def train_net(image_set, year, root_path, devkit_path, pretrained, epoch, prefix, ctx, begin_epoch, end_epoch, frequent, kv_store, work_load_list=None, resume=False): # set up logger logger = logging.getLogger() logger.setLevel(logging.INFO) # load symbol sym = get_vgg_rcnn() # setup multi-gpu config.TRAIN.BATCH_IMAGES *= len(ctx) config.TRAIN.BATCH_SIZE *= len(ctx) # load training data voc, roidb, means, stds = load_rpn_roidb(image_set, year, root_path, devkit_path, flip=True) train_data = ROIIter(roidb, batch_size=config.TRAIN.BATCH_IMAGES, shuffle=True, mode='train', ctx=ctx, work_load_list=work_load_list) # infer max shape max_data_shape = [('data', (1, 3, 1000, 1000))] # load pretrained args, auxs = load_param(pretrained, epoch, convert=True) # initialize params if not resume: input_shapes = {k: v for k, v in train_data.provide_data + train_data.provide_label} arg_shape, _, _ = sym.infer_shape(**input_shapes) arg_shape_dict = dict(zip(sym.list_arguments(), arg_shape)) args['cls_score_weight'] = mx.random.normal(mean=0, stdvar=0.01, shape=arg_shape_dict['cls_score_weight']) args['cls_score_bias'] = mx.nd.zeros(shape=arg_shape_dict['cls_score_bias']) args['bbox_pred_weight'] = mx.random.normal(mean=0, stdvar=0.001, shape=arg_shape_dict['bbox_pred_weight']) args['bbox_pred_bias'] = mx.nd.zeros(shape=arg_shape_dict['bbox_pred_bias']) # train solver = Solver(prefix, sym, ctx, begin_epoch, end_epoch, kv_store, args, auxs, momentum=0.9, wd=0.0005, learning_rate=1e-3, lr_scheduler=mx.lr_scheduler.FactorScheduler(30000, 0.1), mutable_data_shape=True, max_data_shape=max_data_shape) solver.fit(train_data, frequent=frequent) # edit params and save for epoch in range(begin_epoch + 1, end_epoch + 1): arg_params, aux_params = load_checkpoint(prefix, epoch) arg_params['bbox_pred_weight'] = (arg_params['bbox_pred_weight'].T * mx.nd.array(stds)).T arg_params['bbox_pred_bias'] = arg_params['bbox_pred_bias'] * mx.nd.array(stds) + \ mx.nd.array(means) save_checkpoint(prefix, epoch, arg_params, aux_params)
def train_rcnn(image_set, year, root_path, devkit_path, pretrained, epoch, prefix, ctx, begin_epoch, end_epoch, frequent, kv_store, work_load_list=None, resume=False, proposal='rpn'): # set up logger logger = logging.getLogger() logger.setLevel(logging.INFO) # load symbol sym = get_vgg_rcnn() # setup multi-gpu config.TRAIN.BATCH_IMAGES *= len(ctx) config.TRAIN.BATCH_SIZE *= len(ctx) # load training data voc, roidb, means, stds = eval('load_' + proposal + '_roidb')(image_set, year, root_path, devkit_path, flip=True) train_data = ROIIter(roidb, batch_size=config.TRAIN.BATCH_IMAGES, shuffle=True, mode='train', ctx=ctx, work_load_list=work_load_list) # infer max shape max_data_shape = [('data', (config.TRAIN.BATCH_IMAGES, 3, 1000, 1000))] # load pretrained args, auxs, _ = load_param(pretrained, epoch, convert=True) # initialize params if not resume: input_shapes = { k: v for k, v in train_data.provide_data + train_data.provide_label } arg_shape, _, _ = sym.infer_shape(**input_shapes) arg_shape_dict = dict(zip(sym.list_arguments(), arg_shape)) args['cls_score_weight'] = mx.random.normal( 0, 0.01, shape=arg_shape_dict['cls_score_weight']) args['cls_score_bias'] = mx.nd.zeros( shape=arg_shape_dict['cls_score_bias']) args['bbox_pred_weight'] = mx.random.normal( 0, 0.001, shape=arg_shape_dict['bbox_pred_weight']) args['bbox_pred_bias'] = mx.nd.zeros( shape=arg_shape_dict['bbox_pred_bias']) # prepare training if config.TRAIN.FINETUNE: fixed_param_prefix = ['conv1', 'conv2', 'conv3', 'conv4', 'conv5'] else: fixed_param_prefix = ['conv1', 'conv2'] data_names = [k[0] for k in train_data.provide_data] label_names = [k[0] for k in train_data.provide_label] batch_end_callback = Speedometer(train_data.batch_size, frequent=frequent) epoch_end_callback = mx.callback.do_checkpoint(prefix) if config.TRAIN.HAS_RPN is True: eval_metric = AccuracyMetric(use_ignore=True, ignore=-1) cls_metric = LogLossMetric(use_ignore=True, ignore=-1) else: eval_metric = AccuracyMetric() cls_metric = LogLossMetric() bbox_metric = SmoothL1LossMetric() eval_metrics = mx.metric.CompositeEvalMetric() for child_metric in [eval_metric, cls_metric, bbox_metric]: eval_metrics.add(child_metric) optimizer_params = { 'momentum': 0.9, 'wd': 0.0005, 'learning_rate': 0.001, 'lr_scheduler': mx.lr_scheduler.FactorScheduler(30000, 0.1), 'rescale_grad': (1.0 / config.TRAIN.BATCH_SIZE) } # train mod = MutableModule(sym, data_names=data_names, label_names=label_names, logger=logger, context=ctx, work_load_list=work_load_list, max_data_shapes=max_data_shape, fixed_param_prefix=fixed_param_prefix) mod.fit(train_data, eval_metric=eval_metrics, epoch_end_callback=epoch_end_callback, batch_end_callback=batch_end_callback, kvstore=kv_store, optimizer='sgd', optimizer_params=optimizer_params, arg_params=args, aux_params=auxs, begin_epoch=begin_epoch, num_epoch=end_epoch) # edit params and save for epoch in range(begin_epoch + 1, end_epoch + 1): arg_params, aux_params = load_checkpoint(prefix, epoch) arg_params['bbox_pred_weight'] = (arg_params['bbox_pred_weight'].T * mx.nd.array(stds)).T arg_params['bbox_pred_bias'] = arg_params['bbox_pred_bias'] * mx.nd.array(stds) + \ mx.nd.array(means) save_checkpoint(prefix, epoch, arg_params, aux_params)
def train_rcnn( image_set, year, root_path, devkit_path, pretrained, epoch, prefix, ctx, begin_epoch, end_epoch, frequent, kv_store, work_load_list=None, ): # load symbol sym = get_vgg_rcnn() # setup multi-gpu config.TRAIN.BATCH_IMAGES *= len(ctx) config.TRAIN.BATCH_SIZE *= len(ctx) # load training data voc, roidb, means, stds = load_rpn_roidb(image_set, year, root_path, devkit_path, flip=True) train_data = ROIIter( roidb, batch_size=config.TRAIN.BATCH_IMAGES, shuffle=True, mode="train", ctx=ctx, work_load_list=work_load_list ) # infer max shape max_data_shape = [("data", (1, 3, 1000, 1000))] # load pretrained args, auxs = load_param(pretrained, epoch, convert=True) # initialize params arg_shape, _, _ = sym.infer_shape(data=(1, 3, 224, 224), rois=(1, 5)) arg_shape_dict = dict(zip(sym.list_arguments(), arg_shape)) args["cls_score_weight"] = mx.random.normal(mean=0, stdvar=0.01, shape=arg_shape_dict["cls_score_weight"]) args["cls_score_bias"] = mx.nd.zeros(shape=arg_shape_dict["cls_score_bias"]) args["bbox_pred_weight"] = mx.random.normal(mean=0, stdvar=0.001, shape=arg_shape_dict["bbox_pred_weight"]) args["bbox_pred_bias"] = mx.nd.zeros(shape=arg_shape_dict["bbox_pred_bias"]) # train solver = Solver( prefix, sym, ctx, begin_epoch, end_epoch, kv_store, args, auxs, momentum=0.9, wd=0.0005, learning_rate=1e-3, lr_scheduler=mx.lr_scheduler.FactorScheduler(30000, 0.1), mutable_data_shape=True, max_data_shape=max_data_shape, ) solver.fit(train_data, frequent=frequent) # edit params and save for epoch in range(begin_epoch + 1, end_epoch + 1): arg_params, aux_params = load_checkpoint(prefix, epoch) arg_params["bbox_pred_weight"] = (arg_params["bbox_pred_weight"].T * mx.nd.array(stds)).T arg_params["bbox_pred_bias"] = arg_params["bbox_pred_bias"] * mx.nd.array(stds) + mx.nd.array(means) save_checkpoint(prefix, epoch, arg_params, aux_params)
