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Golang neuralnet.Network类代码示例

原作者: [db:作者] 来自: [db:来源] 收藏 邀请

本文整理汇总了Golang中github.com/unixpickle/weakai/neuralnet.Network的典型用法代码示例。如果您正苦于以下问题:Golang Network类的具体用法?Golang Network怎么用?Golang Network使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。



在下文中一共展示了Network类的15个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Golang代码示例。

示例1: main

func main() {
	rand.Seed(time.Now().UnixNano())

	outNet := neuralnet.Network{
		&neuralnet.DenseLayer{
			InputCount:  StateSize * 2,
			OutputCount: 10,
		},
		&neuralnet.Sigmoid{},
		&neuralnet.DenseLayer{
			InputCount:  10,
			OutputCount: 2,
		},
		&neuralnet.LogSoftmaxLayer{},
	}
	outNet.Randomize()
	bd := &rnn.Bidirectional{
		Forward:  &rnn.BlockSeqFunc{B: rnn.NewGRU(2, StateSize)},
		Backward: &rnn.BlockSeqFunc{B: rnn.NewGRU(2, StateSize)},
		Output:   &rnn.NetworkSeqFunc{Network: outNet},
	}
	var samples []seqtoseq.Sample
	var sampleSet sgd.SliceSampleSet
	for i := 0; i < TrainingSize; i++ {
		samples = append(samples, generateSequence())
		sampleSet = append(sampleSet, samples[i])
	}

	g := &sgd.RMSProp{
		Gradienter: &seqtoseq.Gradienter{
			SeqFunc:  bd,
			Learner:  bd,
			CostFunc: neuralnet.DotCost{},
		},
	}

	var i int
	sgd.SGDInteractive(g, sampleSet, StepSize, BatchSize, func() bool {
		fmt.Printf("%d epochs: cost=%f\n", i, totalCost(bd, sampleSet))
		i++
		return true
	})

	var testingCorrect, testingTotal int
	for j := 0; j < TestingSize; j++ {
		sample := generateSequence()
		inRes := seqfunc.ConstResult([][]linalg.Vector{sample.Inputs})
		output := bd.ApplySeqs(inRes).OutputSeqs()[0]
		for i, expected := range sample.Outputs {
			actual := output[i]
			if math.Abs(expected[0]-math.Exp(actual[0])) < 0.1 {
				testingCorrect++
			}
			testingTotal++
		}
	}

	fmt.Printf("Got %d/%d (%.2f%%)\n", testingCorrect, testingTotal,
		100*float64(testingCorrect)/float64(testingTotal))
}
开发者ID:unixpickle,项目名称:weakai,代码行数:60,代码来源:main.go


示例2: printScore

func printScore(prefix string, n neuralnet.Network, d mnist.DataSet) {
	classifier := func(v []float64) int {
		r := n.Apply(&autofunc.Variable{v})
		return networkOutput(r)
	}
	correctCount := d.NumCorrect(classifier)
	histogram := d.CorrectnessHistogram(classifier)
	log.Printf("%s: %d/%d - %s", prefix, correctCount, len(d.Samples), histogram)
}
开发者ID:unixpickle,项目名称:weakai,代码行数:9,代码来源:main.go


示例3: NewNetworkBlock

// NewNetworkBlock creates a NetworkBlock.
func NewNetworkBlock(n neuralnet.Network, stateSize int) *NetworkBlock {
	return &NetworkBlock{
		batcherBlock: &BatcherBlock{
			B:         n.BatchLearner(),
			StateSize: stateSize,
			Start:     &autofunc.Variable{Vector: make(linalg.Vector, stateSize)},
		},
		network: n,
	}
}
开发者ID:unixpickle,项目名称:weakai,代码行数:11,代码来源:network_block.go


