args()
if not args.interconnect_only:
assert args.width % 2 == 0 and args.width >= 4
if args.standalone and not args.interconnect_only:
raise Exception("--standalone must be specified with "
"--interconnect-only as well")
pe_fc = lassen_fc
if args.pe:
arch = read_arch(args.pe)
pe_fc = wrapped_peak_class(arch, debug=True)
glb_params = gen_global_buffer_params(num_glb_tiles=args.width // 2,
num_cgra_cols=args.width,
# NOTE: We assume num_prr is same as num_glb_tiles
num_prr=args.width // 2,
glb_tile_mem_size=args.glb_tile_mem_size,
bank_data_width=64,
cfg_addr_width=32,
cfg_data_width=32,
cgra_axi_addr_width=13,
axi_data_width=32)
garnet = Garnet(width=args.width, height=args.height,
glb_params=glb_params,
add_pd=not args.no_pd,
mem_ratio=args.mem_ratio,
num_tracks=args.num_tracks,
tile_layout_option=args.tile_layout_option,
pipeline_config_interval=args.pipeline_config_interval,
add_pond=not args.no_pond,
pond_area_opt=not args.no_pond_area_opt,
pond_area_opt_share=args.pond_area_opt_share,
pond_area_opt_dual_config=not args.no_pond_area_opt_dual_config,
harden_flush=not args.no_harden_flush,
use_io_valid=args.use_io_valid,
interconnect_only=args.interconnect_only,
use_sim_sram=args.use_sim_sram,
standalone=args.standalone,
pe_fc=pe_fc,
ready_valid=args.ready_valid,
sb_option=args.sb_option,
pipeline_regs_density=args.pipeline_regs_density,
port_conn_option=args.port_conn_option)
if args.verilog:
garnet_circ = garnet.circuit()
magma.compile("garnet", garnet_circ, output="coreir-verilog",
coreir_libs={"float_CW"},
passes=["rungenerators", "inline_single_instances", "clock_gate"],
inline=False)
garnet.create_stub()
if not args.interconnect_only:
garnet_home = os.getenv('GARNET_HOME')
if not garnet_home:
garnet_home = os.path.dirname(os.path.abspath(__file__))
gen_param_header(top_name="global_buffer_param",
params=glb_params,
output_folder=os.path.join(garnet_home, "global_buffer/header"))
gen_rdl_header(top_name="glb",
rdl_file=os.path.join(garnet_home, "global_buffer/systemRDL/glb.rdl"),
output_folder=os.path.join(garnet_home, "global_buffer/header"))
gen_rdl_header(top_name="glc",
rdl_file=os.path.join(garnet_home, "global_controller/systemRDL/rdl_models/glc.rdl.final"),
output_folder=os.path.join(garnet_home, "global_controller/header"))
if len(args.app) > 0 and len(args.input) > 0 and len(args.gold) > 0 \
and len(args.output) > 0 and not args.virtualize:
placement, routing, id_to_name, instance_to_instr, \
netlist, bus = garnet.place_and_route(
args.app, args.unconstrained_io or args.generate_bitstream_only, compact=args.compact,
load_only=args.generate_bitstream_only,
pipeline_input_broadcasts=not args.no_input_broadcast_pipelining,
input_broadcast_branch_factor=args.input_broadcast_branch_factor,
input_broadcast_max_leaves=args.input_broadcast_max_leaves)
if args.pipeline_pnr:
return
bitstream, (inputs, outputs, reset, valid,
en, delay) = garnet.generate_bitstream(args.app, placement, routing, id_to_name, instance_to_instr,
netlist, bus, compact=args.compact)
# write out the config file
if len(inputs) > 1:
if reset in inputs:
inputs.remove(reset)
for en_port in en:
if en_port in inputs:
inputs.remove(en_port)
total_cycle = get_total_cycle_from_app(args.app)
if len(outputs) > 1:
outputs.remove(valid)
config = {
"input_filename": args.input,
"bitstream": args.output,
"gold_filename": args.gold,
"output_port_name": outputs,
"input_port_name": inputs,
"valid_port_name": valid,
"reset_port_name": reset,
"en_port_name": en,
"delay": delay,
"total_cycle": total_cycle
}
with open(f"{args.output}.json", "w+") as f:
json.dump(config, f)
write_out_bitstream(args.output, bitstream)
elif args.virtualize and len(args.app) > 0:
group_size = args.virtualize_group_size
result = garnet.compile_virtualize(args.app, group_size)
for c_id, bitstream in result.items():
filename = os.path.join("temp", f"{c_id}.bs")
write_out_bitstream(filename, bitstream)
if args.dump_config_reg:
ic = garnet.interconnect
ic_reg = get_interconnect_regs(ic)
core_reg = get_core_registers(ic)
with open("config.json", "w+") as f:
json.dump(ic_reg + core_reg, f)
if __name__ == "__main__":
main()