def convolutional_block(inputs, kernel_size, in_filter, out_filters, block_name, stride=1): f1, f2, f3 = out_filters W1 = ad.Variable(block_name + "W1") W2 = ad.Variable(block_name + "W2") W3 = ad.Variable(block_name + "W3") W_shortcut = ad.Variable(block_name + "W_shortcut") rand = np.random.RandomState(seed=123) W1_val = rand.normal(scale=0.1, size=(f1, in_filter, 1, 1)) W2_val = rand.normal(scale=0.1, size=(f2, f1, kernel_size, kernel_size)) W3_val = rand.normal(scale=0.1, size=(f3, f2, 1, 1)) W_shortcut_val = rand.normal(scale=0.1, size=(in_filter, f3, 1, 1)) # conv1 conv1 = ad.convolution_2d_forward_op(inputs, W1, "NCHW", "SAME", stride, stride) bn1 = ad.bn_forward_op(conv1, "NCHW", "pre_activation") act1 = ad.activation_forward_op(bn1, "NCHW", "relu") # conv2 conv2 = ad.convolution_2d_forward_op(act1, W2, "NCHW", "SAME", stride, stride) bn2 = ad.bn_forward_op(conv2, "NCHW", "pre_activation") act2 = ad.activation_forward_op(bn2, "NCHW", "relu") # conv3 conv3 = ad.convolution_2d_forward_op(act2, W3, "NCHW", "VALID", stride, stride) bn3 = ad.bn_forward_op(conv3, "NCHW", "pre_activation") #shortcut_path conv4 = ad.convolution_2d_forward_op(inputs, W_shortcut, "NCHW", "VALID", stride, stride) shortcut = ad.bn_forward_op(conv4, "NCHW", "pre_activation") # shortcut add = ad.add_op(bn3, shortcut) act4 = ad.activation_forward_op(add, "NCHW", "relu") dict = {W1: W1_val, W2: W2_val, W3: W3_val, W_shortcut: W_shortcut_val} return act4, dict
def ResNet50(inputs, n_class): X = ad.Placeholder("X") y_ = ad.Placeholder("y_") W1 = ad.Variable("W1") W6 = ad.Variable("W6") b6 = ad.Variable("b6") W7 = ad.Variable("W7") b7 = ad.Variable("b7") keep_prob = ad.Placeholder("keep_prob") #conv1 conv1 = ad.convolution_2d_forward_op(X, W1, "NCHW", "VALID", 2, 2) bn1 = ad.bn_forward_op(conv1, "NCHW", "pre_activation") act1 = ad.activation_forward_op(bn1, "NCHW", "relu") pool1 = ad.pooling_2d_forward_op(act1, "NCHW", "max", 0, 0, 2, 2, 3, 3) #conv2_x conv2, dict2 = convolutional_block(inputs=pool1, kernel_size=3, in_filter=64, out_filters=[64, 64, 256], block_name="2a", stride=1) iden2_1, dict2_1 = identity_block(inputs=conv2, kernel_size=3, in_filter=256, out_filters=[64, 64, 256], block_name="2b", stride=1) iden2_2, dict2_2 = identity_block(iden2_1, 3, 256, [64, 64, 256], "2c", 1) #conv3_x conv3, dict3 = convolutional_block(iden2_2, 3, 256, [128, 128, 512], "3a", 1) iden3_1, dict3_1 = identity_block(conv3, 3, 512, [128, 128, 512], "3b", 1) iden3_2, dict3_2 = identity_block(iden3_1, 3, 512, [128, 128, 512], "3c", 1) iden3_3, dict3_3 = identity_block(iden3_2, 3, 512, [128, 128, 512], "3d", 1) #conv4_x conv4, dict4 = convolutional_block(iden3_3, 3, 512, [256, 256, 1024], "4a", 1) iden4_1, dict4_1 = identity_block(conv4, 3, 1024, [256, 256, 1024], "4b", 1) iden4_2, dict4_2 = identity_block(iden4_1, 3, 1024, [256, 256, 1024], "4c", 1) iden4_3, dict4_3 = identity_block(iden4_2, 3, 1024, [256, 256, 1024], "4d", 1) iden4_4, dict4_4 = identity_block(iden4_3, 3, 1024, [256, 256, 1024], "4e", 1) iden4_5, dict4_5 = identity_block(iden4_4, 3, 1024, [256, 256, 1024], "4f", 1) #conv5_x conv5, dict5 = convolutional_block(iden4_5, 3, 1024, [512, 512, 2048], "5a", 1) iden5_1, dict5_1 = identity_block(conv5, 3, 2048, [512, 512, 2048], "5b", 1) iden5_2, dict5_2 = identity_block(iden5_1, 3, 2048, [512, 512, 2048], "5c", 1) pool5 = ad.pooling_2d_forward_op(iden5_2, "NCHW", "mean", 0, 0, 1, 1, 2, 2) pool5_flat = ad.flatten_op(pool5) mul6 = ad.matmul_op(pool5_flat, W6) add6 = ad.add_op(mul6, b6) act6 = ad.fullyactivation_forward_op(add6, "NCHW", "relu") drop_out = ad.fullydropout_forward_op(act6, "NCHW", keep_prob) mul7 = ad.matmul_op(drop_out, W7) add7 = ad.add_op(mul7, b7) act7 = ad.fullyactivation_forward_op(add7, "NCHW", "softmax") loss = ad.softmaxcrossentropy_op(act7, y_) X_val = np.random.normal(0, 0.5, (10, 3, 230, 230)) W1_val = np.random.normal(0, 0.5, (64, 3, 7, 7)) W6_val = np.random.normal(0, 0.5, (7 * 7 * 2048, 50)) b6_val = np.random.normal(0, 0.5, (10, 50)) W7_val = np.random.normal(0, 0.5, (50, 6)) b7_val = np.random.normal(0, 0.5, (10, 6)) y_val = np.random.normal(0, 0.5, (10, 6)) feed_dict = {W1: W1_val, W6: W6_val, W7: W7_val, b6: b6_val, b7: b7_val} feed_dict.update(dict2) feed_dict.update(dict2_1) feed_dict.update(dict2_2) feed_dict.update(dict3) feed_dict.update(dict3_1) feed_dict.update(dict3_2) feed_dict.update(dict3_3) feed_dict.update(dict4) feed_dict.update(dict4_1) feed_dict.update(dict4_2) feed_dict.update(dict4_3) feed_dict.update(dict4_4) feed_dict.update(dict4_5) feed_dict.update(dict5) feed_dict.update(dict5_1) feed_dict.update(dict5_2) time.sleep(5) list = [] for key in feed_dict.keys(): list.append(key) executor = ad.Executor(list, ctx=ndarray.gpu(0)) executor.run(feed_dict) time.sleep(5)