示例4: TestStackedBlock

func TestStackedBlock(t *testing.T) {
	testVars := []*autofunc.Variable{
		{Vector: []float64{0.098591, -0.595453, -0.751214, 0.266051}},
		{Vector: []float64{0.988517, 0.107284, -0.331529, 0.028565}},
		{Vector: []float64{-0.150604, 0.889039, 0.120916, 0.240999}},
		{Vector: []float64{0.961058, 0.878608, 0.052284, -0.635746}},
		{Vector: []float64{0.31415, -0.2718}},
		{Vector: []float64{-0.6}},
	}
	testSeqs := [][]*autofunc.Variable{
		{testVars[0], testVars[2]},
		{testVars[1]},
		{testVars[2], testVars[1], testVars[3]},
	}
	testRV := autofunc.RVector{
		testVars[0]: []float64{0.62524, 0.52979, 0.33020, 0.54462},
		testVars[1]: []float64{0.13498, 0.12607, 0.35989, 0.23255},
		testVars[2]: []float64{0.85996, 0.68435, 0.68506, 0.96907},
		testVars[3]: []float64{0.79095, 0.33867, 0.86759, 0.16159},
		testVars[4]: []float64{-0.79095, 0.33867},
		testVars[5]: []float64{0.33867},
	}
	net1 := neuralnet.Network{
		&neuralnet.DenseLayer{
			InputCount:  6,
			OutputCount: 6,
		},
		&neuralnet.HyperbolicTangent{},
	}
	net1.Randomize()
	net2 := neuralnet.Network{
		&neuralnet.DenseLayer{
			InputCount:  5,
			OutputCount: 5,
		},
		&neuralnet.HyperbolicTangent{},
	}
	net2.Randomize()
	block := &rnn.StackedBlock{
		&rnn.BatcherBlock{B: net1.BatchLearner(), StateSize: 2, Start: testVars[4]},
		&rnn.BatcherBlock{B: net2.BatchLearner(), StateSize: 1, Start: testVars[5]},
	}
	checker := &BlockChecker{
		B:     block,
		Input: testSeqs,
		Vars:  testVars,
		RV:    testRV,
	}
	checker.FullCheck(t)
}
开发者ID:unixpickle,项目名称:weakai,代码行数:50,代码来源:stacked_block_test.go


示例5: firstBitTest

// firstBitTest builds a neural network to:
// - output 0 for inputs starting with a 1
// - output 1 for inputs starting with a 0.
func firstBitTest() {
	trainingSamples := make([]linalg.Vector, FirstBitTrainingSize)
	trainingOutputs := make([]linalg.Vector, FirstBitTrainingSize)
	for i := range trainingSamples {
		trainingSamples[i] = make(linalg.Vector, FirstBitInputSize)
		for j := range trainingSamples[i] {
			trainingSamples[i][j] = float64(rand.Intn(2))
		}
		trainingOutputs[i] = []float64{1 - trainingSamples[i][0]}
	}
	samples := neuralnet.VectorSampleSet(trainingSamples, trainingOutputs)

	network := neuralnet.Network{
		&neuralnet.DenseLayer{
			InputCount:  FirstBitInputSize,
			OutputCount: FirstBitHiddenSize,
		},
		&neuralnet.Sigmoid{},
		&neuralnet.DenseLayer{
			InputCount:  FirstBitHiddenSize,
			OutputCount: 1,
		},
		&neuralnet.Sigmoid{},
	}
	network.Randomize()

	batcher := &neuralnet.SingleRGradienter{
		Learner:  network,
		CostFunc: neuralnet.MeanSquaredCost{},
	}
	sgd.SGD(batcher, samples, 0.2, 100000, 1)

	var totalError float64
	var maxPossibleError float64
	for i := 0; i < 50; i++ {
		sample := make([]float64, FirstBitInputSize)
		for j := range sample {
			sample[j] = float64(rand.Intn(2))
		}
		result := network.Apply(&autofunc.Variable{sample})
		output := result.Output()[0]
		amountError := math.Abs(output - (1 - sample[0]))
		totalError += amountError
		maxPossibleError += 1.0
	}

	fmt.Printf("firstBitTest() error rate: %f\n", totalError/maxPossibleError)
}
开发者ID:unixpickle,项目名称:weakai,代码行数:51,代码来源:main.go