def train_rcnn(image_set, year, root_path, devkit_path, pretrained, epoch, prefix, ctx, begin_epoch, end_epoch, frequent, kv_store, work_load_list=None, resume=False, proposal='rpn'): # set up logger logger = logging.getLogger() logger.setLevel(logging.INFO) # load symbol sym = get_vgg_rcnn() # setup multi-gpu config.TRAIN.BATCH_IMAGES *= len(ctx) config.TRAIN.BATCH_SIZE *= len(ctx) # load training data voc, roidb, means, stds = eval('load_' + proposal + '_roidb')(image_set, year, root_path, devkit_path, flip=True) train_data = ROIIter(roidb, batch_size=config.TRAIN.BATCH_IMAGES, shuffle=True, mode='train', ctx=ctx, work_load_list=work_load_list) # infer max shape max_data_shape = [('data', (config.TRAIN.BATCH_IMAGES, 3, 1000, 1000))] # load pretrained args, auxs = load_param(pretrained, epoch, convert=True) # initialize params if not resume: input_shapes = {k: v for k, v in train_data.provide_data + train_data.provide_label} arg_shape, _, _ = sym.infer_shape(**input_shapes) arg_shape_dict = dict(zip(sym.list_arguments(), arg_shape)) args['cls_score_weight'] = mx.random.normal(0, 0.01, shape=arg_shape_dict['cls_score_weight']) args['cls_score_bias'] = mx.nd.zeros(shape=arg_shape_dict['cls_score_bias']) args['bbox_pred_weight'] = mx.random.normal(0, 0.001, shape=arg_shape_dict['bbox_pred_weight']) args['bbox_pred_bias'] = mx.nd.zeros(shape=arg_shape_dict['bbox_pred_bias']) # prepare training if config.TRAIN.FINETUNE: fixed_param_prefix = ['conv1', 'conv2', 'conv3', 'conv4', 'conv5'] else: fixed_param_prefix = ['conv1', 'conv2'] data_names = [k[0] for k in train_data.provide_data] label_names = [k[0] for k in train_data.provide_label] #batch_end_callback = Speedometer(train_data.batch_size, frequent=frequent) epoch_end_callback = mx.callback.do_checkpoint(prefix) if config.TRAIN.HAS_RPN is True: eval_metric = AccuracyMetric(use_ignore=True, ignore=-1) cls_metric = LogLossMetric(use_ignore=True, ignore=-1) else: eval_metric = AccuracyMetric() cls_metric = LogLossMetric() bbox_metric = SmoothL1LossMetric() eval_metrics = mx.metric.CompositeEvalMetric() for child_metric in [eval_metric, cls_metric, bbox_metric]: eval_metrics.add(child_metric) optimizer_params = {'momentum': 0.9, 'wd': 0.0005, 'learning_rate': 0.001, 'lr_scheduler': mx.lr_scheduler.FactorScheduler(30000, 0.1), 'rescale_grad': (1.0 / config.TRAIN.BATCH_SIZE)} # train # mod = MutableModule(sym, data_names=data_names, label_names=label_names, # logger=logger, context=ctx, work_load_list=work_load_list, # max_data_shapes=max_data_shape, fixed_param_prefix=fixed_param_prefix) # mod.fit(train_data, eval_metric=eval_metrics, epoch_end_callback=epoch_end_callback, # batch_end_callback=batch_end_callback, kvstore=kv_store, # optimizer='sgd', optimizer_params=optimizer_params, # arg_params=args, aux_params=auxs, begin_epoch=begin_epoch, num_epoch=end_epoch) from mxnet.executor import Executor def batch_end_callback(batch_size, frequent): call_back = mx.callback.Speedometer(batch_size, frequent) def AverageL2Norm(d): return (mx.nd.norm(d) / np.sqrt(d.size)).asnumpy()[0] def decorator(parameter): call_back(parameter) if parameter.locals['nbatch'] % frequent == 0: executor_manager = parameter.locals['executor_manager'] d = Executor._get_dict(executor_manager.aux_names, executor_manager.aux_arrays) for key, value in sorted(list(zip(d.keys(), d.values()))): print(key, 'AverageL2Norm(aux):', AverageL2Norm(value[0])) for (index, value) in enumerate(executor_manager.param_names): print (value, 'AverageL2Norm(param,grad):', (AverageL2Norm(executor_manager.param_arrays[index][0]), AverageL2Norm(executor_manager.grad_arrays[index][0]))) return decorator mod = mx.model.FeedForward(sym, data_names=data_names, label_names=label_names, logger=logger, ctx=ctx, work_load_list=work_load_list, fixed_param_prefix=fixed_param_prefix, optimizer=mx.optimizer.SGD(**optimizer_params), arg_params=args, aux_params=auxs, begin_epoch=begin_epoch, num_epoch=end_epoch ) mod.fit(train_data, eval_metric=eval_metrics, epoch_end_callback=epoch_end_callback, batch_end_callback=batch_end_callback(train_data.batch_size, frequent=frequent), kvstore=kv_store) # edit params and save for epoch in range(begin_epoch + 1, end_epoch + 1): arg_params, aux_params = load_checkpoint(prefix, epoch) arg_params['bbox_pred_weight'] = (arg_params['bbox_pred_weight'].T * mx.nd.array(stds)).T arg_params['bbox_pred_bias'] = arg_params['bbox_pred_bias'] * mx.nd.array(stds) + \ mx.nd.array(means) save_checkpoint(prefix, epoch, arg_params, aux_params)