def test_inception_v4(): X = ad.Placeholder("X") Y_ = ad.Placeholder("y_") f1 = ad.Variable("f1") f2 = ad.Variable("f2") f3 = ad.Variable("f3") f4 = ad.Variable("f4") f5_1 = ad.Variable("f5_1") f5_2 = ad.Variable("f5_2") f6_1 = ad.Variable("f6_1") f6_2 = ad.Variable("f6_2") f6_3 = ad.Variable("f6_3") f6_4 = ad.Variable("f6_4") f7 = ad.Variable("f7") W = ad.Variable("W") b = ad.Variable("b") keep_prob = ad.Placeholder("keep_prob") X_val = np.random.normal(0, 0.5, (10, 3, 299, 299)) Y_val = np.random.normal(0, 0.5, (10, 1)) f1val = np.random.normal(0, 0.5, (32, 3, 3, 3)) f2val = np.random.normal(0, 0.5, (32, 32, 3, 3)) f3val = np.random.normal(0, 0.5, (64, 32, 3, 3)) f4val = np.random.normal(0, 0.5, (96, 64, 3, 3)) f5_1val = np.random.normal(0, 0.5, (64, 160, 1, 1)) f5_2val = np.random.normal(0, 0.5, (96, 64, 3, 3)) f6_1val = np.random.normal(0, 0.5, (64, 160, 1, 1)) f6_2val = np.random.normal(0, 0.5, (64, 64, 7, 1)) f6_3val = np.random.normal(0, 0.5, (64, 64, 1, 7)) f6_4val = np.random.normal(0, 0.5, (96, 64, 3, 3)) f7val = np.random.normal(0, 0.5, (192, 192, 3, 3)) # stem cov1 = ad.convolution_2d_forward_op(X, f1, "NCHW", "VALID", 2, 2) cov2 = ad.convolution_2d_forward_op(cov1, f2, "NCHW", "VALID", 1, 1) cov3 = ad.convolution_2d_forward_op(cov2, f3, "NCHW", "SAME", 1, 1) pool4 = ad.pooling_2d_forward_op(cov3, "NCHW", "max", 0, 0, 2, 2, 3, 3) cov4 = ad.convolution_2d_forward_op(cov3, f4, "NCHW", "VALID", 2, 2) concat1 = ad.concat_forward_op(pool4, cov4) cov5_1 = ad.convolution_2d_forward_op(concat1, f5_1, "NCHW", "SAME", 1, 1) cov5_2 = ad.convolution_2d_forward_op(cov5_1, f5_2, "NCHW", "VALID", 1, 1) cov6_1 = ad.convolution_2d_forward_op(concat1, f6_1, "NCHW", "SAME", 1, 1) cov6_2 = ad.convolution_2d_forward_op(cov6_1, f6_2, "NCHW", "SAME", 1, 1) cov6_3 = ad.convolution_2d_forward_op(cov6_2, f6_3, "NCHW", "SAME", 1, 1) cov6_4 = ad.convolution_2d_forward_op(cov6_3, f6_4, "NCHW", "VALID", 1, 1) concat2 = ad.concat_forward_op(cov5_2, cov6_4) cov7 = ad.convolution_2d_forward_op(concat2, f7, "NCHW", "VALID", 2, 2) pool7 = ad.pooling_2d_forward_op(concat2, "NCHW", "max", 0, 0, 2, 2, 3, 3) concat3 = ad.concat_forward_op(pool7, cov7) a1, dicta1 = block_inception_a(concat3, "a1") a2, dicta2 = block_inception_a(a1, "a2") a3, dicta3 = block_inception_a(a2, "a3") a4, dicta4 = block_inception_a(a3, "a4") ra, dictra = block_reduction_a(a4, 384, "ra") b1, dictb1 = block_inception_b(ra, 1024, "b1") # b2, dictb2 = block_inception_b(b1, 1024, "b2") # b3, dictb3 = block_inception_b(b2, 1024, "b3") # b4, dictb4 = block_inception_b(b3, 1024, "b4") # b5, dictb5 = block_inception_b(b4, 1024, "b5") # b6, dictb6 = block_inception_b(b5, 1024, "b6") # b7, dictb7 = block_inception_b(b6, 1024, "b7") # rb, dictrb = block_reduction_b(b1, 1024, "rb") c1, dictc1 = block_inception_c(rb, 1536, "c1") # c2, dictc2 = block_inception_c(c1, 1536, "c2") # c3, dictc3 = block_inception_c(c2, 1536, "c3") poollast = ad.pooling_2d_forward_op(c1, "NCHW", "mean", 0, 0, 1, 1, 8, 8) squeeze = ad.squeeze_op(poollast) drop_out = ad.fullydropout_forward_op(squeeze, "NCHW", 0.8) mul = ad.matmul_op(drop_out, W) add = ad.add_op(mul, b) loss = ad.softmaxcrossentropy_op(add, Y_) # # aph = 0.001 # t = train.Adam_minimize(loss, aph) ctx = ndarray.gpu(0) # aph = 0.001 # t = train.Adam_minimize(loss, aph) feed_dict = { X: X_val, f1: f1val, f2: f2val, f3: f3val, f4: f4val, f5_1: f5_1val, f5_2: f5_2val, f6_1: f6_1val, f6_2: f6_2val, f6_3: f6_3val, f6_4: f6_4val, f7: f7val } feed_dict.update(dicta1) feed_dict.update(dicta2) feed_dict.update(dicta3) feed_dict.update(dicta4) feed_dict.update(dictra) feed_dict.update(dictb1) # feed_dict.update(dictb2) # feed_dict.update(dictb3) # feed_dict.update(dictb4) # feed_dict.update(dictb5) # feed_dict.update(dictb6) # feed_dict.update(dictb7) feed_dict.update(dictrb) feed_dict.update(dictc1) # feed_dict.update(dictc2) # feed_dict.update(dictc3) executor = ad.Executor([drop_out], ctx=ctx) y_val = executor.run(feed_dict)
def vgg16(): n = 10 n_class = 10 inputs = ad.Variable("inputs") filters1_1 = ad.Variable("filters1_1") filters1_2 = ad.Variable("filters1_2") filters2_1 = ad.Variable("filters2_1") filters2_2 = ad.Variable("filters2_2") filters3_1 = ad.Variable("filters3_1") filters3_2 = ad.Variable("filters3_2") filters3_3 = ad.Variable("filters3_3") filters4_1 = ad.Variable("filters4_1") filters4_2 = ad.Variable("filters4_2") filters4_3 = ad.Variable("filters4_3") filters5_1 = ad.Variable("filters5_1") filters5_2 = ad.Variable("filters5_2") filters5_3 = ad.Variable("filters5_3") filters6 = ad.Variable("filters6") filters7 = ad.Variable("filters7") filters8 = ad.Variable("filters8") biases6 = ad.Variable("biases6") biases7 = ad.Variable("biases7") biases8 = ad.Variable("biases8") y_ = ad.Variable(name="y_") x_val = np.linspace(0, 0.001, 10*3*224*224).reshape((10, 3, 224, 224)) filters_val = [np.ones((64, 3, 3, 3))*0.001] filters_val.append(np.ones((64, 64, 3, 3))*0.001) filters_val.append(np.ones((128, 64, 3, 3))*0.001) filters_val.append(np.ones((128, 128, 3, 3))*0.001) filters_val.append(np.ones((256, 128, 3, 3))*0.001) filters_val.append(np.ones((256, 256, 3, 3))*0.001) filters_val.append(np.ones((256, 256, 3, 3))*0.001) filters_val.append(np.ones((512, 256, 3, 3))*0.001) filters_val.append(np.ones((512, 