示例6: createNet

func createNet(d mnist.DataSet) neuralnet.Network {
	convOutWidth := (d.Width-FilterSize)/FilterStride + 1
	convOutHeight := (d.Height-FilterSize)/FilterStride + 1

	poolOutWidth := convOutWidth / MaxPoolingSpan
	if convOutWidth%MaxPoolingSpan != 0 {
		poolOutWidth++
	}
	poolOutHeight := convOutWidth / MaxPoolingSpan
	if convOutHeight%MaxPoolingSpan != 0 {
		poolOutHeight++
	}

	net := neuralnet.Network{
		&neuralnet.ConvLayer{
			FilterCount:  FilterCount,
			FilterWidth:  FilterSize,
			FilterHeight: FilterSize,
			Stride:       FilterStride,
			InputWidth:   d.Width,
			InputHeight:  d.Height,
			InputDepth:   1,
		},
		&neuralnet.Sigmoid{},
		&neuralnet.MaxPoolingLayer{
			XSpan:       MaxPoolingSpan,
			YSpan:       MaxPoolingSpan,
			InputWidth:  convOutWidth,
			InputHeight: convOutHeight,
			InputDepth:  FilterCount,
		},
		&neuralnet.DenseLayer{
			InputCount:  poolOutWidth * poolOutHeight * FilterCount,
			OutputCount: HiddenSize,
		},
		&neuralnet.Sigmoid{},
		&neuralnet.DenseLayer{
			InputCount:  HiddenSize,
			OutputCount: LabelCount,
		},
		&neuralnet.SoftmaxLayer{},
	}
	net.Randomize()

	return net
}
开发者ID:unixpickle,项目名称:weakai,代码行数:46,代码来源:main.go


示例7: countCorrect

func countCorrect(n neuralnet.Network, s sgd.SampleSet) int {
	var count int
	for i := 0; i < s.Len(); i++ {
		sample := s.GetSample(i).(neuralnet.VectorSample)
		output := n.Apply(&autofunc.Variable{Vector: sample.Input}).Output()
		var maxIdx int
		var maxVal float64
		for j, x := range output {
			if x > maxVal || j == 0 {
				maxIdx = j
				maxVal = x
			}
		}
		if sample.Output[maxIdx] == 1 {
			count++
		}
	}
	return count
}
开发者ID:unixpickle,项目名称:weakai,代码行数:19,代码来源:train.go


示例8: TestBaselineChecks

func TestBaselineChecks(t *testing.T) {
	network := neuralnet.Network{
		&neuralnet.DenseLayer{
			InputCount:  4,
			OutputCount: 6,
		},
		neuralnet.HyperbolicTangent{},
	}
	network.Randomize()

	for stateSize := 0; stateSize < 4; stateSize++ {
		start := &autofunc.Variable{Vector: make(linalg.Vector, stateSize)}
		for i := range start.Vector {
			start.Vector[i] = rand.NormFloat64()
		}
		toTest := &rnn.BlockSeqFunc{
			B: &rnn.BatcherBlock{
				B:         network.BatchLearner(),
				StateSize: stateSize,
				Start:     start,
			},
		}
		seqs, rv := randBaselineTestSeqs(network, 4-stateSize)
		rv[start] = make(linalg.Vector, len(start.Vector))
		for i := range rv[start] {
			rv[start][i] = rand.NormFloat64()
		}
		vars := make([]*autofunc.Variable, 0, len(rv))
		for v := range rv {
			vars = append(vars, v)
		}
		checker := &functest.SeqRFuncChecker{
			F:     toTest,
			Vars:  vars,
			Input: seqs,
			RV:    rv,
		}
		checker.FullCheck(t)
	}
}
开发者ID:unixpickle,项目名称:weakai,代码行数:40,代码来源:baseline_test.go


