def main(args): poas = [] init(args.seed, args.device) print("* loading data") testdata = ChunkDataSet( *load_data(limit=args.chunks, shuffle=args.shuffle)) dataloader = DataLoader(testdata, batch_size=args.batchsize) for w in [int(i) for i in args.weights.split(',')]: print("* loading model", w) model = load_model(args.model_directory, args.device, weights=w) print("* calling") predictions = [] t0 = time.perf_counter() for data, *_ in dataloader: with torch.no_grad(): log_probs = model(data.to(args.device)) predictions.append(log_probs.exp().cpu().numpy()) duration = time.perf_counter() - t0 references = [ decode_ref(target, model.alphabet) for target in dataloader.dataset.targets ] sequences = [ decode_ctc(post, model.alphabet) for post in np.concatenate(predictions) ] accuracies = list(starmap(accuracy, zip(references, sequences))) if args.poa: poas.append(sequences) print("* mean %.2f%%" % np.mean(accuracies)) print("* median %.2f%%" % np.median(accuracies)) print("* time %.2f" % duration) print("* samples/s %.2E" % (args.chunks * data.shape[2] / duration)) if args.poa: print("* doing poa") t0 = time.perf_counter() # group each sequence prediction per model together poas = [list(seq) for seq in zip(*poas)] consensuses = poa(poas) duration = time.perf_counter() - t0 accuracies = list(starmap(accuracy, zip(references, consensuses))) print("* mean %.2f%%" % np.mean(accuracies)) print("* median %.2f%%" % np.median(accuracies)) print("* time %.2f" % duration)
def main(args): workdir = os.path.expanduser(args.tuning_directory) if os.path.exists(workdir) and not args.force: print("* error: %s exists." % workdir) exit(1) os.makedirs(workdir, exist_ok=True) init(args.seed, args.device) device = torch.device(args.device) print("[loading data]") chunks, chunk_lengths, targets, target_lengths = load_data( limit=args.chunks, directory=args.directory) split = np.floor(chunks.shape[0] * args.validation_split).astype(np.int32) train_dataset = ChunkDataSet(chunks[:split], chunk_lengths[:split], targets[:split], target_lengths[:split]) test_dataset = ChunkDataSet(chunks[split:], chunk_lengths[split:], targets[split:], target_lengths[split:]) train_loader = DataLoader(train_dataset, batch_size=args.batch, shuffle=True, num_workers=4, pin_memory=True) test_loader = DataLoader(test_dataset, batch_size=args.batch, num_workers=4, pin_memory=True) def objective(trial): config = toml.load(args.config) lr = 1e-3 #config['block'][0]['stride'] = [trial.suggest_int('stride', 4, 6)] # C1 config['block'][0]['kernel'] = [ int(trial.suggest_discrete_uniform('c1_kernel', 1, 129, 2)) ] config['block'][0]['filters'] = trial.suggest_int( 'c1_filters', 1, 1024) # B1 - B5 for i in range(1, 6): config['block'][i]['repeat'] = trial.suggest_int( 'b%s_repeat' % i, 1, 9) config['block'][i]['filters'] = trial.suggest_int( 'b%s_filters' % i, 1, 512) config['block'][i]['kernel'] = [ int(trial.suggest_discrete_uniform('b%s_kernel' % i, 1, 129, 2)) ] # C2 config['block'][-2]['kernel'] = [ int(trial.suggest_discrete_uniform('c2_kernel', 1, 129, 2)) ] config['block'][-2]['filters'] = trial.suggest_int( 'c2_filters', 1, 1024) # C3 config['block'][-1]['kernel'] = [ int(trial.suggest_discrete_uniform('c3_kernel', 1, 129, 2)) ] config['block'][-1]['filters'] = trial.suggest_int( 'c3_filters', 1, 1024) model = load_symbol(config, 'Model')(config) num_params = sum(p.numel() for p in model.parameters()) print("[trial %s]" % trial.number) if num_params > args.max_params: print("[pruned] network too large") raise optuna.exceptions.TrialPruned() model.to(args.device) model.train() os.makedirs(workdir, exist_ok=True) optimizer = AdamW(model.parameters(), amsgrad=True, lr=lr) model, optimizer = amp.initialize(model, optimizer, opt_level="O1", verbosity=0) schedular = CosineAnnealingLR(optimizer, args.epochs * len(train_loader)) for epoch in range(1, args.epochs + 1): try: train_loss, duration = train(model, device, train_loader, optimizer, use_amp=True) val_loss, val_mean, val_median = test(model, device, test_loader) print( "[epoch {}] directory={} loss={:.4f} mean_acc={:.3f}% median_acc={:.3f}%" .format(epoch, workdir, val_loss, val_mean, val_median)) except KeyboardInterrupt: exit() except: print("[pruned] exception") raise optuna.exceptions.TrialPruned() if np.isnan(val_loss): val_loss = 9.9 trial.report(val_loss, epoch) if trial.should_prune(): print("[pruned] unpromising") raise optuna.exceptions.TrialPruned() trial.set_user_attr('seed', args.seed) trial.set_user_attr('val_loss', val_loss) trial.set_user_attr('val_mean', val_mean) trial.set_user_attr('val_median', val_median) trial.set_user_attr('train_loss', train_loss) trial.set_user_attr('batchsize', args.batch) trial.set_user_attr('model_params', num_params) torch.save(model.state_dict(), os.path.join(workdir, "weights_%s.tar" % trial.number)) toml.dump( config, open(os.path.join(workdir, 'config_%s.toml' % trial.number), 'w')) print("[loss] %.4f" % val_loss) return val_loss print("[starting study]") optuna.logging.set_verbosity(optuna.logging.WARNING) study = optuna.create_study(direction='minimize', storage='sqlite:///%s' % os.path.join(workdir, 'tune.db'), study_name='bonito-study', load_if_exists=True, pruner=SuccessiveHalvingPruner()) study.optimize(objective, n_trials=args.trials)
def main(args): poas = [] init(args.seed, args.device) print("* loading data") testdata = ChunkDataSet( *load_data( limit=args.chunks, shuffle=args.shuffle, directory=args.directory, validation=True ) ) dataloader = DataLoader(testdata, batch_size=args.batchsize) accuracy_with_cov = lambda ref, seq: accuracy(ref, seq, min_coverage=args.min_coverage) for w in [int(i) for i in args.weights.split(',')]: seqs = [] print("* loading model", w) model = load_model(args.model_directory, args.device, weights=w) print("* calling") t0 = time.perf_counter() with torch.no_grad(): for data, *_ in dataloader: if half_supported(): data = data.type(torch.float16).to(args.device) else: data = data.to(args.device) log_probs = model(data) if hasattr(model, 'decode_batch'): seqs.extend(model.decode_batch(log_probs)) else: seqs.extend([model.decode(p) for p in permute(log_probs, 'TNC', 'NTC')]) duration = time.perf_counter() - t0 refs = [decode_ref(target, model.alphabet) for target in dataloader.dataset.targets] accuracies = [accuracy_with_cov(ref, seq) if len(seq) else 0. for ref, seq in zip(refs, seqs)] if args.poa: poas.append(sequences) print("* mean %.2f%%" % np.mean(accuracies)) print("* median %.2f%%" % np.median(accuracies)) print("* time %.2f" % duration) print("* samples/s %.2E" % (args.chunks * data.shape[2] / duration)) if args.poa: print("* doing poa") t0 = time.perf_counter() # group each sequence prediction per model together poas = [list(seq) for seq in zip(*poas)] consensuses = poa(poas) duration = time.perf_counter() - t0 accuracies = list(starmap(accuracy_with_coverage_filter, zip(references, consensuses))) print("* mean %.2f%%" % np.mean(accuracies)) print("* median %.2f%%" % np.median(accuracies)) print("* time %.2f" % duration)
def main(args): init(args.seed, args.device) if args.model_directory in models and args.model_directory not in os.listdir( __models__): sys.stderr.write("> downloading model\n") File(__models__, models[args.model_directory]).download() sys.stderr.write(f"> loading model {args.model_directory}\n") try: model = load_model( args.model_directory, args.device, weights=int(args.weights), chunksize=args.chunksize, overlap=args.overlap, batchsize=args.batchsize, quantize=args.quantize, use_koi=True, ) except FileNotFoundError: sys.stderr.write(f"> error: failed to load {args.model_directory}\n") sys.stderr.write(f"> available models:\n") for model in sorted(models): sys.stderr.write(f" - {model}\n") exit(1) if args.verbose: sys.stderr.write( f"> model basecaller params: {model.config['basecaller']}\n") basecall = load_symbol(args.model_directory, "basecall") mods_model = None if args.modified_base_model is not None or args.modified_bases is not None: sys.stderr.write("> loading modified base model\n") mods_model = load_mods_model(args.modified_bases, args.model_directory, args.modified_base_model) sys.stderr.write(f"> {mods_model[1]['alphabet_str']}\n") if