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vortex/ci/trace_csv.py
Blaise Tine c1e168fdbe Vortex 2.0 changes: 
+ Microarchitecture optimizations
+ 64-bit support
+ Xilinx FPGA support
+ LLVM-16 support
+ Refactoring and quality control fixes

minor update

minor update

minor update

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cleanup

cleanup

cache bindings and memory perf refactory

minor update

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hw unit tests fixes

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minor udpate

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2023-11-10 02:47:05 -08:00

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#!/usr/bin/env python3
# Copyright © 2019-2023
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
import sys
import argparse
import csv
import re
def parse_args():
parser = argparse.ArgumentParser(description='CPU trace log to CSV format converter.')
parser.add_argument('-t', '--type', default='simx', help='log type (rtlsim or simx)')
parser.add_argument('-o', '--csv', default='trace.csv', help='Output CSV file')
parser.add_argument('log', help='Input log file')
return parser.parse_args()
def parse_simx(log_filename):
pc_pattern = r"PC=(0x[0-9a-fA-F]+)"
instr_pattern = r"Instr (0x[0-9a-fA-F]+):"
opcode_pattern = r"Instr 0x[0-9a-fA-F]+: ([0-9a-zA-Z_\.]+)"
core_id_pattern = r"cid=(\d+)"
warp_id_pattern = r"wid=(\d+)"
tmask_pattern = r"tmask=(\d+)"
operands_pattern = r"Src\d+ Reg: (.+)"
destination_pattern = r"Dest Reg: (.+)"
uuid_pattern = r"#(\d+)"
entries = []
with open(log_filename, 'r') as log_file:
instr_data = None
for lineno, line in enumerate(log_file, start=1):
if line.startswith("DEBUG Fetch:"):
if instr_data:
entries.append(instr_data)
instr_data = {}
instr_data["lineno"] = lineno
instr_data["PC"] = re.search(pc_pattern, line).group(1)
instr_data["core_id"] = re.search(core_id_pattern, line).group(1)
instr_data["warp_id"] = re.search(warp_id_pattern, line).group(1)
instr_data["tmask"] = re.search(tmask_pattern, line).group(1)
instr_data["uuid"] = re.search(uuid_pattern, line).group(1)
elif line.startswith("DEBUG Instr"):
instr_data["instr"] = re.search(instr_pattern, line).group(1)
instr_data["opcode"] = re.search(opcode_pattern, line).group(1)
elif line.startswith("DEBUG Src"):
src_reg = re.search(operands_pattern, line).group(1)
instr_data["operands"] = (instr_data["operands"] + ', ' + src_reg) if 'operands' in instr_data else src_reg
elif line.startswith("DEBUG Dest"):
instr_data["destination"] = re.search(destination_pattern, line).group(1)
if instr_data:
entries.append(instr_data)
return entries
def reverse_binary(bin_str):
return bin_str[::-1]
def bin_to_array(bin_str):
return [int(bit) for bit in bin_str]
def append_reg(text, value, sep):
if sep:
text += ", "
ivalue = int(value)
if (ivalue >= 32):
text += "f" + str(ivalue % 32)
else:
text += "x" + value
sep = True
return text, sep
def append_imm(text, value, sep):
if sep:
text += ", "
text += value
sep = True
return text, sep
def append_value(text, reg, value, tmask_arr, sep):
text, sep = append_reg(text, reg, sep)
text += "={"
for i in range(len(tmask_arr)):
if i != 0:
text += ", "
if tmask_arr[i]:
text += value[i]
else:
text +="-"
text += "}"
return text, sep
def parse_rtlsim(log_filename):
line_pattern = r"\d+: core(\d+)-(decode|issue|commit)"
pc_pattern = r"PC=(0x[0-9a-fA-F]+)"
instr_pattern = r"instr=(0x[0-9a-fA-F]+)"
ex_pattern = r"ex=([a-zA-Z]+)"
op_pattern = r"op=([\?0-9a-zA-Z_\.]+)"
warp_id_pattern = r"wid=(\d+)"
tmask_pattern = r"tmask=(\d+)"
wb_pattern = r"wb=(\d)"
opds_pattern = r"opds=(\d+)"
use_imm_pattern = r"use_imm=(\d)"
imm_pattern = r"imm=(0x[0-9a-fA-F]+)"
rd_pattern = r"rd=(\d+)"
rs1_pattern = r"rs1=(\d+)"
rs2_pattern = r"rs2=(\d+)"
rs3_pattern = r"rs3=(\d+)"
rs1_data_pattern = r"rs1_data=\{(.+?)\}"
rs2_data_pattern = r"rs2_data=\{(.+?)\}"
rs3_data_pattern = r"rs3_data=\{(.+?)\}"