示例9: trainClassifier

func trainClassifier(n neuralnet.Network, d mnist.DataSet) {
	log.Println("Training classifier (ctrl+C to finish)...")

	killChan := make(chan struct{})

	go func() {
		c := make(chan os.Signal, 1)
		signal.Notify(c, os.Interrupt)
		<-c
		signal.Stop(c)
		fmt.Println("\nCaught interrupt. Ctrl+C again to terminate.")
		close(killChan)
	}()

	inputs := make([]linalg.Vector, len(d.Samples))
	outputs := make([]linalg.Vector, len(d.Samples))
	for i, x := range d.IntensityVectors() {
		inputs[i] = x
	}
	for i, x := range d.LabelVectors() {
		outputs[i] = x
	}
	samples := neuralnet.VectorSampleSet(inputs, outputs)
	batcher := &neuralnet.BatchRGradienter{
		Learner:  n.BatchLearner(),
		CostFunc: neuralnet.MeanSquaredCost{},
	}

	crossValidation := mnist.LoadTestingDataSet()

	sgd.SGDInteractive(batcher, samples, ClassifierStepSize,
		ClassifierBatchSize, func() bool {
			printScore("Training", n, d)
			printScore("Cross", n, crossValidation)
			return true
		})
}
开发者ID:unixpickle,项目名称:weakai,代码行数:37,代码来源:main.go


示例10: runHorizontalLineTest

func runHorizontalLineTest(name string, network neuralnet.Network) {
	trainingSamples := make([]linalg.Vector, GridTrainingSize)
	trainingOutputs := make([]linalg.Vector, GridTrainingSize)
	for i := range trainingSamples {
		trainingSamples[i] = randomBitmap()
		if bitmapHasHorizontal(trainingSamples[i]) {
			trainingOutputs[i] = []float64{1}
		} else {
			trainingOutputs[i] = []float64{0}
		}
	}
	samples := neuralnet.VectorSampleSet(trainingSamples, trainingOutputs)

	network.Randomize()
	batcher := &neuralnet.SingleRGradienter{
		Learner:  network,
		CostFunc: neuralnet.MeanSquaredCost{},
	}
	sgd.SGD(batcher, samples, 0.1, 1000, 100)

	var trainingError float64
	var maxTrainingError float64
	for i, sample := range trainingSamples {
		result := network.Apply(&autofunc.Variable{sample})
		output := result.Output()[0]
		amountError := math.Abs(output - trainingOutputs[i][0])
		trainingError += amountError
		maxTrainingError += 1.0
	}

	var totalError float64
	var maxPossibleError float64
	for i := 0; i < 50; i++ {
		sample := randomBitmap()
		var expected float64
		if bitmapHasHorizontal(sample) {
			expected = 1
		}
		result := network.Apply(&autofunc.Variable{sample})
		output := result.Output()[0]
		amountError := math.Abs(output - expected)
		totalError += amountError
		maxPossibleError += 1.0
	}

	fmt.Printf("%s() training error: %f; cross error: %f\n", name,
		trainingError/maxTrainingError, totalError/maxPossibleError)
}
开发者ID:unixpickle,项目名称:weakai,代码行数:48,代码来源:main.go


示例11: TestStateOutBlock

func TestStateOutBlock(t *testing.T) {
	net := neuralnet.Network{
		&neuralnet.DenseLayer{
			InputCount:  8,
			OutputCount: 4,
		},
		&neuralnet.HyperbolicTangent{},
	}
	net.Randomize()
	startVar := &autofunc.Variable{Vector: []float64{0.3, -0.3, 0.2, 0.5}}
	block := &rnn.StateOutBlock{
		Block: &rnn.BatcherBlock{
			B:         net.BatchLearner(),
			StateSize: 4,
			Start:     startVar,
		},
	}
	learner := append(stateOutBlockLearner{startVar}, net.Parameters()...)
	NewChecker4In(block, learner).FullCheck(t)
}
开发者ID:unixpickle,项目名称:weakai,代码行数:20,代码来源:state_out_block_test.go


