Skip to content

P
PaddleRec

PaddlePaddle / PaddleRec

通知 68
Star 12
Fork 5
P
PaddleRec

前往新版Gitcode,体验更适合开发者的 AI 搜索 >>

提交 ead2a1a9 编写于 作者: X xiexionghang
浏览文件
操作

commit kagle for paddle

上级 28ed5927
隐藏空白更改
内联 并排
Showing with 15 addition and 376 deletion
kagle/kagle_table.py
浏览文件 @ ead2a1a9
"""
Construct ParamTable Meta
"""
import copy
import yaml
from abc import ABCMeta, abstractmethod
class TableMeta:
class TableMeta(object):
"""
Simple ParamTable Meta, Contain table_id
"""
TableId = 1
@staticmethod
def alloc_new_table(table_id):
"""
create table with table_id
Args:
table_id(int)
Return:
table(TableMeta) : a TableMeta instance with table_id
"""
if table_id < 0:
table_id = TableMeta.TableId
if table_id >= TableMeta.TableId:
......@@ -15,5 +27,5 @@ class TableMeta:
return table
def __init__(self, table_id):
""" """
self._table_id = table_id
pass
kagle/kagle_trainer.py 已删除 100755 → 0
浏览文件 @ 28ed5927
import sys
import copy
import yaml
import time
import json
import datetime
import kagle_fs
import kagle_util
import kagle_model
import kagle_dataset
import kagle_metric
import paddle.fluid as fluid
from abc import ABCMeta, abstractmethod
from paddle.fluid.incubate.fleet.parameter_server.pslib import fleet
class Trainer(object):
__metaclass__=ABCMeta
def __init__(self, config):
self._status_processor = {}
self._context = {'status': 'uninit', 'is_exit': False}
def regist_context_processor(self, status_name, processor):
self._status_processor[status_name] = processor
def context_process(self, context):
if context['status'] in self._status_processor:
self._status_processor[context['status']](context)
else:
self.other_status_processor(context)
def other_status_processor(self, context):
print('unknow context_status:%s, do nothing' % context['status'])
time.sleep(60)
def reload_train_context(self):
pass
def run(self):
while True:
self.reload_train_context()
self.context_process(self._context)
if self._context['is_exit']:
break
class AbacusPaddleTrainer(Trainer):
def __init__(self, config):
Trainer.__init__(self, config)
config['output_path'] = kagle_util.get_absolute_path(
config['output_path'], config['io']['afs'])
self.global_config = config
self._place = fluid.CPUPlace()
self._exe = fluid.Executor(self._place)
self._exector_context = {}
self._metrics = {}
self._path_generator = kagle_util.PathGenerator({
'templates' : [
{'name': 'xbox_base_done', 'template': config['output_path'] + '/xbox_base_done.txt'},
{'name': 'xbox_delta_done', 'template': config['output_path'] + '/xbox_patch_done.txt'},
{'name': 'xbox_base', 'template': config['output_path'] + '/xbox/{day}/base/'},
{'name': 'xbox_delta', 'template': config['output_path'] + '/xbox/{day}/delta-{pass_id}/'},
{'name': 'batch_model', 'template': config['output_path'] + '/batch_model/{day}/{pass_id}/'}
]
})
if 'path_generator' in config:
self._path_generator.add_path_template(config['path_generator'])
self.regist_context_processor('uninit', self.init)
self.regist_context_processor('startup', self.startup)
self.regist_context_processor('begin_day', self.begin_day)
self.regist_context_processor('train_pass', self.train_pass)
self.regist_context_processor('end_day', self.end_day)
def init(self, context):
fleet.init(self._exe)
data_var_list = []
data_var_name_dict = {}
runnnable_scope = []
runnnable_cost_op = []
context['status'] = 'startup'
for executor in self.global_config['executor']:
scope = fluid.Scope()
self._exector_context[executor['name']] = {}
self._exector_context[executor['name']]['scope'] = scope
self._exector_context[executor['name']]['model'] = kagle_model.create(executor)
model = self._exector_context[executor['name']]['model']
self._metrics.update(model.get_metrics())
runnnable_scope.append(scope)
runnnable_cost_op.append(model.get_cost_op())
for var in model._data_var:
if var.name in data_var_name_dict:
continue
data_var_list.append(var)
data_var_name_dict[var.name] = var
optimizer = kagle_model.FluidModel.build_optimizer({
'metrics' : self._metrics,