args.reference: sys.stderr.write("> loading reference\n") aligner = Aligner(args.reference, preset='ont-map', best_n=1) if not aligner: sys.stderr.write("> failed to load/build index\n") exit(1) else: aligner = None fmt = biofmt(aligned=args.reference is not None) if args.reference and args.reference.endswith( ".mmi") and fmt.name == "cram": sys.stderr.write( "> error: reference cannot be a .mmi when outputting cram\n") exit(1) elif args.reference and fmt.name == "fastq": sys.stderr.write( f"> warning: did you really want {fmt.aligned} {fmt.name}?\n") else: sys.stderr.write(f"> outputting {fmt.aligned} {fmt.name}\n") if args.save_ctc and not args.reference: sys.stderr.write( "> a reference is needed to output ctc training data\n") exit(1) if fmt.name != 'fastq': groups = get_read_groups(args.reads_directory, args.model_directory, n_proc=8, recursive=args.recursive, read_ids=column_to_set(args.read_ids), skip=args.skip, cancel=process_cancel()) else: groups = [] reads = get_reads(args.reads_directory, n_proc=8, recursive=args.recursive, read_ids=column_to_set(args.read_ids), skip=args.skip, cancel=process_cancel()) if args.max_reads: reads = take(reads, args.max_reads) if args.save_ctc: reads = (chunk for read in reads for chunk in read_chunks( read, chunksize=model.config["basecaller"]["chunksize"], overlap=model.config["basecaller"]["overlap"])) ResultsWriter = CTCWriter else: ResultsWriter = Writer results = basecall(model, reads, reverse=args.revcomp, batchsize=model.config["basecaller"]["batchsize"], chunksize=model.config["basecaller"]["chunksize"], overlap=model.config["basecaller"]["overlap"]) if mods_model is not None: results = process_itemmap(partial(call_mods, mods_model), results) if aligner: results = align_map(aligner, results, n_thread=os.cpu_count()) writer = ResultsWriter( fmt.mode, tqdm(results, desc="> calling", unit=" reads", leave=False), aligner=aligner, group_key=args.model_directory, ref_fn=args.reference, groups=groups, ) t0 = perf_counter() writer.start() writer.join() duration = perf_counter() - t0 num_samples = sum(num_samples for read_id, num_samples in writer.log) sys.stderr.write("> completed reads: %s\n" % len(writer.log)) sys.stderr.write("> duration: %s\n" % timedelta(seconds=np.round(duration))) sys.stderr.write("> samples per second %.1E\n" % (num_samples / duration)) sys.stderr.write("> done\n")
def main(args): workdir = os.path.expanduser(args.training_directory) if os.path.exists(workdir) and not args.force: print("[error] %s exists, use -f to force continue training." % workdir) exit(1) init(args.seed, args.device) device = torch.device(args.device) print("[loading data]") train_data = load_data(limit=args.chunks, directory=args.directory) if os.path.exists(os.path.join(args.directory, 'validation')): valid_data = load_data( directory=os.path.join(args.directory, 'validation')) else: print("[validation set not found: splitting training set]") split = np.floor(len(train_data[0]) * 0.97).astype(np.int32) valid_data = [x[split:] for x in train_data] train_data = [x[:split] for x in train_data] train_loader = DataLoader(ChunkDataSet(*train_data), batch_size=args.batch, shuffle=True, num_workers=4, pin_memory=True) valid_loader = DataLoader(ChunkDataSet(*valid_data), batch_size=args.batch, num_workers=4, pin_memory=True) config = toml.load(args.config) argsdict = dict(training=vars(args)) chunk_config = {} chunk_config_file = os.path.join(args.directory, 'config.toml') if os.path.isfile(chunk_config_file): chunk_config = toml.load(os.path.join(chunk_config_file)) os.makedirs(workdir, exist_ok=True) toml.dump({ **config, **argsdict, **chunk_config }, open(os.path.join(workdir, 'config.toml'), 'w')) print("[loading model]") if args.pretrained: print("[using pretrained model {}]".format(args.pretrained)) model = load_model(args.pretrained, device, half=False) else: model = load_symbol(config, 'Model')(config) optimizer = AdamW(model.parameters(), amsgrad=False, lr=args.lr) last_epoch = load_state(workdir, args.device, model, optimizer, use_amp=args.amp) lr_scheduler = func_scheduler(optimizer, cosine_decay_schedule(1.0, 0.1), args.epochs * len(train_loader), warmup_steps=500, start_step=last_epoch * len(train_loader)) if args.multi_gpu: from torch.nn import DataParallel model = DataParallel(model) model.decode = model.module.decode model.alphabet = model.module.alphabet if hasattr(model, 'seqdist'): criterion = model.seqdist.ctc_loss else: criterion = None for epoch in range(1 + last_epoch, args.epochs + 1 + last_epoch): try: with CSVLogger(os.path.join( workdir, 'losses_{}.csv'.format(epoch))) as loss_log: train_loss, duration = train(model, device, train_loader, optimizer, criterion=criterion, use_amp=args.amp, lr_scheduler=lr_scheduler, loss_log=loss_log) model_state = model.state_dict( ) if not args.multi_gpu else model.module.state_dict() torch.save(model_state, os.path.join(workdir, "weights_%s.tar" % epoch)) val_loss, val_mean, val_median = test(model, device, valid_loader, criterion=criterion) except KeyboardInterrupt: break print( "[epoch {}] directory={} loss={:.4f} mean_acc={:.3f}% median_acc={:.3f}%" .format(epoch, workdir, val_loss, val_mean, val_median)) with CSVLogger(os.path.join(workdir, 'training.csv')) as training_log: training_log.append( OrderedDict([('time', datetime.today()), ('duration', int(duration)), ('epoch', epoch), ('train_loss', train_loss), ('validation_loss', val_loss), ('validation_mean', val_mean), ('validation_median', val_median)]))
def main(args): workdir = os.path.expanduser(args.training_directory) if os.path.exists(workdir) and not args.force: print("[error] %s exists, use -f to force continue training." % workdir) exit(1) init(args.seed, args.device) device = torch.device(args.device) print("[loading data]") chunks, targets, lengths = load_data(limit=args.chunks, shuffle=True, directory=args.directory) split = np.floor(chunks.shape[0] * args.validation_split).astype(np.int32) train_dataset = ChunkDataSet(chunks[:split], targets[:split], lengths[:split]) test_dataset = ChunkDataSet(chunks[split:], targets[split:], lengths[split:]) train_loader = DataLoader(train_dataset, batch_size=args.batch, shuffle=True, num_workers=4, pin_memory=True) test_loader = DataLoader(test_dataset, batch_size=args.batch, num_workers=4, pin_memory=True) config = toml.load(args.config) argsdict = dict(training=vars(args)) chunk_config = {} chunk_config_file = os.path.join(args.directory, 'config.toml') if os.path.isfile(chunk_config_file): chunk_config = toml.load(os.path.join(chunk_config_file)) os.makedirs(workdir, exist_ok=True) toml.dump({**config, **argsdict, **chunk_config}, open(os.path.join(workdir, 'config.toml'), 'w')) print("[loading model]") model = load_symbol(config, 'Model')(config) optimizer = AdamW(model.parameters(), amsgrad=False, lr=args.lr) last_epoch = load_state(workdir, args.device, model, optimizer, use_amp=args.amp) lr_scheduler = func_scheduler( optimizer, cosine_decay_schedule(1.0, 0.1), args.epochs * len(train_loader), warmup_steps=500, start_step=last_epoch*len(train_loader) ) if args.multi_gpu: from torch.nn import DataParallel model = DataParallel(model) model.decode = model.module.decode model.alphabet = model.module.alphabet if hasattr(model, 'seqdist'): criterion = model.seqdist.ctc_loss else: criterion = None for epoch in range(1 + last_epoch, args.epochs + 1 + last_epoch): try: train_loss, duration = train( model, device, train_loader, optimizer, criterion=criterion, use_amp=args.amp, lr_scheduler=lr_scheduler ) val_loss, val_mean, val_median = test( model, device, test_loader, criterion=criterion ) except KeyboardInterrupt: break print("[epoch {}] directory={} loss={:.4f} mean_acc={:.3f}% median_acc={:.3f}%".format( epoch, workdir, val_loss, val_mean, val_median )) model_state = model.state_dict() if not args.multi_gpu else model.module.state_dict() torch.save(model_state, os.path.join(workdir, "weights_%s.tar" % epoch)) torch.save(optimizer.state_dict(), os.path.join(workdir, "optim_%s.tar" % epoch)) with open(os.path.join(workdir, 'training.csv'), 'a', newline='') as csvfile: csvw = csv.writer(csvfile, delimiter=',') if epoch == 1: csvw.writerow([ 'time', 'duration', 'epoch', 'train_loss', 'validation_loss', 'validation_mean', 'validation_median' ]) csvw.writerow([ datetime.today(), int(duration), epoch, train_loss, val_loss, val_mean, val_median, ])