示例12: TrainCmd

func TrainCmd(netPath, dirPath string) {
	log.Println("Loading samples...")
	images, width, height, err := LoadTrainingImages(dirPath)
	if err != nil {
		fmt.Fprintln(os.Stderr, err)
		os.Exit(1)
	}

	log.Println("Creating network...")

	var network neuralnet.Network
	networkData, err := ioutil.ReadFile(netPath)
	if err == nil {
		network, err = neuralnet.DeserializeNetwork(networkData)
		if err != nil {
			fmt.Fprintln(os.Stderr, "Failed to load network:", err)
			os.Exit(1)
		}
		log.Println("Loaded network from file.")
	} else {
		mean, stddev := sampleStatistics(images)
		convLayer := &neuralnet.ConvLayer{
			FilterCount:  FilterCount,
			FilterWidth:  4,
			FilterHeight: 4,
			Stride:       2,

			InputWidth:  width,
			InputHeight: height,
			InputDepth:  ImageDepth,
		}
		maxLayer := &neuralnet.MaxPoolingLayer{
			XSpan:       3,
			YSpan:       3,
			InputWidth:  convLayer.OutputWidth(),
			InputHeight: convLayer.OutputHeight(),
			InputDepth:  convLayer.OutputDepth(),
		}
		convLayer1 := &neuralnet.ConvLayer{
			FilterCount:  FilterCount1,
			FilterWidth:  3,
			FilterHeight: 3,
			Stride:       2,

			InputWidth:  maxLayer.OutputWidth(),
			InputHeight: maxLayer.OutputHeight(),
			InputDepth:  maxLayer.InputDepth,
		}
		network = neuralnet.Network{
			&neuralnet.RescaleLayer{
				Bias:  -mean,
				Scale: 1 / stddev,
			},
			convLayer,
			neuralnet.HyperbolicTangent{},
			maxLayer,
			neuralnet.HyperbolicTangent{},
			convLayer1,
			neuralnet.HyperbolicTangent{},
			&neuralnet.DenseLayer{
				InputCount: convLayer1.OutputWidth() * convLayer1.OutputHeight() *
					convLayer1.OutputDepth(),
				OutputCount: HiddenSize,
			},
			neuralnet.HyperbolicTangent{},
			&neuralnet.DenseLayer{
				InputCount:  HiddenSize,
				OutputCount: len(images),
			},
			&neuralnet.LogSoftmaxLayer{},
		}
		network.Randomize()
		log.Println("Created new network.")
	}

	samples := neuralSamples(images)
	sgd.ShuffleSampleSet(samples)

	validationCount := int(ValidationFraction * float64(samples.Len()))
	validationSamples := samples.Subset(0, validationCount)
	trainingSamples := samples.Subset(validationCount, samples.Len())

	costFunc := neuralnet.DotCost{}
	gradienter := &sgd.Adam{
		Gradienter: &neuralnet.BatchRGradienter{
			Learner: network.BatchLearner(),
			CostFunc: &neuralnet.RegularizingCost{
				Variables: network.Parameters(),
				Penalty:   Regularization,
				CostFunc:  costFunc,
			},
		},
	}
	sgd.SGDInteractive(gradienter, trainingSamples, StepSize, BatchSize, func() bool {
		log.Printf("Costs: validation=%d/%d cost=%f",
			countCorrect(network, validationSamples), validationSamples.Len(),
			neuralnet.TotalCost(costFunc, network, trainingSamples))
		return true
	})

