import time,pdb import tqdm from time import time as ttime import os from pathlib import Path import logging import argparse from cluster.kmeans import KMeansGPU import torch import numpy as np from sklearn.cluster import KMeans logging.basicConfig(level=logging.INFO) logger = logging.getLogger(__name__) from time import time as ttime import pynvml,torch def train_cluster(in_dir, n_clusters, use_minibatch=True, verbose=False,use_gpu=False):#gpu_minibatch真拉,虽然库支持但是也不考虑 logger.info(f"Loading features from {in_dir}") features = [] nums = 0 for path in tqdm.tqdm(in_dir.glob("*.soft.pt")): # for name in os.listdir(in_dir): # path="%s/%s"%(in_dir,name) features.append(torch.load(path,map_location="cpu").squeeze(0).numpy().T) # print(features[-1].shape) features = np.concatenate(features, axis=0) print(nums, features.nbytes/ 1024**2, "MB , shape:",features.shape, features.dtype) features = features.astype(np.float32) logger.info(f"Clustering features of shape: {features.shape}") t = time.time() if(use_gpu==False): if use_minibatch: kmeans = MiniBatchKMeans(n_clusters=n_clusters,verbose=verbose, batch_size=4096, max_iter=80).fit(features) else: kmeans = KMeans(n_clusters=n_clusters,verbose=verbose).fit(features) else: kmeans = KMeansGPU(n_clusters=n_clusters, mode='euclidean', verbose=2 if verbose else 0,max_iter=500,tol=1e-2)# features=torch.from_numpy(features)#.to(device) labels = kmeans.fit_predict(features)# print(time.time()-t, "s") x = { "n_features_in_": kmeans.n_features_in_ if use_gpu==False else features.shape[0], "_n_threads": kmeans._n_threads if use_gpu==False else 4, "cluster_centers_": kmeans.cluster_centers_ if use_gpu==False else kmeans.centroids.cpu().numpy(), } print("end") return x if __name__ == "__main__": res=train_cluster("/data/docker/dataset/12b-co256tensor",1000,use_minibatch=False,verbose=False,use_gpu=True) pdb.set_trace()