提交 9f9559a1 编写于 作者: Q qiaolongfei

add inference to 01

上级 848efd5f
......@@ -200,6 +200,11 @@ def event_handler_plot(event):
cost_ploter.plot()
step += 1
if isinstance(event, paddle.event.EndPass):
if event.pass_id % 10 == 0:
with open('params_pass_%d.tar' % event.pass_id, 'w') as f:
parameters.to_tar(f)
```
### 开始训练
......@@ -217,6 +222,37 @@ trainer.train(
![png](./image/train_and_test.png)
### 应用模型
#### 1. 生成测试数据
```python
test_data_creator = paddle.dataset.uci_housing.test()
test_data = []
test_label = []
for item in test_data_creator():
test_data.append((item[0],))
test_label.append(item[1])
if len(test_data) == 5:
break
```
#### 2. 推测 inference
```python
# load parameters from tar file.
# users can remove the comments and change the model name
# with open('params_pass_20.tar', 'r') as f:
# parameters = paddle.parameters.Parameters.from_tar(f)
probs = paddle.infer(
output_layer=y_predict, parameters=parameters, input=test_data)
for i in xrange(len(probs)):
print "label=" + str(test_label[i][0]) + ", predict=" + str(probs[i][0])
```
## 总结
在这章里,我们借助波士顿房价这一数据集,介绍了线性回归模型的基本概念,以及如何使用PaddlePaddle实现训练和测试的过程。很多的模型和技巧都是从简单的线性回归模型演化而来,因此弄清楚线性模型的原理和局限非常重要。
......
......@@ -205,6 +205,11 @@ def event_handler_plot(event):
plot_cost.plot()
step += 1
if isinstance(event, paddle.event.EndPass):
if event.pass_id % 10 == 0:
with open('params_pass_%d.tar' % event.pass_id, 'w') as f:
parameters.to_tar(f)
```
### Start Training
......@@ -222,6 +227,37 @@ trainer.train(
![png](./image/train_and_test.png)
### Apply model
#### 1. generate testing data
```python
test_data_creator = paddle.dataset.uci_housing.test()
test_data = []
test_label = []
for item in test_data_creator():
test_data.append((item[0],))
test_label.append(item[1])
if len(test_data) == 5:
break
```
#### 2. inference
```python
# load parameters from tar file.
# users can remove the comments and change the model name
# with open('params_pass_20.tar', 'r') as f:
# parameters = paddle.parameters.Parameters.from_tar(f)
probs = paddle.infer(
output_layer=y_predict, parameters=parameters, input=test_data)
for i in xrange(len(probs)):
print "label=" + str(test_label[i][0]) + ", predict=" + str(probs[i][0])
```
## Summary
This chapter introduces *Linear Regression* and how to train and test this model with PaddlePaddle, using the UCI Housing Data Set. Because a large number of more complex models and techniques are derived from linear regression, it is important to understand its underlying theory and limitation.
......
01.fit_a_line/image/ranges.png

27.2 KB | W: | H:

01.fit_a_line/image/ranges.png

6.5 KB | W: | H:

01.fit_a_line/image/ranges.png
01.fit_a_line/image/ranges.png
01.fit_a_line/image/ranges.png
01.fit_a_line/image/ranges.png
  • 2-up
  • Swipe
  • Onion skin
......@@ -242,6 +242,11 @@ def event_handler_plot(event):
cost_ploter.plot()
step += 1
if isinstance(event, paddle.event.EndPass):
if event.pass_id % 10 == 0:
with open('params_pass_%d.tar' % event.pass_id, 'w') as f:
parameters.to_tar(f)
```
### 开始训练
......@@ -259,6 +264,37 @@ trainer.train(
![png](./image/train_and_test.png)
### 应用模型
#### 1. 生成测试数据
```python
test_data_creator = paddle.dataset.uci_housing.test()
test_data = []
test_label = []
for item in test_data_creator():
test_data.append((item[0],))
test_label.append(item[1])
if len(test_data) == 5:
break
```
#### 2. 推测 inference
```python
# load parameters from tar file.
# users can remove the comments and change the model name
# with open('params_pass_20.tar', 'r') as f:
# parameters = paddle.parameters.Parameters.from_tar(f)
probs = paddle.infer(
output_layer=y_predict, parameters=parameters, input=test_data)
for i in xrange(len(probs)):
print "label=" + str(test_label[i][0]) + ", predict=" + str(probs[i][0])
```
## 总结
在这章里,我们借助波士顿房价这一数据集,介绍了线性回归模型的基本概念,以及如何使用PaddlePaddle实现训练和测试的过程。很多的模型和技巧都是从简单的线性回归模型演化而来,因此弄清楚线性模型的原理和局限非常重要。
......
......@@ -247,6 +247,11 @@ def event_handler_plot(event):
plot_cost.plot()
step += 1
if isinstance(event, paddle.event.EndPass):
if event.pass_id % 10 == 0:
with open('params_pass_%d.tar' % event.pass_id, 'w') as f:
parameters.to_tar(f)
```
### Start Training
......@@ -264,6 +269,37 @@ trainer.train(
![png](./image/train_and_test.png)
### Apply model
#### 1. generate testing data
```python
test_data_creator = paddle.dataset.uci_housing.test()
test_data = []
test_label = []
for item in test_data_creator():
test_data.append((item[0],))
test_label.append(item[1])
if len(test_data) == 5:
break
```
#### 2. inference
```python
# load parameters from tar file.
# users can remove the comments and change the model name
# with open('params_pass_20.tar', 'r') as f:
# parameters = paddle.parameters.Parameters.from_tar(f)
probs = paddle.infer(
output_layer=y_predict, parameters=parameters, input=test_data)
for i in xrange(len(probs)):
print "label=" + str(test_label[i][0]) + ", predict=" + str(probs[i][0])
```
## Summary
This chapter introduces *Linear Regression* and how to train and test this model with PaddlePaddle, using the UCI Housing Data Set. Because a large number of more complex models and techniques are derived from linear regression, it is important to understand its underlying theory and limitation.
......
......@@ -31,6 +31,9 @@ def main():
event.pass_id, event.batch_id, event.cost)
if isinstance(event, paddle.event.EndPass):
if event.pass_id % 10 == 0:
with open('params_pass_%d.tar' % event.pass_id, 'w') as f:
parameters.to_tar(f)
result = trainer.test(
reader=paddle.batch(uci_housing.test(), batch_size=2),
feeding=feeding)
......@@ -45,6 +48,28 @@ def main():
event_handler=event_handler,
num_passes=30)
# inference
test_data_creator = paddle.dataset.uci_housing.test()
test_data = []
test_label = []
for item in test_data_creator():
test_data.append((item[0], ))
test_label.append(item[1])
if len(test_data) == 5:
break
# load parameters from tar file.
# users can remove the comments and change the model name
# with open('params_pass_20.tar', 'r') as f:
# parameters = paddle.parameters.Parameters.from_tar(f)
probs = paddle.infer(
output_layer=y_predict, parameters=parameters, input=test_data)
for i in xrange(len(probs)):
print "label=" + str(test_label[i][0]) + ", predict=" + str(probs[i][0])
if __name__ == '__main__':
main()
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