rd_data_pattern = r"data=\{(.+?)\}"
eop_pattern = r"eop=(\d)"
uuid_pattern = r"#(\d+)"
entries = []
with open(log_filename, 'r') as log_file:
instr_data = {}
for lineno, line in enumerate(log_file, start=1):
line_match = re.search(line_pattern, line)
if line_match:
PC = re.search(pc_pattern, line).group(1)
warp_id = re.search(warp_id_pattern, line).group(1)
tmask = re.search(tmask_pattern, line).group(1)
uuid = re.search(uuid_pattern, line).group(1)
core_id = line_match.group(1)
stage = line_match.group(2)
if stage == "decode":
trace = {}
trace["uuid"] = uuid
trace["PC"] = PC
trace["core_id"] = core_id
trace["warp_id"] = warp_id
trace["tmask"] = reverse_binary(tmask)
trace["instr"] = re.search(instr_pattern, line).group(1)
trace["opcode"] = re.search(op_pattern, line).group(1)
trace["opds"] = bin_to_array(re.search(opds_pattern, line).group(1))
trace["rd"] = re.search(rd_pattern, line).group(1)
trace["rs1"] = re.search(rs1_pattern, line).group(1)
trace["rs2"] = re.search(rs2_pattern, line).group(1)
trace["rs3"] = re.search(rs3_pattern, line).group(1)
trace["use_imm"] = re.search(use_imm_pattern, line).group(1) == "1"
trace["imm"] = re.search(imm_pattern, line).group(1)
instr_data[uuid] = trace
elif stage == "issue":
if uuid in instr_data:
trace = instr_data[uuid]
trace["lineno"] = lineno
opds = trace["opds"]
if opds[1]:
trace["rs1_data"] = re.search(rs1_data_pattern, line).group(1).split(', ')[::-1]
if opds[2]:
trace["rs2_data"] = re.search(rs2_data_pattern, line).group(1).split(', ')[::-1]
if opds[3]:
trace["rs3_data"] = re.search(rs3_data_pattern, line).group(1).split(', ')[::-1]
trace["issued"] = True
instr_data[uuid] = trace
elif stage == "commit":
if uuid in instr_data:
trace = instr_data[uuid]
if "issued" in trace:
opds = trace["opds"]
dst_tmask_arr = bin_to_array(tmask)[::-1]
wb = re.search(wb_pattern, line).group(1) == "1"
if wb:
rd_data = re.search(rd_data_pattern, line).group(1).split(', ')[::-1]
if 'rd_data' in trace:
merged_rd_data = trace['rd_data']
for i in range(len(dst_tmask_arr)):
if dst_tmask_arr[i] == 1:
merged_rd_data[i] = rd_data[i]
trace['rd_data'] = merged_rd_data
else:
trace['rd_data'] = rd_data
instr_data[uuid] = trace
eop = re.search(eop_pattern, line).group(1) == "1"
if eop:
tmask_arr = bin_to_array(trace["tmask"])
destination = ''
if wb:
destination, sep = append_value(destination, trace["rd"], trace['rd_data'], tmask_arr, False)
del trace['rd_data']
trace["destination"] = destination
operands = ''
sep = False
if opds[1]:
operands, sep = append_value(operands, trace["rs1"], trace["rs1_data"], tmask_arr, sep)
del trace["rs1_data"]
if opds[2]:
operands, sep = append_value(operands, trace["rs2"], trace["rs2_data"], tmask_arr, sep)
del trace["rs2_data"]
if opds[3]:
operands, sep = append_value(operands, trace["rs3"], trace["rs3_data"], tmask_arr, sep)
del trace["rs3_data"]
trace["operands"] = operands
del trace["opds"]
del trace["rd"]
del trace["rs1"]
del trace["rs2"]
del trace["rs3"]
del trace["use_imm"]
del trace["imm"]
del trace["issued"]
del instr_data[uuid]
entries.append(trace)
return entries
def write_csv(log_filename, csv_filename, log_type):
entries = None
# parse log file
if log_type == "rtlsim":
entries = parse_rtlsim(log_filename)
elif log_type == "simx":
entries = parse_simx(log_filename)
else:
print('Error: invalid log type')
sys.exit()
# sort entries by uuid
entries.sort(key=lambda x: (int(x['core_id']), int(x['warp_id']), int(x['lineno'])))
for entry in entries:
del entry['lineno']
# write to CSV
with open(csv_filename, 'w', newline='') as csv_file:
fieldnames = ["uuid", "PC", "opcode", "instr", "core_id", "warp_id", "tmask", "operands", "destination"]
writer = csv.DictWriter(csv_file, fieldnames=fieldnames)
writer.writeheader()
for entry in entries:
writer.writerow(entry)
def main():
args = parse_args()
write_csv(args.log, args.csv, args.type)
if __name__ == "__main__":
main()
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