'optimizer_conf' : self.global_config['optimizer']
})
optimizer.minimize(runnnable_cost_op, runnnable_scope)
for executor in self.global_config['executor']:
scope = self._exector_context[executor['name']]['scope']
model = self._exector_context[executor['name']]['model']
program = model._build_param['model']['train_program']
if not executor['is_update_sparse']:
program._fleet_opt["program_configs"][str(id(model.get_cost_op().block.program))]["push_sparse"] = []
if 'train_thread_num' not in executor:
executor['train_thread_num'] = global_config['train_thread_num']
with fluid.scope_guard(scope):
self._exe.run(model._build_param['model']['startup_program'])
model.dump_model_program('./')
#server init done
if fleet.is_server():
return 0
self._dataset = {}
for dataset_item in self.global_config['dataset']['data_list']:
dataset_item['data_vars'] = data_var_list
dataset_item.update(self.global_config['io']['afs'])
dataset_item["batch_size"] = self.global_config['batch_size']
self._dataset[dataset_item['name']] = kagle_dataset.FluidTimeSplitDataset(dataset_item)
#if config.need_reqi_changeslot and config.reqi_dnn_plugin_day >= last_day and config.reqi_dnn_plugin_pass >= last_pass:
# util.reqi_changeslot(config.hdfs_dnn_plugin_path, join_save_params, common_save_params, update_save_params, scope2, scope3)
fleet.init_worker()
pass
def print_log(self, log_str, params):
params['index'] = fleet.worker_index()
return kagle_util.print_log(log_str, params)
def print_global_metrics(self, scope, model, monitor_data, stdout_str):
metrics = model.get_metrics()
metric_calculator = kagle_metric.PaddleAUCMetric(None)
for metric in metrics:
metric_param = {'label' : metric, 'metric_dict' : metrics[metric]}
metric_calculator.calculate(scope, metric_param)
metric_result = metric_calculator.get_result_to_string()
self.print_log(metric_result, {'master': True, 'stdout' : stdout_str})
monitor_data += metric_result
metric_calculator.clear(scope, metric_param)
def save_model(self, day, pass_index, base_key):
cost_printer = kagle_util.CostPrinter(kagle_util.print_cost,
{'master': True, 'log_format' : 'save model cost %s sec'})
model_path = self._path_generator.generate_path('batch_model', {'day': day, 'pass_id': pass_index})
save_mode = 0 # just save all
if pass_index < 1: #batch_model
save_mode = 3 # unseen_day++, save all
kagle_util.rank0_print("going to save_model %s" % model_path)
fleet.save_persistables(None, model_path, mode=save_mode)
self._train_pass.save_train_progress(day, pass_index, base_key, model_path, is_checkpoint=True)
cost_printer.done()
return model_path
def save_xbox_model(self, day, pass_index, xbox_base_key, monitor_data):
stdout_str = ""
xbox_patch_id = str(int(time.time()))
kagle_util.rank0_print("begin save delta model")
model_path = ""
xbox_model_donefile = ""
cost_printer = kagle_util.CostPrinter(kagle_util.print_cost, {'master': True, 'log_format' : 'save xbox model cost %s sec', 'stdout' : stdout_str})
if pass_index < 1:
save_mode = 2
xbox_patch_id = xbox_base_key
model_path = self._path_generator.generate_path('xbox_base', {'day' : day})
xbox_model_donefile = self._path_generator.generate_path('xbox_base_done', {'day' : day})
else:
save_mode = 1
model_path = self._path_generator.generate_path('xbox_delta', {'day' : day, 'pass_id':pass_index})
xbox_model_donefile = self._path_generator.generate_path('xbox_delta_done', {'day' : day})
total_save_num = fleet.save_persistables(None, model_path, mode=save_mode)
cost_printer.done()
cost_printer = kagle_util.CostPrinter(kagle_util.print_cost, {'master': True,
'log_format' : 'save cache model cost %s sec', 'stdout' : stdout_str})
model_file_handler = kagle_fs.FileHandler(self.global_config['io']['afs'])
if self.global_config['save_cache_model']:
cache_save_num = fleet.save_cache_model(None, model_path, mode=save_mode)
model_file_handler.write(
"file_prefix:part\npart_num:16\nkey_num:%d\n" % cache_save_num,
model_path + '/000_cache/sparse_cache.meta', 'w')
cost_printer.done()