//.........这里部分代码省略.........
开发者ID:unixpickle,项目名称:weakai,代码行数:101,代码来源:train.go


示例13: createNetwork

func createNetwork(samples sgd.SampleSet) *rnn.Bidirectional {
	means := make(linalg.Vector, FeatureCount)
	var count float64

	for i := 0; i < samples.Len(); i++ {
		inputSeq := samples.GetSample(i).(ctc.Sample).Input
		for _, vec := range inputSeq {
			means.Add(vec)
			count++
		}
	}
	means.Scale(-1 / count)

	stddevs := make(linalg.Vector, FeatureCount)
	for i := 0; i < samples.Len(); i++ {
		inputSeq := samples.GetSample(i).(ctc.Sample).Input
		for _, vec := range inputSeq {
			for j, v := range vec {
				stddevs[j] += math.Pow(v+means[j], 2)
			}
		}
	}
	stddevs.Scale(1 / count)
	for i, x := range stddevs {
		stddevs[i] = 1 / math.Sqrt(x)
	}

	outputNet := neuralnet.Network{
		&neuralnet.DropoutLayer{
			KeepProbability: HiddenDropout,
			Training:        false,
		},
		&neuralnet.DenseLayer{
			InputCount:  HiddenSize * 2,
			OutputCount: OutHiddenSize,
		},
		&neuralnet.HyperbolicTangent{},
		&neuralnet.DenseLayer{
			InputCount:  OutHiddenSize,
			OutputCount: len(cubewhisper.Labels) + 1,
		},
		&neuralnet.LogSoftmaxLayer{},
	}
	outputNet.Randomize()

	inputNet := neuralnet.Network{
		&neuralnet.VecRescaleLayer{
			Biases: means,
			Scales: stddevs,
		},
		&neuralnet.GaussNoiseLayer{
			Stddev:   InputNoise,
			Training: false,
		},
	}
	netBlock := rnn.NewNetworkBlock(inputNet, 0)
	forwardBlock := rnn.StackedBlock{
		netBlock,
		rnn.NewGRU(FeatureCount, HiddenSize),
	}
	backwardBlock := rnn.StackedBlock{
		netBlock,
		rnn.NewGRU(FeatureCount, HiddenSize),
	}
	for _, block := range []rnn.StackedBlock{forwardBlock, backwardBlock} {
		for i, param := range block.Parameters() {
			if i%2 == 0 {
				for i := range param.Vector {
					param.Vector[i] = rand.NormFloat64() * WeightStddev
				}
			}
		}
	}
	return &rnn.Bidirectional{
		Forward:  &rnn.BlockSeqFunc{Block: forwardBlock},
		Backward: &rnn.BlockSeqFunc{Block: backwardBlock},
		Output:   &rnn.NetworkSeqFunc{Network: outputNet},
	}
}
开发者ID:unixpickle,项目名称:cubewhisper,代码行数:79,代码来源:train.go


示例14: TestBaselineOutput

// TestBaselineOutput makes sure that the BatcherBlock +
// BlockSeqFunc combo produces the right output, since
// that combo will be used for the rest of the tests.
func TestBaselineOutput(t *testing.T) {
	network := neuralnet.Network{
		&neuralnet.DenseLayer{
			InputCount:  4,
			OutputCount: 6,
		},
		neuralnet.HyperbolicTangent{},
	}
	network.Randomize()

