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fpga_session.py
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fpga_session.py
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#!/usr/bin/python3
# Copyright (c) 2019, SCALE Lab, Brown University
# All rights reserved.
# This source code is licensed under the BSD-style license found in the
# LICENSE file in the root directory of this source tree.
import os
import re
import datetime
import numpy as np
from subprocess import check_output
from .features import extract_features
def log(message):
print('[DRiLLS {:%Y-%m-%d %H:%M:%S}'.format(datetime.datetime.now()) + "] " + message)
class FPGASession:
"""
A class to represent a logic synthesis optimization session using ABC
"""
def __init__(self, params):
self.params = params
self.action_space_length = len(self.params['optimizations'])
self.observation_space_size = 9 # number of features
self.iteration = 0
self.episode = 0
self.sequence = ['strash']
self.lut_6, self.levels = float('inf'), float('inf')
self.best_known_lut_6 = (float('inf'), float('inf'), -1, -1)
self.best_known_levels = (float('inf'), float('inf'), -1, -1)
self.best_known_lut_6_meets_constraint = (float('inf'), float('inf'), -1, -1)
# logging
self.log = None
def __del__(self):
if self.log:
self.log.close()
def reset(self):
"""
resets the environment and returns the state
"""
self.iteration = 0
self.episode += 1
self.lut_6, self.levels = float('inf'), float('inf')
self.sequence = ['strash']
self.episode_dir = os.path.join(self.params['playground_dir'], str(self.episode))
if not os.path.exists(self.episode_dir):
os.makedirs(self.episode_dir)
# logging
log_file = os.path.join(self.episode_dir, 'log.csv')
if self.log:
self.log.close()
self.log = open(log_file, 'w')
self.log.write('iteration, optimization, LUT-6, Levels, best LUT-6 meets constraint, best LUT-6, best levels\n')
state, _ = self._run()
# logging
self.log.write(', '.join([str(self.iteration), self.sequence[-1], str(int(self.lut_6)), str(int(self.levels))]) + '\n')
self.log.flush()
return state
def step(self, optimization):
"""
accepts optimization index and returns (new state, reward, done, info)
"""
self.sequence.append(self.params['optimizations'][optimization])
new_state, reward = self._run()
# logging
if self.lut_6 < self.best_known_lut_6[0]:
self.best_known_lut_6 = (int(self.lut_6), int(self.levels), self.episode, self.iteration)
if self.levels < self.best_known_levels[1]:
self.best_known_levels = (int(self.lut_6), int(self.levels), self.episode, self.iteration)
if self.levels <= self.params['fpga_mapping']['levels'] and self.lut_6 < self.best_known_lut_6_meets_constraint[0]:
self.best_known_lut_6_meets_constraint = (int(self.lut_6), int(self.levels), self.episode, self.iteration)
self.log.write(', '.join([str(self.iteration), self.sequence[-1], str(int(self.lut_6)), str(int(self.levels))]) + ', ' +
'; '.join(list(map(str, self.best_known_lut_6_meets_constraint))) + ', ' +
'; '.join(list(map(str, self.best_known_lut_6))) + ', ' +
'; '.join(list(map(str, self.best_known_levels))) + '\n')
self.log.flush()
return new_state, reward, self.iteration == self.params['iterations'], None
def _run(self):
"""
run ABC on the given design file with the sequence of commands
"""
self.iteration += 1
output_design_file = os.path.join(self.episode_dir, str(self.iteration) + '.v')
output_design_file_mapped = os.path.join(self.episode_dir, str(self.iteration) + '-mapped.v')
abc_command = 'read ' + self.params['design_file'] + '; '
abc_command += ';'.join(self.sequence) + '; '
abc_command += 'write ' + output_design_file + '; '
abc_command += 'if -K ' + str(self.params['fpga_mapping']['lut_inputs']) + '; '
abc_command += 'write ' + output_design_file_mapped + '; '
abc_command += 'print_stats;'
try:
proc = check_output([self.params['abc_binary'], '-c', abc_command])
# get reward
lut_6, levels = self._get_metrics(proc)
reward = self._get_reward(lut_6, levels)
self.lut_6, self.levels = lut_6, levels
# get new state of the circuit
state = self._get_state(output_design_file)
return state, reward
except Exception as e:
print(e)
return None, None
def _get_metrics(self, stats):
"""
parse LUT count and levels from the stats command of ABC
"""
line = stats.decode("utf-8").split('\n')[-2].split(':')[-1].strip()
ob = re.search(r'lev *= *[0-9]+', line)
levels = int(ob.group().split('=')[1].strip())
ob = re.search(r'nd *= *[0-9]+', line)
lut_6 = int(ob.group().split('=')[1].strip())
return lut_6, levels
def _get_reward(self, lut_6, levels):
constraint_met = True
optimization_improvement = 0 # (-1, 0, 1) <=> (worse, same, improvement)
constraint_improvement = 0 # (-1, 0, 1) <=> (worse, same, improvement)
# check optimizing parameter
if lut_6 < self.lut_6:
optimization_improvement = 1
elif lut_6 == self.lut_6:
optimization_improvement = 0
else:
optimization_improvement = -1
# check constraint parameter
if levels > self.params["fpga_mapping"]["levels"]:
constraint_met = False
if levels < self.levels:
constraint_improvement = 1
elif levels == self.levels:
constraint_improvement = 0
else:
constraint_improvement = -1
# now calculate the reward
return self._reward_table(constraint_met, constraint_improvement, optimization_improvement)
def _reward_table(self, constraint_met, contraint_improvement, optimization_improvement):
return {
True: {
0: {
1: 3,
0: 0,
-1: -1
}
},
False: {
1: {
1: 3,
0: 2,
-1: 1
},
0: {
1: 2,
0: 0,
-1: -2
},
-1: {
1: -1,
0: -2,
-1: -3
}
}
}[constraint_met][contraint_improvement][optimization_improvement]
def _get_state(self, design_file):
return extract_features(design_file, self.params['yosys_binary'], self.params['abc_binary'])