512, 3, 3))*0.001) filters_val.append(np.ones((512, 512, 3, 3))*0.001) filters_val.append(np.ones((512, 512, 3, 3))*0.001) filters_val.append(np.ones((512, 512, 3, 3))*0.001) filters_val.append(np.ones((512, 512, 3, 3))*0.001) filters_val.append(np.ones((512*7*7, 4096)) * 0.001) filters_val.append(np.ones((4096, 4096)) * 0.001) filters_val.append(np.ones((4096, n_class)) * 0.001) biases_val = [np.ones((1, 4096))* 0.001] biases_val.append(np.ones((1, 4096)) * 0.001) biases_val.append(np.ones((1, n_class)) * 0.001) y_val = np.zeros((10, n_class)) ctx = ndarray.gpu(0) for i in range(16): filters_val[i] = ndarray.array(filters_val[i], ctx) # conv 1 conv1_1 = ad.convolution_2d_forward_op(inputs, filters1_1, "NCHW", "SAME", 1, 1) bn1_1 = ad.bn_forward_op(conv1_1, "NCHW", "pre_activation") act1_1 = ad.activation_forward_op(bn1_1, "NCHW", "relu") conv1_2 = ad.convolution_2d_forward_op(act1_1, filters1_2, "NCHW", "SAME", 1, 1) bn1_2 = ad.bn_forward_op(conv1_2, "NCHW", "pre_activation") act1_2 = ad.activation_forward_op(bn1_2, "NCHW", "relu") pool1 = ad.pooling_2d_forward_op(act1_2, "NCHW", "max", 0, 0, 2, 2, 2, 2) # conv 2 conv2_1 = ad.convolution_2d_forward_op(pool1, filters2_1, "NCHW", "SAME", 1, 1) bn2_1 = ad.bn_forward_op(conv2_1, "NCHW", "pre_activation") act2_1 = ad.activation_forward_op(bn2_1, "NCHW", "relu") conv2_2 = ad.convolution_2d_forward_op(act2_1, filters2_2, "NCHW", "SAME", 1, 1) bn2_2 = ad.bn_forward_op(conv2_2, "NCHW", "pre_activation") act2_2 = ad.activation_forward_op(bn2_2, "NCHW", "relu") pool2 = ad.pooling_2d_forward_op(act2_2, "NCHW", "max", 0, 0, 2, 2, 2, 2) # conv 3 conv3_1 = ad.convolution_2d_forward_op(pool2, filters3_1, "NCHW", "SAME", 1, 1) bn3_1 = ad.bn_forward_op(conv3_1, "NCHW", "pre_activation") act3_1 = ad.activation_forward_op(bn3_1, "NCHW", "relu") conv3_2 = ad.convolution_2d_forward_op(act3_1, filters3_2, "NCHW", "SAME", 1, 1) bn3_2 = ad.bn_forward_op(conv3_2, "NCHW", "pre_activation") act3_2 = ad.activation_forward_op(bn3_2, "NCHW", "relu") conv3_3 = ad.convolution_2d_forward_op(act3_2, filters3_3, "NCHW", "SAME", 1, 1) bn3_3 = ad.bn_forward_op(conv3_3, "NCHW", "pre_activation") act3_3 = ad.activation_forward_op(bn3_3, "NCHW", "relu") pool3 = ad.pooling_2d_forward_op(act3_3, "NCHW", "max", 0, 0, 2, 2, 2, 2) # conv 4 conv4_1 = ad.convolution_2d_forward_op(pool3, filters4_1, "NCHW", "SAME", 1, 1) bn4_1 = ad.bn_forward_op(conv4_1, "NCHW", "pre_activation") act4_1 = ad.activation_forward_op(bn4_1, "NCHW", "relu") conv4_2 = ad.convolution_2d_forward_op(act4_1, filters4_2, "NCHW", "SAME", 1, 1) bn4_2 = ad.bn_forward_op(conv4_2, "NCHW", "pre_activation") act4_2 = ad.activation_forward_op(bn4_2, "NCHW", "relu") conv4_3 = ad.convolution_2d_forward_op(act4_2, filters4_3, "NCHW", "SAME", 1, 1) bn4_3 = ad.bn_forward_op(conv4_3, "NCHW", "pre_activation") act4_3 = ad.activation_forward_op(bn4_3, "NCHW", "relu") pool4 = ad.pooling_2d_forward_op(act4_3, "NCHW", "max", 0, 0, 2, 2, 2, 2) # conv 5 conv5_1 = ad.convolution_2d_forward_op(pool4, filters5_1, "NCHW", "SAME", 1, 1) bn5_1 = ad.bn_forward_op(conv5_1, "NCHW", "pre_activation") act5_1 = ad.activation_forward_op(bn5_1, "NCHW", "relu") conv5_2 = ad.convolution_2d_forward_op(act5_1, filters5_2, "NCHW", "SAME", 1, 1) bn5_2 = ad.bn_forward_op(conv5_2, "NCHW", "pre_activation") act5_2 = ad.activation_forward_op(bn5_2, "NCHW", "relu") conv5_3 = ad.convolution_2d_forward_op(act5_2, filters5_3, "NCHW", "SAME", 1, 1) bn5_3 = ad.bn_forward_op(conv5_3, "NCHW", "pre_activation") act5_3 = ad.activation_forward_op(bn5_3, "NCHW", "relu") pool5 = ad.pooling_2d_forward_op(act5_3, "NCHW", "max", 0, 0, 2, 2, 2, 2) # fc6 pool5_flat = ad.flatten_op(pool5) mul6 = ad.matmul_op(pool5_flat, filters6) add6 = ad.add_op(mul6, biases6) bn6 = ad.fullybn_forward_op(add6, "NCHW") fc6 = ad.fullyactivation_forward_op(bn6, "NCHW", "relu") drop6 = ad.fullydropout_forward_op(fc6, "NCHW", 0.5) # fc7 mul7 = ad.matmul_op(drop6, filters7) add7 = ad.add_op(mul7, biases7) bn7 = ad.fullybn_forward_op(add7, "NCHW") fc7 = ad.fullyactivation_forward_op(bn7, "NCHW", "relu") drop7 = ad.fullydropout_forward_op(fc7, "NCHW", 0.5) #fc8 mul8 = ad.matmul_op(drop7, filters8) add8 = ad.add_op(mul8, biases8) fc8 = ad.fullyactivation_forward_op(add8, "NCHW", "softmax") loss = ad.l2loss_op(fc8, y_) grad = ad.gradients(loss, [filters1_1, filters1_2, filters2_1, filters2_2, filters3_1, filters3_2, filters3_3 , filters4_1, filters4_2, filters4_3, filters5_1, filters5_2, filters5_3 , filters6, filters7]) executor = ad.Executor([grad[0], grad[1], grad[2], grad[3], grad[4], grad[5], grad[6], grad[7], grad[8], grad[9] , grad[10], grad[11], grad[12], grad[13], grad[14], loss, y_], ctx=ctx) aph = 1.0e-6 for i in range(20): select = random.randint(0, n-1) tmp_x_val = x_val[select] tmp_x_val = np.expand_dims(tmp_x_val, 0) tmp_y_val = y_val[select] tmp_y_val = np.expand_dims(tmp_y_val, 0) grad_val = executor.run( feed_dict={inputs: tmp_x_val, y_: tmp_y_val , filters1_1: filters_val[0], filters1_2: filters_val[1], filters2_1: filters_val[2], filters2_2: filters_val[3] , filters3_1: filters_val[4], filters3_2: filters_val[5], filters3_3: filters_val[6] , filters4_1: filters_val[7], filters4_2: filters_val[8], filters4_3: filters_val[9] , filters5_1: filters_val[10], filters5_2: filters_val[11], filters5_3: filters_val[12] , filters6: filters_val[13], filters7: filters_val[14], filters8: filters_val[15] , biases6: biases_val[0], biases7: biases_val[1], biases8: biases_val[2]}) for i in range(14): sgd_update_gpu(filters_val[i], grad_val[i], aph) print(filters_val[0].asnumpy()) return filters_val