	for stateSize := 0; stateSize < 4; stateSize++ {
		start := &autofunc.Variable{Vector: make(linalg.Vector, stateSize)}
		for i := range start.Vector {
			start.Vector[i] = rand.NormFloat64()
		}
		toTest := rnn.BlockSeqFunc{
			B: &rnn.BatcherBlock{
				B:         network.BatchLearner(),
				StateSize: stateSize,
				Start:     start,
			},
		}
		seqs, rv := randBaselineTestSeqs(network, 4-stateSize)
		rv[start] = make(linalg.Vector, len(start.Vector))
		for i := range rv[start] {
			rv[start][i] = rand.NormFloat64()
		}
		res := toTest.ApplySeqsR(rv, seqfunc.VarRResult(rv, seqs))
		actual := res.OutputSeqs()
		actualR := res.ROutputSeqs()
		expected, expectedR := manualNetworkSeq(rv, network, start, seqs, stateSize)
		if len(expected) != len(actual) {
			t.Errorf("stateSize %d: len(expected) [%d] != len(actual) [%d]", stateSize,
				len(expected), len(actual))
			continue
		}
		for i, act := range actual {
			actR := actualR[i]
			exp := expected[i]
			expR := expectedR[i]
			if len(act) != len(exp) {
				t.Errorf("stateSize %d seq %d: len(act) [%d] != len(exp) [%d]",
					stateSize, i, len(act), len(act))
				continue
			}
			for j, a := range act {
				x := exp[j]
				if len(a) != len(x) || x.Copy().Scale(-1).Add(a).MaxAbs() > 1e-5 {
					t.Errorf("stateSize %d seq %d entry %d: expected %v got %v",
						stateSize, i, j, x, a)
				}
			}
			for j, a := range actR {
				x := expR[j]
				if len(a) != len(x) || x.Copy().Scale(-1).Add(a).MaxAbs() > 1e-5 {
					t.Errorf("stateSize %d seq %d entry %d (R): expected %v got %v",
						stateSize, i, j, x, a)
				}
			}
		}
	}
}
开发者ID:unixpickle,项目名称:weakai,代码行数:65,代码来源:baseline_test.go


示例15: Autoencode

func Autoencode(images <-chan image.Image) (neuralnet.Network, error) {
	firstImage := <-images
	if firstImage == nil {
		return nil, errors.New("no readable images")
	}

	width := firstImage.Bounds().Dx()
	height := firstImage.Bounds().Dy()

	log.Print("Reading images...")

	tensors := []*neuralnet.Tensor3{ImageTensor(firstImage)}
	for img := range images {
		if img.Bounds().Dx() != width || img.Bounds().Dy() != height {
			log.Printf("Image size %d,%d does not match %d,%d",
				img.Bounds().Dx(), img.Bounds().Dy(),
				width, height)
		} else {
			tensors = append(tensors, ImageTensor(img))
		}
	}

	log.Print("Training network (ctrl+c to finish)...")

	tensorSlices := make([]linalg.Vector, len(tensors))
	for i, tensor := range tensors {
		tensorSlices[i] = tensor.Data
	}
	samples := neuralnet.VectorSampleSet(tensorSlices, tensorSlices)

	average, stddev := statisticalInfo(tensorSlices)

	network := neuralnet.Network{
		&neuralnet.RescaleLayer{
			Bias:  -average,
			Scale: 1 / stddev,
		},
		&neuralnet.DenseLayer{
			InputCount:  width * height * 3,
			OutputCount: HiddenSize1,
		},
		neuralnet.Sigmoid{},
		&neuralnet.DenseLayer{
			InputCount:  HiddenSize1,
			OutputCount: HiddenSize2,
		},
		neuralnet.Sigmoid{},
		&neuralnet.DenseLayer{
			InputCount:  HiddenSize2,
			OutputCount: HiddenSize1,
		},
		neuralnet.Sigmoid{},
		&neuralnet.DenseLayer{
			InputCount:  HiddenSize1,
			OutputCount: width * height * 3,
		},
	}
	network.Randomize()

	ui := hessfree.NewConsoleUI()
	learner := &hessfree.DampingLearner{
		WrappedLearner: &hessfree.NeuralNetLearner{
			Layers:         network,
			Output:         nil,
			Cost:           neuralnet.SigmoidCECost{},
			MaxSubBatch:    MaxSubBatch,
			MaxConcurrency: 2,
		},
		DampingCoeff: 2,
		UI:           ui,
	}
	trainer := hessfree.Trainer{
		Learner:   learner,
		Samples:   samples,
		BatchSize: samples.Len(),
		UI:        ui,
		Convergence: hessfree.ConvergenceCriteria{
			MinK: 5,
		},
	}
	trainer.Train()

	network = append(network, neuralnet.Sigmoid{})

	return network, nil
}
开发者ID:unixpickle,项目名称:weakai,代码行数:86,代码来源:autoencode.go



注:本文中的github.com/unixpickle/weakai/neuralnet.Network类示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。


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