def train_rcnn(image_set, year, root_path, devkit_path, pretrained, epoch, prefix, ctx, begin_epoch, end_epoch, frequent, kv_store, work_load_list=None, resume=False, proposal='rpn'): # set up logger logger = logging.getLogger() logger.setLevel(logging.INFO) # load symbol sym = get_vgg_rcnn() # setup multi-gpu config.TRAIN.BATCH_IMAGES *= len(ctx) config.TRAIN.BATCH_SIZE *= len(ctx) # load training data voc, roidb, means, stds = eval('load_' + proposal + '_roidb')(image_set, year, root_path, devkit_path, flip=True) train_data = ROIIter(roidb, batch_size=config.TRAIN.BATCH_IMAGES, shuffle=True, mode='train', ctx=ctx, work_load_list=work_load_list) # infer max shape max_data_shape = [('data', (config.TRAIN.BATCH_IMAGES, 3, 1000, 1000))] # load pretrained args, auxs = load_param(pretrained, epoch, convert=True) # initialize params if not resume: input_shapes = {k: v for k, v in train_data.provide_data + train_data.provide_label} arg_shape, _, _ = sym.infer_shape(**input_shapes) arg_shape_dict = dict(zip(sym.list_arguments(), arg_shape)) args['cls_score_weight'] = mx.random.normal(0, 0.01, shape=arg_shape_dict['cls_score_weight']) args['cls_score_bias'] = mx.nd.zeros(shape=arg_shape_dict['cls_score_bias']) args['bbox_pred_weight'] = mx.random.normal(0, 0.001, shape=arg_shape_dict['bbox_pred_weight']) args['bbox_pred_bias'] = mx.nd.zeros(shape=arg_shape_dict['bbox_pred_bias']) # prepare training if config.TRAIN.FINETUNE: fixed_param_prefix = ['conv1', 'conv2', 'conv3', 'conv4', 'conv5'] else: fixed_param_prefix = ['conv1', 'conv2'] data_names = [k[0] for k in train_data.provide_data] label_names = [k[0] for k in train_data.provide_label] batch_end_callback = Speedometer(train_data.batch_size, frequent=frequent) epoch_end_callback = mx.callback.do_checkpoint(prefix) if config.TRAIN.HAS_RPN is True: eval_metric = AccuracyMetric(use_ignore=True, ignore=-1) cls_metric = LogLossMetric(use_ignore=True, ignore=-1) else: eval_metric = AccuracyMetric() cls_metric = LogLossMetric() bbox_metric = SmoothL1LossMetric() eval_metrics = mx.metric.CompositeEvalMetric() for child_metric in [eval_metric, cls_metric, bbox_metric]: eval_metrics.add(child_metric) optimizer_params = {'momentum': 0.9, 'wd': 0.0005, 'learning_rate': 0.001, 'lr_scheduler': mx.lr_scheduler.FactorScheduler(30000, 0.1), 'rescale_grad': (1.0 / config.TRAIN.BATCH_SIZE)} # train mod = MutableModule(sym, data_names=data_names, label_names=label_names, logger=logger, context=ctx, work_load_list=work_load_list, max_data_shapes=max_data_shape, fixed_param_prefix=fixed_param_prefix) mod.fit(train_data, eval_metric=eval_metrics, epoch_end_callback=epoch_end_callback, batch_end_callback=batch_end_callback, kvstore=kv_store, optimizer='sgd', optimizer_params=optimizer_params, arg_params=args, aux_params=auxs, begin_epoch=begin_epoch, num_epoch=end_epoch) # edit params and save for epoch in range(begin_epoch + 1, end_epoch + 1): arg_params, aux_params = load_checkpoint(prefix, epoch) arg_params['bbox_pred_weight'] = (arg_params['bbox_pred_weight'].T * mx.nd.array(stds)).T arg_params['bbox_pred_bias'] = arg_params['bbox_pred_bias'] * mx.nd.array(stds) + \ mx.nd.array(means) save_checkpoint(prefix, epoch, arg_params, aux_params)