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authorDavid Luevano <55825613+luevano@users.noreply.github.com>2019-12-23 13:11:12 -0700
committerDavid Luevano <55825613+luevano@users.noreply.github.com>2019-12-23 13:11:12 -0700
commitb14c581ca5fdab47d7e1c0b688331368cb7f29d0 (patch)
treef53baa3e1b4afcdb99cc08dd0f0242de079861d2 /lj_matrix
parentf5d72558ed6ec63c7de4940c29d4f6c92605a30d (diff)
Refactor ml code
Diffstat (limited to 'lj_matrix')
-rw-r--r--lj_matrix/do_ml.py104
1 files changed, 93 insertions, 11 deletions
diff --git a/lj_matrix/do_ml.py b/lj_matrix/do_ml.py
index bb954a0ae..ac044cfb3 100644
--- a/lj_matrix/do_ml.py
+++ b/lj_matrix/do_ml.py
@@ -22,19 +22,22 @@ SOFTWARE.
"""
import time
import numpy as np
+from multiprocessing import Process, Pipe
from lj_matrix.misc import printc
from lj_matrix.gauss_kernel import gauss_kernel
from lj_matrix.cholesky_solve import cholesky_solve
-
-
-def do_ml(desc_data,
- energy_data,
- training_size,
- desc_type=None,
- pipe=None,
- test_size=None,
- sigma=1000.0,
- show_msgs=True):
+from lj_matrix.read_qm7_data import read_qm7_data
+from lj_matrix.parallel_create_matrices import parallel_create_matrices
+
+
+def ml(desc_data,
+ energy_data,
+ training_size,
+ desc_type=None,
+ pipe=None,
+ test_size=None,
+ sigma=1000.0,
+ show_msgs=True):
"""
Does the ML methodology.
desc_data: descriptor (or representation) data.
@@ -51,6 +54,7 @@ def do_ml(desc_data,
Also, training is done with the first part of the data and
testing with the ending part of the data.
"""
+ tic = time.perf_counter()
# Initial calculations for later use.
d_len = len(desc_data)
e_len = len(energy_data)
@@ -72,7 +76,6 @@ def do_ml(desc_data,
if test_size > 1500:
test_size = 1500
- tic = time.perf_counter()
if show_msgs:
printc('{} ML started.'.format(desc_type), 'GREEN')
printc('\tTraining size: {}'.format(training_size), 'CYAN')
@@ -106,3 +109,82 @@ def do_ml(desc_data,
pipe.send([desc_type, training_size, test_size, sigma, mae, tictoc])
return mae, tictoc
+
+
+# Test
+def do_ml(min_training_size,
+ max_training_size=None,
+ training_increment_size=None,
+ ljm_sigma=1.0,
+ ljm_epsilon=1.0,
+ save_benchmarks=False):
+ """
+ Main function that does the whole ML process.
+ min_training_size: minimum training size.
+ max_training_size: maximum training size.
+ training_increment_size: training increment size.
+ ljm_sigma: sigma value for lj matrix.
+ ljm_epsilon: epsilon value for lj matrix.
+ save_benchmarks: if benchmarks should be saved.
+ """
+ # Initialization time.
+ init_time = time.perf_counter()
+
+ # Data reading.
+ molecules, nuclear_charge, energy_pbe0, energy_delta = read_qm7_data()
+
+ # Matrices calculation.
+ cm_data, ljm_data = parallel_create_matrices(molecules,
+ nuclear_charge,
+ ljm_sigma,
+ ljm_epsilon)
+
+ # ML calculation.
+ procs = []
+ cm_pipes = []
+ ljm_pipes = []
+ for i in range(min_training_size,
+ max_training_size + 1,
+ training_increment_size):
+ cm_recv, cm_send = Pipe(False)
+ p1 = Process(target=ml,
+ args=(cm_data, energy_pbe0, i, 'CM', cm_send))
+ procs.append(p1)
+ cm_pipes.append(cm_recv)
+ p1.start()
+
+ ljm_recv, ljm_send = Pipe(False)
+ p2 = Process(target=ml,
+ args=(ljm_data, energy_pbe0, i, 'L-JM', ljm_send))
+ procs.append(p2)
+ ljm_pipes.append(ljm_recv)
+ p2.start()
+
+ cm_bench_results = []
+ ljm_bench_results = []
+ for cd_pipe, ljd_pipe in zip(cm_pipes, ljm_pipes):
+ cm_bench_results.append(cd_pipe.recv())
+ ljm_bench_results.append(ljd_pipe.recv())
+
+ for proc in procs:
+ proc.join()
+
+ if save_benchmarks:
+ with open('data\\benchmarks.csv', 'a') as save_file:
+ # save_file.write(''.join(['ml_type,tr_size,te_size,kernel_s,',
+ # 'mae,time,lj_s,lj_e,date_ran\n']))
+ ltime = time.localtime()[:3][::-1]
+ ljm_se = ',' + str(ljm_sigma) + ',' + str(ljm_epsilon) + ','
+ date = '/'.join([str(field) for field in ltime])
+ for cm, ljm, in zip(cm_bench_results, ljm_bench_results):
+ cm_text = ','.join([str(field) for field in cm])\
+ + ',' + date + '\n'
+ ljm_text = ','.join([str(field) for field in ljm])\
+ + ljm_se + date + '\n'
+ save_file.write(cm_text)
+ save_file.write(ljm_text)
+
+ # End of program
+ end_time = time.perf_counter()
+ printc('Program took {:.4f} seconds.'.format(end_time - init_time),
+ 'CYAN')