SqueezeNet
The Caffe-compatible files that you are probably looking for:
SqueezeNet_v1.0/train_val.prototxt #model architecture SqueezeNet_v1.0/solver.prototxt #additional training details (learning rate schedule, etc.) SqueezeNet_v1.0/squeezenet_v1.0.caffemodel #pretrained model parameters
If you find SqueezeNet useful in your research, please consider citing the SqueezeNet paper:
@article{SqueezeNet, Author = {Forrest N. Iandola and Song Han and Matthew W. Moskewicz and Khalid Ashraf and William J. Dally and Kurt Keutzer}, Title = {SqueezeNet: AlexNet-level accuracy with 50x fewer parameters and $<$0.5MB model size}, Journal = {arXiv:1602.07360}, Year = {2016} }
Helpful hints:
Getting the SqueezeNet model: git clone <this repo>
. In this repository, we include Caffe-compatible files for the model architecture, the solver configuration, and the pretrained model (4.8MB uncompressed).
Batch size. We have experimented with batch sizes ranging from 32 to 1024. In this repo, our default batch size is 512. If implemented naively on a single GPU, a batch size this large may result in running out of memory. An effective workaround is to use hierarchical batching (sometimes called "delayed batching"). Caffe supports hierarchical batching by doing train_val.prototxt>batch_size
training samples concurrently in memory. After solver.prototxt>iter_size
iterations, the gradients are summed and the model is updated. Mathematically, the batch size is batch_size * iter_size
. In the included prototxt files, we have set (batch_size=32, iter_size=16)
, but any combination of batch_size and iter_size that multiply to 512 will produce eqivalent results. In fact, with the same random number generator seed, the model will be fully reproducable if trained multiple times. Finally, note that in Caffe iter_size
is applied while training on the training set but not while testing on the test set.
Implementing Fire modules. In the paper, we describe the expand
portion of the Fire layer as a collection of 1x1 and 3x3 filters. Caffe does not natively support a convolution layer that has multiple filter sizes. To work around this, we implement expand1x1
and expand3x3
layers and concatenate the results together in the channel dimension.
The SqueezeNet team has released a few variants of SqueezeNet. Each of these include pretrained models, and the non-compressed versions include training protocols, too.
SqueezeNet v1.0 (in this repo), the base model described in our SqueezeNet paper.
Compressed SqueezeNet v1.0, as described in the SqueezeNet paper.
SqueezeNet v1.0 with Residual Connections, which delivers higher accuracy without increasing the model size.
SqueezeNet v1.0 with DenseSparseDense (DSD) Training, which delivers higher accuracy without increasing the model size.
SqueezeNet v1.1 (in this repo), which requires 2.4x less computation than SqueezeNet v1.0 without diminshing accuracy.
Community adoption of SqueezeNet:
SqueezeNet in the MXNet framework, by Guo Haria
SqueezeNet in the Chainer framework, by Eddie Bell
SqueezeNet in the Keras framework, by dt42.io
SqueezeNet in the Tensorflow framework, by Domenick Poster
SqueezeNet in the PyTorch framework, by Marat Dukhan
SqueezeNet in the CoreML framework
Neural Art using SqueezeNet, by Pavel Gonchar
SqueezeNet compression in Ristretto, by Philipp Gysel
还没有评论,说两句吧!
热门资源
Keras-ResNeXt
Keras ResNeXt Implementation of ResNeXt models...
seetafaceJNI
项目介绍 基于中科院seetaface2进行封装的JAVA...
spark-corenlp
This package wraps Stanford CoreNLP annotators ...
capsnet-with-caps...
CapsNet with capsule-wise convolution Project ...
inferno-boilerplate
This is a very basic boilerplate example for pe...
智能在线
400-630-6780
聆听.建议反馈
E-mail: support@tusaishared.com