def main(args): workdir = os.path.expanduser(args.training_directory) if os.path.exists(workdir) and not args.force: print("[error] %s exists, use -f to force continue training." % workdir) exit(1) init(args.seed, args.device, (not args.nondeterministic)) device = torch.device(args.device) print("[loading data]") try: train_loader_kwargs, valid_loader_kwargs = load_numpy( args.chunks, args.directory) except FileNotFoundError: train_loader_kwargs, valid_loader_kwargs = load_script( args.directory, seed=args.seed, chunks=args.chunks, valid_chunks=args.valid_chunks) loader_kwargs = { "batch_size": args.batch, "num_workers": 4, "pin_memory": True } train_loader = DataLoader(**loader_kwargs, **train_loader_kwargs) valid_loader = DataLoader(**loader_kwargs, **valid_loader_kwargs) if args.pretrained: dirname = args.pretrained if not os.path.isdir(dirname) and os.path.isdir( os.path.join(__models__, dirname)): dirname = os.path.join(__models__, dirname) config_file = os.path.join(dirname, 'config.toml') else: config_file = args.config config = toml.load(config_file) argsdict = dict(training=vars(args)) os.makedirs(workdir, exist_ok=True) toml.dump({ **config, **argsdict }, open(os.path.join(workdir, 'config.toml'), 'w')) print("[loading model]") if args.pretrained: print("[using pretrained model {}]".format(args.pretrained)) model = load_model(args.pretrained, device, half=False) else: model = load_symbol(config, 'Model')(config) if config.get("lr_scheduler"): sched_config = config["lr_scheduler"] lr_scheduler_fn = getattr(import_module(sched_config["package"]), sched_config["symbol"])(**sched_config) else: lr_scheduler_fn = None trainer = Trainer(model, device, train_loader, valid_loader, use_amp=half_supported() and not args.no_amp, lr_scheduler_fn=lr_scheduler_fn, restore_optim=args.restore_optim, save_optim_every=args.save_optim_every, grad_accum_split=args.grad_accum_split) if (',' in args.lr): lr = [float(x) for x in args.lr.split(',')] else: lr = float(args.lr) trainer.fit(workdir, args.epochs, lr)
def main(args): workdir = os.path.expanduser(args.training_directory) if os.path.exists(workdir) and not args.force: print("[error] %s exists." % workdir) exit(1) init(args.seed, args.device) device = torch.device(args.device) print("[loading data]") chunks, chunk_lengths, targets, target_lengths = load_data( limit=args.chunks, shuffle=True, directory=args.directory) split = np.floor(chunks.shape[0] * args.validation_split).astype(np.int32) train_dataset = ChunkDataSet(chunks[:split], chunk_lengths[:split], targets[:split], target_lengths[:split]) test_dataset = ChunkDataSet(chunks[split:], chunk_lengths[split:], targets[split:], target_lengths[split:]) train_loader = DataLoader(train_dataset, batch_size=args.batch, shuffle=True, num_workers=4, pin_memory=True) test_loader = DataLoader(test_dataset, batch_size=args.batch, num_workers=4, pin_memory=True) config = toml.load(args.config) argsdict = dict(training=vars(args)) chunk_config = {} chunk_config_file = os.path.join( args.directory if args.directory else __data__, 'config.toml') if os.path.isfile(chunk_config_file): chunk_config = toml.load(os.path.join(chunk_config_file)) print("[loading model]") model = Model(config) weights = os.path.join(workdir, 'weights.tar') if os.path.exists(weights): model.load_state_dict(torch.load(weights)) model.to(device) model.train() os.makedirs(workdir, exist_ok=True) toml.dump({ **config, **argsdict, **chunk_config }, open(os.path.join(workdir, 'config.toml'), 'w')) optimizer = AdamW(model.parameters(), amsgrad=True, lr=args.lr) if args.amp: try: model, optimizer = amp.initialize(model, optimizer, opt_level="O1", verbosity=0) except NameError: print( "[error]: Cannot use AMP: Apex package needs to be installed manually, See