kagle_util.rank0_print("save xbox cache model done, key_num=%s" % cache_save_num)
save_env_param = {
'executor': self._exe,
'save_combine': True
}
cost_printer = kagle_util.CostPrinter(kagle_util.print_cost, {'master': True,
'log_format' : 'save dense model cost %s sec', 'stdout' : stdout_str})
for executor in self.global_config['executor']:
if 'layer_for_inference' not in executor:
continue
executor_name = executor['name']
model = self._exector_context[executor_name]['model']
save_env_param['inference_list'] = executor['layer_for_inference']
save_env_param['scope'] = self._exector_context[executor_name]['scope']
model.dump_inference_param(save_env_param)
for dnn_layer in executor['layer_for_inference']:
model_file_handler.cp(dnn_layer['save_file_name'],
model_path + '/dnn_plugin/' + dnn_layer['save_file_name'])
cost_printer.done()
xbox_done_info = {
"id" : xbox_patch_id,
"key" : xbox_base_key,
"ins_path" : "",
"ins_tag" : "feasign",
"partition_type" : "2",
"record_count" : "111111",
"monitor_data" : monitor_data,
"mpi_size" : str(fleet.worker_num()),
"input" : model_path.rstrip("/") + "/000",
"job_id" : kagle_util.get_env_value("JOB_ID"),
"job_name" : kagle_util.get_env_value("JOB_NAME")
}
model_file_handler.write(json.dumps(xbox_done_info) + "\n", xbox_model_donefile, 'a')
if pass_index > 0:
self._train_pass.save_train_progress(day, pass_index, xbox_base_key, model_path, is_checkpoint=False)
return stdout_str
def run_executor(self, executor_config, dataset, stdout_str):
day = self._train_pass.date()
pass_id = self._train_pass._pass_id
xbox_base_key = self._train_pass._base_key
executor_name = executor_config['name']
scope = self._exector_context[executor_name]['scope']
model = self._exector_context[executor_name]['model']
with fluid.scope_guard(scope):
kagle_util.rank0_print("Begin " + executor_name + " pass")
begin = time.time()
program = model._build_param['model']['train_program']
self._exe.train_from_dataset(program, dataset, scope,
thread=executor_config['train_thread_num'], debug=self.global_config['debug'])
end = time.time()
local_cost = (end-begin) / 60.0
avg_cost = kagle_util.worker_numric_avg(local_cost)
min_cost = kagle_util.worker_numric_min(local_cost)
max_cost = kagle_util.worker_numric_max(local_cost)
kagle_util.rank0_print("avg train time %s mins, min %s mins, max %s mins" % (avg_cost, min_cost, max_cost))
self._exector_context[executor_name]['cost'] = max_cost
monitor_data = ""
self.print_global_metrics(scope, model, monitor_data, stdout_str)
kagle_util.rank0_print("End " + executor_name + " pass")
if self._train_pass.need_dump_inference(pass_id) and executor_config['dump_inference_model']:
stdout_str += self.save_xbox_model(day, pass_id, xbox_base_key, monitor_data)
def startup(self, context):
if fleet.is_server():
fleet.run_server()
context['status'] = 'wait'
return
stdout_str = ""
self._train_pass = kagle_util.TimeTrainPass(self.global_config)
if not self.global_config['cold_start']:
cost_printer = kagle_util.CostPrinter(kagle_util.print_cost,
{'master': True, 'log_format' : 'load model cost %s sec', 'stdout' : stdout_str})
self.print_log("going to load model %s" % self._train_pass._checkpoint_model_path, {'master': True})
#if config.need_reqi_changeslot and config.reqi_dnn_plugin_day >= self._train_pass.date()
# and config.reqi_dnn_plugin_pass >= self._pass_id:
# fleet.load_one_table(0, self._train_pass._checkpoint_model_path)
#else:
fleet.init_server(self._train_pass._checkpoint_model_path, mode=0)
cost_printer.done()
if self.global_config['save_first_base']:
self.print_log("save_first_base=True", {'master': True})
self.print_log("going to save xbox base model", {'master': True, 'stdout' : stdout_str})
self._train_pass._base_key = int(time.time())
stdout_str += self.save_xbox_model(day, 0, self._train_pass._base_key, "")
context['status'] = 'begin_day'
def begin_day(self, context):
stdout_str = ""
if not self._train_pass.next():
context['is_exit'] = True
day = self._train_pass.date()