https://github.com/NVIDIA/apex" ) exit(1) schedular = CosineAnnealingLR(optimizer, args.epochs * len(train_loader)) for epoch in range(1, args.epochs + 1): try: train_loss, duration = train(model, device, train_loader, optimizer, use_amp=args.amp) val_loss, val_mean, val_median = test(model, device, test_loader) except KeyboardInterrupt: break print( "[epoch {}] directory={} loss={:.4f} mean_acc={:.3f}% median_acc={:.3f}%" .format(epoch, workdir, val_loss, val_mean, val_median)) torch.save(model.state_dict(), os.path.join(workdir, "weights_%s.tar" % epoch)) with open(os.path.join(workdir, 'training.csv'), 'a', newline='') as csvfile: csvw = csv.writer(csvfile, delimiter=',') if epoch == 1: csvw.writerow([ 'time', 'duration', 'epoch', 'train_loss', 'validation_loss', 'validation_mean', 'validation_median' ]) csvw.writerow([ datetime.today(), int(duration), epoch, train_loss, val_loss, val_mean, val_median, ]) schedular.step()
def main(args): workdir = os.path.expanduser(args.tuning_directory) if os.path.exists(workdir) and not args.force: print("* error: %s exists." % workdir) exit(1) os.makedirs(workdir, exist_ok=True) init(args.seed, args.device) device = torch.device(args.device) print("[loading data]") train_data = load_data(limit=args.chunks, directory=args.directory) if os.path.exists(os.path.join(args.directory, 'validation')): valid_data = load_data(directory=os.path.join(args.directory, 'validation'), limit=10000) else: print("[validation set not found: splitting training set]") split = np.floor(len(train_data[0]) * 0.97).astype(np.int32) valid_data = [x[split:] for x in train_data] train_data = [x[:split] for x in train_data] train_loader = DataLoader(ChunkDataSet(*train_data), batch_size=args.batch, shuffle=True, num_workers=4, pin_memory=True) test_loader = DataLoader(ChunkDataSet(*valid_data), batch_size=args.batch, num_workers=4, pin_memory=True) def objective(trial): config = toml.load(args.config) lr = trial.suggest_loguniform('learning_rate', 1e-5, 1e-1) model = load_symbol(config, 'Model')(config) num_params = sum(p.numel() for p in model.parameters()) print("[trial %s]" % trial.number) model.to(args.device) model.train() os.makedirs(workdir, exist_ok=True) scaler = GradScaler(enabled=True) optimizer = AdamW(model.parameters(), amsgrad=False, lr=lr) model, optimizer = amp.initialize(model, optimizer, opt_level="O1", verbosity=0) if hasattr(model, 'seqdist'): criterion = model.seqdist.ctc_loss else: criterion = None lr_scheduler = func_scheduler( optimizer, cosine_decay_schedule(1.0, decay), args.epochs * len(train_loader), warmup_steps=warmup_steps, warmup_ratio=warmup_ratio, ) for epoch in range(1, args.epochs + 1): try: train_loss, duration = train(model, device, train_loader, optimizer, scaler=scaler, use_amp=True, criterion=criterion) val_loss, val_mean, val_median = test(model, device, test_loader, criterion=criterion) print( "[epoch {}] directory={} loss={:.4f} mean_acc={:.3f}% median_acc={:.3f}%" .format(epoch, workdir, val_loss, val_mean, val_median)) except KeyboardInterrupt: exit() except Exception as e: print("[pruned] exception") raise optuna.exceptions.TrialPruned() if np.isnan(val_loss): val_loss = 9.9 trial.report(val_loss, epoch) if trial.should_prune(): print("[pruned] unpromising") raise optuna.exceptions.TrialPruned() trial.set_user_attr('val_loss', val_loss) trial.set_user_attr('val_mean', val_mean) trial.set_user_attr('val_median', val_median) trial.set_user_attr('train_loss', train_loss) trial.set_user_attr('model_params', num_params) torch.save(model.state_dict(), os.path.join(workdir, "weights_%s.tar" % trial.number)) toml.dump( config, open(os.path.join(workdir, 'config_%s.toml' % trial.number), 'w')) print("[loss] %.4f" % val_loss) return val_loss print("[starting study]") optuna.logging.set_verbosity(optuna.logging.WARNING) study = optuna.create_study(direction='minimize', storage='sqlite:///%s' % os.path.join(workdir, 'tune.db'), study_name='bonito-study', load_if_exists=True, pruner=SuccessiveHalvingPruner()) study.optimize(objective, n_trials=args.trials)