pass_id = self._train_pass._pass_id
self.print_log("======== BEGIN DAY:%s ========" % day, {'master': True, 'stdout' : stdout_str})
if pass_id == self._train_pass.max_pass_num_day():
context['status'] = 'end_day'
else:
context['status'] = 'train_pass'
def end_day(self, context):
day = self._train_pass.date()
pass_id = self._train_pass._pass_id
xbox_base_key = int(time.time())
context['status'] = 'begin_day'
kagle_util.rank0_print("shrink table")
cost_printer = kagle_util.CostPrinter(kagle_util.print_cost,
{'master': True, 'log_format' : 'shrink table done, cost %s sec'})
fleet.shrink_sparse_table()
for executor in self._exector_context:
self._exector_context[executor]['model'].shrink({
'scope': self._exector_context[executor]['scope'],
'decay': self.global_config['optimizer']['dense_decay_rate']
})
cost_printer.done()
next_date = self._train_pass.date(delta_day=1)
kagle_util.rank0_print("going to save xbox base model")
self.save_xbox_model(next_date, 0, xbox_base_key, "")
kagle_util.rank0_print("going to save batch model")
self.save_model(next_date, 0, xbox_base_key)
self._train_pass._base_key = xbox_base_key
def train_pass(self, context):
stdout_str = ""
day = self._train_pass.date()
pass_id = self._train_pass._pass_id
base_key = self._train_pass._base_key
pass_time = self._train_pass._current_train_time.strftime("%Y%m%d%H%M")
self.print_log(" ==== begin delta:%s ========" % pass_id, {'master': True, 'stdout' : stdout_str})
train_begin_time = time.time()
cost_printer = kagle_util.CostPrinter(kagle_util.print_cost, {'master': True, 'log_format' : 'load into memory done, cost %s sec', 'stdout' : stdout_str})
current_dataset = {}
for name in self._dataset:
current_dataset[name] = self._dataset[name].load_dataset({
'node_num': fleet.worker_num(), 'node_idx': fleet.worker_index(),
'begin_time': pass_time, 'time_window_min': self._train_pass._interval_per_pass
})
cost_printer.done()
kagle_util.rank0_print("going to global shuffle")
cost_printer = kagle_util.CostPrinter(kagle_util.print_cost, {
'master': True, 'stdout' : stdout_str,
'log_format' : 'global shuffle done, cost %s sec'})
for name in current_dataset:
current_dataset[name].global_shuffle(fleet, self.global_config['dataset']['shuffle_thread'])
cost_printer.done()
# str(dataset.get_shuffle_data_size(fleet))
if self.global_config['prefetch_data']:
next_pass_time = (self._train_pass._current_train_time +
datetime.timedelta(minutes=self._train_pass._interval_per_pass)).strftime("%Y%m%d%H%M")
for name in self._dataset:
self._dataset[name].preload_dataset({
'node_num': fleet.worker_num(), 'node_idx': fleet.worker_index(),
'begin_time': next_pass_time, 'time_window_min': self._train_pass._interval_per_pass
})
pure_train_begin = time.time()
for executor in self.global_config['executor']:
self.run_executor(executor, current_dataset[executor['dataset_name']], stdout_str)
cost_printer = kagle_util.CostPrinter(kagle_util.print_cost, {'master': True, 'log_format' : 'release_memory cost %s sec'})
for name in current_dataset:
current_dataset[name].release_memory()
pure_train_cost = time.time() - pure_train_begin
if self._train_pass.is_checkpoint_pass(pass_id):
self.save_model(day, pass_id, base_key)
train_end_time = time.time()
train_cost = train_end_time - train_begin_time
other_cost = train_cost - pure_train_cost
log_str = "finished train day %s pass %s time cost:%s sec job time cost:" % (day, pass_id, train_cost)
for executor in self._exector_context:
log_str += '[' + executor + ':' + str(self._exector_context[executor]['cost']) + ']'
log_str += '[other_cost:' + str(other_cost) + ']'
kagle_util.rank0_print(log_str)
stdout_str += kagle_util.now_time_str() + log_str
sys.stdout.write(stdout_str)
stdout_str = ""
if pass_id == self._train_pass.max_pass_num_day():
context['status'] = 'end_day'
return
elif not self._train_pass.next():
context['is_exit'] = True
Markdown is supported
0% .
You are about to add 0 people to the discussion. Proceed with caution.
先完成此消息的编辑!
想要评论请 注册