def inception_v3(): X = ad.Placeholder("inputs") y_ = ad.Placeholder("y_") inputs = ad.Variable("inputs") filterb_1 = ad.Variable("filterb_1") filterb_2 = ad.Variable("filterb_2") filterb_3 = ad.Variable("filterb_3") filterb_4 = ad.Variable("filterb_4") filterb_5 = ad.Variable("filterb_5") ctx = ndarray.gpu(0) filtersb_val1 = np.ones((32, 3, 3, 3)) * 0.01 filtersb_val2 = np.ones((32, 32, 3, 3)) * 0.01 filtersb_val3 = np.ones((64, 32, 3, 3)) * 0.01 filtersb_val4 = np.ones((80, 64, 1, 1)) * 0.01 filtersb_val5 = np.ones((192, 80, 3, 3)) * 0.01 y_val = np.zeros((147, 147, 64)) #inception前 covb_1 = ad.convolution_2d_forward_op(inputs, filterb_1, "NCHW", "VALID", 2, 2) covb_2 = ad.convolution_2d_forward_op(covb_1, filterb_2, "NCHW", "VALID", 1, 1) covb_3 = ad.convolution_2d_forward_op(covb_2, filterb_3, "NCHW", "SAME", 1, 1) poolb = ad.pooling_2d_forward_op(covb_3, "NCHW", "max", 0, 0, 2, 2, 3, 3) covb_4 = ad.convolution_2d_forward_op(poolb, filterb_4, "NCHW", "VALID", 1, 1) covb_5 = ad.convolution_2d_forward_op(covb_4, filterb_5, "NCHW", "VALID", 1, 1) covb = ad.pooling_2d_forward_op(covb_5, "NCHW", "max", 0, 0, 2, 2, 3, 3) # inception_moudle1 #inception_moudle1_1 filter1_1_0 = ad.Variable("filter1_1_0") filter1_1_1a = ad.Variable("filter1_1_1a") filter1_1_1b = ad.Variable("filter1_1_1b") filter1_1_2a = ad.Variable("filter1_1_2a") filter1_1_2b = ad.Variable("filter1_1_2b") filter1_1_2c = ad.Variable("filter1_1_2c") filter1_1_3 = ad.Variable("filter1_1_3a") filter1_1_0_val = np.ones((64, 192, 1, 1)) * 0.01 filter1_1_1_vala = np.ones((48, 192, 1, 1)) * 0.01 filter1_1_1_valb = np.ones((64, 48, 5, 5)) * 0.01 filter1_1_2_vala = np.ones((64, 192, 1, 1)) * 0.01 filter1_1_2_valb = np.ones((96, 64, 3, 3)) * 0.01 filter1_1_2_valc = np.ones((96, 96, 3, 3)) * 0.01 filter1_1_3_val = np.ones((32, 192, 1, 1)) * 0.01 # branch_0 incep1_1_0 = ad.convolution_2d_forward_op(covb, filter1_1_0, "NCHW", "SAME", 1, 1) # branch 1 incep1_1_1a = ad.convolution_2d_forward_op(covb, filter1_1_1a, "NCHW", "SAME", 1, 1) incep1_1_1 = ad.convolution_2d_forward_op(incep1_1_1a, filter1_1_1b, "NCHW", "SAME", 1, 1) # branch 2 incep1_1_2a = ad.convolution_2d_forward_op(covb, filter1_1_2a, "NCHW", "SAME", 1, 1) incep1_1_2b = ad.convolution_2d_forward_op(incep1_1_2a, filter1_1_2b, "NCHW", "SAME", 1, 1) incep1_1_2 = ad.convolution_2d_forward_op(incep1_1_2b, filter1_1_2c, "NCHW", "SAME", 1, 1) # branch 3 incep1_1_3a = ad.pooling_2d_forward_op(covb, "NCHW", "mean", 1, 1, 1, 1, 3, 3) incep1_1_3 = ad.convolution_2d_forward_op(incep1_1_3a, filter1_1_3, "NCHW", "SAME", 1, 1) concat1_1a = ad.concat_forward_op(incep1_1_0, incep1_1_1) concat1_1b = ad.concat_forward_op(concat1_1a, incep1_1_2) concat1_1 = ad.concat_forward_op(concat1_1b, incep1_1_3) #inception_moudle1_2 filter1_2_0 = ad.Variable("filter1_2_0") filter1_2_1a = ad.Variable("filter1_2_1a") filter1_2_1b = ad.Variable("filter1_2_1b") filter1_2_2a = ad.Variable("filter1_2_2a") filter1_2_2b = ad.Variable("filter1_2_2b") filter1_2_2c = ad.Variable("filter1_2_2c") filter1_2_3 = ad.Variable("filter1_2_3a") filter1_2_0_val = np.ones((64, 256, 1, 1)) * 0.01 filter1_2_1_vala = np.ones((48, 256, 1, 1)) * 0.01 filter1_2_1_valb = np.ones((64, 48, 5, 5)) * 0.01 filter1_2_2_vala = np.ones((64, 256, 1, 1)) * 0.01 filter1_2_2_valb = np.ones((96, 64, 3, 3)) * 0.01 filter1_2_2_valc = np.ones((96, 96, 3, 3)) * 0.01 filter1_2_3_val = np.ones((64, 256, 1, 1)) * 0.01 # branch_0 incep1_2_0 = ad.convolution_2d_forward_op(concat1_1, filter1_2_0, "NCHW", "SAME", 1, 1) # branch 1 incep1_2_1a = ad.convolution_2d_forward_op(concat1_1, filter1_2_1a, "NCHW", "SAME", 1, 1) incep1_2_1 = ad.convolution_2d_forward_op(incep1_2_1a, filter1_2_1b, "NCHW", "SAME", 1, 1) # branch 2 incep1_2_2a = ad.convolution_2d_forward_op(concat1_1, filter1_2_2a, "NCHW", "SAME", 1, 1) incep1_2_2b = ad.convolution_2d_forward_op(incep1_2_2a, filter1_2_2b, "NCHW", "SAME", 1, 1) incep1_2_2 = ad.convolution_2d_forward_op(incep1_2_2b, filter1_2_2c, "NCHW", "SAME", 1, 1) # branch 3 incep1_2_3a = ad.pooling_2d_forward_op(concat1_1, "NCHW", "mean", 1, 1, 1, 1, 3, 3) incep1_2_3 = ad.convolution_2d_forward_op(incep1_2_3a, filter1_2_3, "NCHW", "SAME", 1, 1) concat1_2a = ad.concat_forward_op(incep1_2_0, incep1_2_1) concat1_2b = ad.concat_forward_op(concat1_2a, incep1_2_2) concat1_2 = ad.concat_forward_op(concat1_2b, incep1_2_3) # inception_moudle1_3 filter1_3_0 = ad.Variable("filter1_3_0") filter1_3_1a = ad.Variable("filter1_3_1a") filter1_3_1b = ad.Variable("filter1_3_1b") filter1_3_2a = ad.Variable("filter1_3_2a") filter1_3_2b = ad.Variable("filter1_3_2b") filter1_3_2c = ad.Variable("filter1_3_2c") filter1_3_3 = ad.Variable("filter1_3_3a") filter1_3_0_val = np.ones((64, 288, 1, 1)) * 0.01 filter1_3_1_vala = np.ones((48, 288, 1, 1)) * 0.01 filter1_3_1_valb = np.ones((64, 48, 5, 5)) * 0.01 filter1_3_2_vala = np.ones((64, 288, 1, 1)) * 0.01 filter1_3_2_valb = np.ones((96, 64, 3, 3)) * 0.01 filter1_3_2_valc = np.ones((96, 96, 3, 3)) * 0.01 filter1_3_3_val = np.ones((64, 288, 1, 1)) * 0.01 # branch_0 incep1_3_0 = ad.convolution_2d_forward_op(concat1_2, filter1_3_0, "NCHW", "SAME", 1, 1) # branch 1 incep1_3_1a = ad.convolution_2d_forward_op(concat1_2, filter1_3_1a, "NCHW", "SAME", 1, 1) incep1_3_1 = ad.convolution_2d_forward_op(incep1_3_1a, filter1_3_1b, "NCHW", "SAME", 1, 1) # branch 2 incep1_3_2a = ad.convolution_2d_forward_op(concat1_2, filter1_3_2a, "NCHW", "SAME", 1, 1) incep1_3_2b = ad.convolution_2d_forward_op(incep1_3_2a, filter1_3_2b, "NCHW", "SAME", 1, 1) incep1_3_2 = ad.convolution_2d_forward_op(incep1_3_2b, filter1_3_2c, "NCHW", "SAME", 1, 1) # branch 3 incep1_3_3a = ad.pooling_2d_forward_op(concat1_2, "NCHW", "mean", 1, 1, 1, 1, 3, 3) incep1_3_3 = ad.convolution_2d_forward_op(incep1_3_3a, filter1_3_3, "NCHW", "SAME", 1, 1) concat1_3a = ad.concat_forward_op(incep1_3_0, incep1_3_1) concat1_3b = ad.concat_forward_op(concat1_3a, incep1_3_2) concat1_3 = ad.concat_forward_op(concat1_3b, incep1_3_3) # # # # # # inception_moudle2 # inception_moudle2_1 filter2_1_0 = ad.Variable("filter2_1_0") filter2_1_1a = ad.Variable("filter2_1_1a") filter2_1_1b = ad.Variable("filter2_1_1b") filter2_1_1c = ad.Variable("filter2_1_1c") filter2_1_0_val = np.ones((384, 288, 3, 3)) * 0.01 filter2_1_1_vala = np.ones((64, 288, 1, 1)) * 0.01 filter2_1_1_valb = np.ones((96, 64, 3, 3)) * 0.01 filter2_1_1_valc = np.ones((96, 96, 3, 3)) * 0.01 # branch_0 incep2_1_0 = ad.convolution_2d_forward_op(concat1_3, filter2_1_0, "NCHW", "VALID", 2, 2) # branch 1 incep2_1_1a = ad.convolution_2d_forward_op(concat1_3, filter2_1_1a, "NCHW", "SAME", 1, 1) incep2_1_1b = ad.convolution_2d_forward_op(incep2_1_1a, filter2_1_1b, "NCHW", "SAME", 1, 1) incep2_1_1 = ad.convolution_2d_forward_op(incep2_1_1b, filter2_1_1c, "NCHW", "VALID", 2, 2) # branch 2 incep2_1_2 = ad.pooling_2d_forward_op(concat1_3, "NCHW", "mean", 0, 0, 2, 2, 3, 3) concat2_1a = ad.concat_forward_op(incep2_1_0, incep2_1_1) concat2_1 = ad.concat_forward_op(concat2_1a, incep2_1_2) # inception_moudle2_2 filter2_2_0 = ad.Variable("filter2_2_0") filter2_2_1a = ad.Variable("filter2_2_1a") filter2_2_1b = ad.Variable("filter2_2_1b") filter2_2_1c = ad.Variable("filter2_2_1c") filter2_2_2a = ad.Variable("filter2_2_2a") filter2_2_2b = ad.Variable("filter2_2_2b") filter2_2_2c = ad.Variable("filter2_2_2c") filter2_2_2d = ad.Variable("filter2_2_2d") filter2_2_2e = ad.Variable("filter2_2_2e") filter2_2_3 = ad.Variable("filter2_2_3a") filter2_2_0_val = np.ones((192, 768, 1, 1)) * 0.01 filter2_2_1_vala = np.ones((128, 768, 1, 1)) * 0.01 filter2_2_1_valb = np.ones((128, 128, 1, 7)) * 0.01 filter2_2_1_valc = np.ones((192, 128, 7, 1)) * 0.01 filter2_2_2_vala = np.ones((128, 768, 1, 1)) * 0.01 filter2_2_2_valb = np.ones((128, 128, 7, 1)) * 0.01 filter2_2_2_valc = np.ones((128, 128, 1, 7)) * 0.01 filter2_2_2_vald = np.ones((128, 128, 7, 1)) * 0.01 filter2_2_2_vale = np.ones((192, 128, 1, 7)) * 0.01 filter2_2_3_val = np.ones((192, 768, 1, 1)) * 0.01 # branch_0 incep2_2_0 = ad.convolution_2d_forward_op(concat2_1, filter2_2_0, "NCHW", "SAME", 1, 1) # branch 1 incep2_2_1a = ad.convolution_2d_forward_op(concat2_1, filter2_2_1a, "NCHW", "SAME", 1, 1) incep2_2_1b = ad.convolution_2d_forward_op(incep2_2_1a, filter2_2_1b, "NCHW", "SAME", 1, 1) incep2_2_1 = ad.convolution_2d_forward_op(incep2_2_1b, filter2_2_1c, "NCHW", "SAME", 1, 1) # branch 2 incep2_2_2a = ad.convolution_2d_forward_op(concat2_1, filter2_2_2a, "NCHW", "SAME", 1, 1) incep2_2_2b = ad.convolution_2d_forward_op(incep2_2_2a, filter2_2_2b, "NCHW", "SAME", 1, 1) incep2_2_2c = ad.convolution_2d_forward_op(incep2_2_2b, filter2_2_2c, "NCHW", "SAME", 1, 1) incep2_2_2d = ad.convolution_2d_forward_op(incep2_2_2c, filter2_2_2d, "NCHW", "SAME", 1, 1) incep2_2_2 = ad.convolution_2d_forward_op(incep2_2_2d, filter2_2_2e, "NCHW", "SAME", 1, 1) # branch 3 incep2_2_3a = ad.pooling_2d_forward_op(concat2_1, "NCHW", "mean", 1, 1, 1, 1, 3, 3) incep2_2_3 = ad.convolution_2d_forward_op(incep2_2_3a, filter2_2_3, "NCHW", "SAME", 1, 1) concat2_2a = ad.concat_forward_op(incep2_2_0, incep2_2_1) concat2_2b = ad.concat_forward_op(concat2_2a, incep2_2_2) concat2_2 = ad.concat_forward_op(concat2_2b, incep2_2_3) # inception_moudle2_3 # filter2_3_0 = ad.Variable("filter2_3_0") # filter2_3_1a = ad.Variable("filter2_3_1a") # filter2_3_1b = ad.Variable("filter2_3_1b") # filter2_3_1c = ad.Variable("filter2_3_1c") # filter2_3_2a = ad.Variable("filter2_3_2a") # filter2_3_2b = ad.Variable("filter2_3_2b") # filter2_3_2c = ad.Variable("filter2_3_2c") # filter2_3_2d = ad.Variable("filter2_3_2d") # filter2_3_2e = ad.Variable("filter2_3_2e") # filter2_3_3 = ad.Variable("filter2_3_3a") # # filter2_3_0_val = np.ones((192, 768, 1, 1)) * 0.01 # filter2_3_1_vala = np.ones((160, 768, 1, 1)) * 0.01 # filter2_3_1_valb = np.ones((160, 160, 1, 7)) * 0.01 # filter2_3_1_valc = np.ones((192, 160, 7, 1)) * 0.01 # filter2_3_2_vala = np.ones((160, 768, 1, 1)) * 0.01 # filter2_3_2_valb = np.ones((160, 160, 7,1)) * 0.01 # filter2_3_2_valc = np.ones((160, 160, 1, 7)) * 0.01 # filter2_3_2_vald = np.ones((160, 160, 7, 1)) * 0.01 # filter2_3_2_vale = np.ones((192, 160, 1, 7)) * 0.01 # filter2_3_3_val = np.ones((192, 768, 1, 1)) * 0.01 # # # branch_0 # incep2_3_0 = ad.convolution_2d_forward_op(concat2_2, filter2_3_0, "NCHW", "SAME", 1, 1) # # branch 1 # incep2_3_1a = ad.convolution_2d_forward_op(concat2_2, filter2_3_1a, "NCHW", "SAME", 1, 1) # incep2_3_1b = ad.convolution_2d_forward_op(incep2_3_1a, filter2_3_1b, "NCHW", "SAME", 1, 1) # incep2_3_1 = ad.convolution_2d_forward_op(incep2_3_1b, filter2_3_1c, "NCHW", "SAME", 1, 1) # # branch 2 # incep2_3_2a = ad.convolution_2d_forward_op(concat2_2, filter2_3_2a, "NCHW", "SAME", 1, 1) # incep2_3_2b = ad.convolution_2d_forward_op(incep2_3_2a, filter2_3_2b, "NCHW", "SAME", 1, 1) # incep2_3_2c = ad.convolution_2d_forward_op(incep2_3_2b, filter2_3_2c, "NCHW", "SAME", 1, 1) # incep2_3_2d = ad.convolution_2d_forward_op(incep2_3_2c, filter2_3_2d, "NCHW", "SAME", 1, 1) # incep2_3_2 = ad.convolution_2d_forward_op(incep2_3_2d, filter2_3_2e, "NCHW", "SAME", 1, 1) # # branch 3 # incep2_3_3a = ad.pooling_2d_forward_op(concat2_2, "NCHW", "mean", 1, 1, 1, 1, 3, 3) # incep2_3_3 = ad.convolution_2d_forward_op(incep2_3_3a, filter2_3_3, "NCHW", "SAME", 1, 1) # # concat2_3a = ad.concat_forward_op(incep2_3_0, incep2_3_1) # concat2_3b = ad.concat_forward_op(concat2_3a, incep2_3_2) # concat2_3 = ad.concat_forward_op(concat2_3b, incep2_3_3) # inception_moudle2_4 # filter2_4_0 = ad.Variable("filter2_4_0") # filter2_4_1a = ad.Variable("filter2_4_1a") # filter2_4_1b = ad.Variable("filter2_4_1b") # filter2_4_1c = ad.Variable("filter2_4_1c") # filter2_4_2a = ad.Variable("filter2_4_2a") # filter2_4_2b = ad.Variable("filter2_4_2b") # filter2_4_2c = ad.Variable("filter2_4_2c") # filter2_4_2d = ad.Variable("filter2_4_2d") # filter2_4_2e = ad.Variable("filter2_4_2e") # filter2_4_3 = ad.Variable("filter2_4_3a") # # filter2_4_0_val = np.ones((192, 768, 1, 1)) * 0.01 # filter2_4_1_vala = np.ones((160, 768, 1, 1)) * 0.01 # filter2_4_1_valb = np.ones((160, 160, 1, 7)) * 0.01 # filter2_4_1_valc = np.ones((192, 160, 7, 1)) * 0.01 # filter2_4_2_vala = np.ones((160, 768, 1, 1)) * 0.01 # filter2_4_2_valb = np.ones((160, 160, 7, 1)) * 0.01 # filter2_4_2_valc = np.ones((160, 160, 1, 7)) * 0.01 # filter2_4_2_vald = np.ones((160, 160, 7, 1)) * 0.01 # filter2_4_2_vale = np.ones((192, 160, 1, 7)) * 0.01 # filter2_4_3_val = np.ones((192, 768, 1, 1)) * 0.01 # # # branch_0 # incep2_4_0 = ad.convolution_2d_forward_op(concat2_3, filter2_4_0, "NCHW", "SAME", 1, 1) # # branch 1 # incep2_4_1a = ad.convolution_2d_forward_op(concat2_3, filter2_4_1a, "NCHW", "SAME", 1, 1) # incep2_4_1b = ad.convolution_2d_forward_op(incep2_4_1a, filter2_4_1b, "NCHW", "SAME", 1, 1) # incep2_4_1 = ad.convolution_2d_forward_op(incep2_4_1b, filter2_4_1c, "NCHW", "SAME", 1, 1) # # branch 2 # incep2_4_2a = ad.convolution_2d_forward_op(concat2_3, filter2_4_2a, "NCHW", "SAME", 1, 1) # incep2_4_2b = ad.convolution_2d_forward_op(incep2_4_2a, filter2_4_2b, "NCHW", "SAME", 1, 1) # incep2_4_2c = ad.convolution_2d_forward_op(incep2_4_2b, filter2_4_2c, "NCHW", "SAME", 1, 1) # incep2_4_2d = ad.convolution_2d_forward_op(incep2_4_2c, filter2_4_2d, "NCHW", "SAME", 1, 1) # incep2_4_2 = ad.convolution_2d_forward_op(incep2_4_2d, filter2_4_2e, "NCHW", "SAME", 1, 1) # # branch 3 # incep2_4_3a = ad.pooling_2d_forward_op(concat2_3, "NCHW", "mean", 1, 1, 1, 1, 3, 3) # incep2_4_3 = ad.convolution_2d_forward_op(incep2_4_3a, filter2_4_3, "NCHW", "SAME", 1, 1) # # concat2_4a = ad.concat_forward_op(incep2_4_0, incep2_4_1) # concat2_4b = ad.concat_forward_op(concat2_4a, incep2_4_2) # concat2_4 = ad.concat_forward_op(concat2_4b, incep2_4_3) # inception_moudle2_5 # filter2_5_0 = ad.Variable("filter2_5_0") # filter2_5_1a = ad.Variable("filter2_5_1a") # filter2_5_1b = ad.Variable("filter2_5_1b") # filter2_5_1c = ad.Variable("filter2_5_1c") # filter2_5_2a = ad.Variable("filter2_5_2a") # filter2_5_2b = ad.Variable("filter2_5_2b") # filter2_5_2c = ad.Variable("filter2_5_2c") # filter2_5_2d = ad.Variable("filter2_5_2d") # filter2_5_2e = ad.Variable("filter2_5_2e") # filter2_5_3 = ad.Variable("filter2_5_3a") # # filter2_5_0_val = np.ones((192, 768, 1, 1)) * 0.01 # filter2_5_1_vala = np.ones((160, 768, 1, 1)) * 0.01 # filter2_5_1_valb = np.ones((160, 160, 1, 7)) * 0.01 # filter2_5_1_valc = np.ones((192, 160, 7, 1)) * 0.01 # filter2_5_2_vala = np.ones((160, 768, 1, 1)) * 0.01 # filter2_5_2_valb = np.ones((160, 160, 7, 1)) * 0.01 # filter2_5_2_valc = np.ones((160, 160, 1, 7)) * 0.01 # filter2_5_2_vald = np.ones((160, 160, 7, 1)) * 0.01 # filter2_5_2_vale = np.ones((192, 160, 1, 7)) * 0.01 # filter2_5_3_val = np.ones((192, 768, 1, 1)) * 0.01 # # # branch_0 # incep2_5_0 = ad.convolution_2d_forward_op(concat2_4, filter2_5_0, "NCHW", "SAME", 1, 1) # # branch 1 # incep2_5_1a = ad.convolution_2d_forward_op(concat2_4, filter2_5_1a, "NCHW", "SAME", 1, 1) # incep2_5_1b = ad.convolution_2d_forward_op(incep2_5_1a, filter2_5_1b, "NCHW", "SAME", 1, 1) # incep2_5_1 = ad.convolution_2d_forward_op(incep2_5_1b, filter2_5_1c, "NCHW", "SAME", 1, 1) # # branch 2 # incep2_5_2a = ad.convolution_2d_forward_op(concat2_4, filter2_5_2a, "NCHW", "SAME", 1, 1) # incep2_5_2b = ad.convolution_2d_forward_op(incep2_5_2a, filter2_5_2b, "NCHW", "SAME", 1, 1) # incep2_5_2c = ad.convolution_2d_forward_op(incep2_5_2b, filter2_5_2c, "NCHW", "SAME", 1, 1) # incep2_5_2d = ad.convolution_2d_forward_op(incep2_5_2c, filter2_5_2d, "NCHW", "SAME", 1, 1) # incep2_5_2 = ad.convolution_2d_forward_op(incep2_5_2d, filter2_5_2e, "NCHW", "SAME", 1, 1) # # branch 3 # incep2_5_3a = ad.pooling_2d_forward_op(concat2_4, "NCHW", "mean", 1, 1, 1, 1, 3, 3) # incep2_5_3 = ad.convolution_2d_forward_op(incep2_5_3a, filter2_5_3, "NCHW", "SAME", 1, 1) # # concat2_5a = ad.concat_forward_op(incep2_5_0, incep2_5_1) # concat2_5b = ad.concat_forward_op(concat2_5a, incep2_5_2) # concat2_5 = ad.concat_forward_op(concat2_5b, incep2_5_3) # # inception_moudle3 # inception_moudle3_1 filter3_1_0a = ad.Variable("filter3_1_0a") filter3_1_0b = ad.Variable("filter3_1_0b") filter3_1_1a = ad.Variable("filter3_1_1a") filter3_1_1b = ad.Variable("filter3_1_1b") filter3_1_1c = ad.Variable("filter3_1_1c") filter3_1_1d = ad.Variable("filter3_1_1d") filter3_1_0_vala = np.ones((192, 768, 1, 1)) * 0.01 filter3_1_0_valb = np.ones((320, 192, 3, 3)) * 0.01 filter3_1_1_vala = np.ones((192, 768, 1, 1)) * 0.01 filter3_1_1_valb = np.ones((192, 192, 1, 7)) * 0.01 filter3_1_1_valc = np.ones((192, 192, 7, 1)) * 0.01 filter3_1_1_vald = np.ones((192, 192, 3, 3)) * 0.01 # branch_0 incep3_1_0a = ad.convolution_2d_forward_op(concat2_2, filter3_1_0a, "NCHW", "SAME", 1, 1) incep3_1_0 = ad.convolution_2d_forward_op(incep3_1_0a, filter3_1_0b, "NCHW", "VALID", 2, 2) # branch 1 incep3_1_1a = ad.convolution_2d_forward_op(concat2_2, filter3_1_1a, "NCHW", "SAME", 1, 1) incep3_1_1b = ad.convolution_2d_forward_op(incep3_1_1a, filter3_1_1b, "NCHW", "SAME", 1, 1) incep3_1_1c = ad.convolution_2d_forward_op(incep3_1_1b, filter3_1_1c, "NCHW", "SAME", 1, 1) incep3_1_1 = ad.convolution_2d_forward_op(incep3_1_1c, filter3_1_1d, "NCHW", "VALID", 2, 2) # branch 2 incep3_1_2 = ad.pooling_2d_forward_op(concat2_2, "NCHW", "mean", 0, 0, 2, 2, 3, 3) concat3_1a = ad.concat_forward_op(incep3_1_0, incep3_1_1) concat3_1 = ad.concat_forward_op(concat3_1a, incep3_1_2) # inception_moudle3_2 filter3_2_0 = ad.Variable("filter3_2_0") filter3_2_1a = ad.Variable("filter3_2_1a") filter3_2_1b = ad.Variable("filter3_2_1b") filter3_2_1c = ad.Variable("filter3_2_1c") filter3_2_2a = ad.Variable("filter3_2_2a") filter3_2_2b = ad.Variable("filter3_2_2b") filter3_2_2c = ad.Variable("filter3_2_2c") filter3_2_2d = ad.Variable("filter3_2_2d") filter3_2_3 = ad.Variable("filter3_2_3a") filter3_2_0_val = np.ones((320, 1280, 1, 1)) * 0.01 filter3_2_1_vala = np.ones((384, 1280, 1, 1)) * 0.01 filter3_2_1_valb = np.ones((384, 384, 1, 3)) * 0.01 filter3_2_1_valc = np.ones((384, 384, 3, 1)) * 0.01 filter3_2_2_vala = np.ones((448, 1280, 1, 1)) * 0.01 filter3_2_2_valb = np.ones((384, 448, 3, 3)) * 0.01 filter3_2_2_valc = np.ones((384, 384, 1, 3)) * 0.01 filter3_2_2_vald = np.ones((384, 384, 3, 1)) * 0.01 filter3_2_3_val = np.ones((192, 1280, 1, 1)) * 0.01 # branch_0 incep3_2_0 = ad.convolution_2d_forward_op(concat3_1, filter3_2_0, "NCHW", "SAME", 1, 1) # branch 1 incep3_2_1a = ad.convolution_2d_forward_op(concat3_1, filter3_2_1a, "NCHW", "SAME", 1, 1) incep3_2_1b = ad.convolution_2d_forward_op(incep3_2_1a, filter3_2_1b, "NCHW", "SAME", 1, 1) incep3_2_1c = ad.convolution_2d_forward_op(incep3_2_1a, filter3_2_1c, "NCHW", "SAME", 1, 1) incep3_2_1 = ad.concat_forward_op(incep3_2_1b, incep3_2_1c) # branch 2 incep3_2_2a = ad.convolution_2d_forward_op(concat3_1, filter3_2_2a, "NCHW", "SAME", 1, 1) incep3_2_2b = ad.convolution_2d_forward_op(incep3_2_2a, filter3_2_2b, "NCHW", "SAME", 1, 1) incep3_2_2c = ad.convolution_2d_forward_op(incep3_2_2b, filter3_2_2c, "NCHW", "SAME", 1, 1) incep3_2_2d = ad.convolution_2d_forward_op(incep3_2_2b, filter3_2_2d, "NCHW", "SAME", 1, 1) incep3_2_2 = ad.concat_forward_op(incep3_2_2c, incep3_2_2d) # branch 3 incep3_2_3a = ad.pooling_2d_forward_op(concat3_1, "NCHW", "mean", 1, 1, 1, 1, 3, 3) incep3_2_3 = ad.convolution_2d_forward_op(incep3_2_3a, filter3_2_3, "NCHW", "SAME", 1, 1) concat3_2a = ad.concat_forward_op(incep3_2_0, incep3_2_1) concat3_2b = ad.concat_forward_op(concat3_2a, incep3_2_2) concat3_2 = ad.concat_forward_op(concat3_2b, incep3_2_3) # # inception_moudle3_3 # filter3_3_0 = ad.Variable("filter3_3_0") # filter3_3_1a = ad.Variable("filter3_3_1a") # filter3_3_1b = ad.Variable("filter3_3_1b") # filter3_3_1c = ad.Variable("filter3_3_1c") # filter3_3_2a = ad.Variable("filter3_3_2a") # filter3_3_2b = ad.Variable("filter3_3_2b") # filter3_3_2c = ad.Variable("filter3_3_2c") # filter3_3_2d = ad.Variable("filter3_3_2d") # filter3_3_3 = ad.Variable("filter3_3_3a") # # filter3_3_0_val = np.ones((320, 2048, 1, 1)) * 0.01 # filter3_3_1_vala = np.ones((384, 2048, 1, 1)) * 0.01 # filter3_3_1_valb = np.ones((384, 384, 1, 3)) * 0.01 # filter3_3_1_valc = np.ones((384, 384, 3, 1)) * 0.01 # filter3_3_2_vala = np.ones((448, 2048, 1, 1)) * 0.01 # filter3_3_2_valb = np.ones((384, 448, 3, 3)) * 0.01 # filter3_3_2_valc = np.ones((384, 384, 1, 3)) * 0.01 # filter3_3_2_vald = np.ones((384, 384, 3, 1)) * 0.01 # filter3_3_3_val = np.ones((192, 2048, 1, 1)) * 0.01 # # # branch_0 # incep3_3_0 = ad.convolution_2d_forward_op(concat3_2, filter3_3_0, "NCHW", "SAME", 1, 1) # # branch 1 # incep3_3_1a = ad.convolution_2d_forward_op(concat3_2, filter3_3_1a, "NCHW", "SAME", 1, 1) # incep3_3_1b = ad.convolution_2d_forward_op(incep3_3_1a, filter3_3_1b, "NCHW", "SAME", 1, 1) # incep3_3_1c = ad.convolution_2d_forward_op(incep3_3_1a, filter3_3_1c, "NCHW", "SAME", 1, 1) # incep3_3_1 = ad.concat_forward_op(incep3_3_1b, incep3_3_1c) # # # branch 2 # incep3_3_2a = ad.convolution_2d_forward_op(concat3_2, filter3_3_2a, "NCHW", "SAME", 1, 1) # incep3_3_2b = ad.convolution_2d_forward_op(incep3_3_2a, filter3_3_2b, "NCHW", "SAME", 1, 1) # incep3_3_2c = ad.convolution_2d_forward_op(incep3_3_2b, filter3_3_2c, "NCHW", "SAME", 1, 1) # incep3_3_2d = ad.convolution_2d_forward_op(incep3_3_2b, filter3_3_2d, "NCHW", "SAME", 1, 1) # incep3_3_2 = ad.concat_forward_op(incep3_3_2c, incep3_3_2d) # # branch 3 # incep3_3_3a = ad.pooling_2d_forward_op(concat3_2, "NCHW", "mean", 1, 1, 1, 1, 3, 3) # incep3_3_3 = ad.convolution_2d_forward_op(incep3_3_3a, filter3_3_3, "NCHW", "SAME", 1, 1) # # concat3_3a = ad.concat_forward_op(incep3_3_0, incep3_3_1) # concat3_3b = ad.concat_forward_op(concat3_3a, incep3_3_2) # concat3_3 = ad.concat_forward_op(concat3_3b, incep3_3_3) filtera1 = ad.Variable("filtera1") filtera1val = np.ones((1000, 2048, 1, 1)) * 0.01 filtersmul = ad.Variable("filtersmul") filtersmulval = np.ones((1000, n_class)) * 0.01 biases = ad.Variable("biases") biasesval = np.ones((batch_size, n_class)) * 0.01 poollast = ad.pooling_2d_forward_op(concat3_2, "NCHW", "mean", 0, 0, 1, 1, 8, 8) dropout = ad.dropout_forward_op(poollast, "NCHW", 0.8) convlast = ad.convolution_2d_forward_op(dropout, filtera1, "NCHW", "SAME", 1, 1) squeeze = ad.squeeze_op(convlast) # fc8 mul8 = ad.matmul_op(squeeze, filtersmul) add8 = ad.add_op(mul8, biases) fc8 = ad.fullyactivation_forward_op(add8, "NCHW", "softmax") loss = ad.softmaxcrossentropy_op(fc8, y_) X_val = np.empty(shape=(batch_size, 3, 32, 32), dtype=np.float32) y_val = np.empty(shape=(batch_size, n_class), dtype=np.float32) aph = 0.001 t = train.Adam_minimize(loss, aph) t.init_Variable({ filterb_1: filtersb_val1, filterb_2: filtersb_val2, filterb_3: filtersb_val3, filterb_4: filtersb_val4, filterb_5: filtersb_val5, filter1_1_0: filter1_1_0_val, filter1_1_1a: filter1_1_1_vala, filter1_1_1b: filter1_1_1_valb, filter1_1_2a: filter1_1_2_vala, filter1_1_2b: filter1_1_2_valb, filter1_1_2c: filter1_1_2_valc, filter1_1_3: filter1_1_3_val, filter1_2_0: filter1_2_0_val, filter1_2_1a: filter1_2_1_vala, filter1_2_1b: filter1_2_1_valb, filter1_2_2a: filter1_2_2_vala, filter1_2_2b: filter1_2_2_valb, filter1_2_2c: filter1_2_2_valc, filter1_2_3: filter1_2_3_val, filter1_3_0: filter1_3_0_val, filter1_3_1a: filter1_3_1_vala, filter1_3_1b: filter1_3_1_valb, filter1_3_2a: filter1_3_2_vala, filter1_3_2b: filter1_3_2_valb, filter1_3_2c: filter1_3_2_valc, filter1_3_3: filter1_3_3_val, filter2_1_0: filter2_1_0_val, filter2_1_1a: filter2_1_1_vala, filter2_1_1b: filter2_1_1_valb, filter2_1_1c: filter2_1_1_valc, filter2_2_0: filter2_2_0_val, filter2_2_1a: filter2_2_1_vala, filter2_2_1b: filter2_2_1_valb, filter2_2_1c: filter2_2_1_valc, filter2_2_2a: filter2_2_2_vala, filter2_2_2b: filter2_2_2_valb, filter2_2_2c: filter2_2_2_valc, filter2_2_2d: filter2_2_2_vald, filter2_2_2e: filter2_2_2_vale, filter2_2_3: filter2_2_3_val # , filter2_3_0: filter2_3_0_val, filter2_3_1a: filter2_3_1_vala, filter2_3_1b: filter2_3_1_valb, # filter2_3_1c: filter2_3_1_valc, # filter2_3_2a: filter2_3_2_vala, filter2_3_2b: filter2_3_2_valb, # filter2_3_2c: filter2_3_2_valc, filter2_3_2d: filter2_3_2_vald, # filter2_3_2e: filter2_3_2_vale, filter2_3_3: filter2_3_3_val # , filter2_4_0: filter2_4_0_val, filter2_4_1a: filter2_4_1_vala, filter2_4_1b: filter2_4_1_valb, # filter2_4_1c: filter2_4_1_valc, # filter2_4_2a: filter2_4_2_vala, filter2_4_2b: filter2_4_2_valb, # filter2_4_2c: filter2_4_2_valc, filter2_4_2d: filter2_4_2_vald, # filter2_4_2e: filter2_4_2_vale, filter2_4_3: filter2_4_3_val # , filter2_5_0: filter2_5_0_val, filter2_5_1a: filter2_5_1_vala, filter2_5_1b: filter2_5_1_valb, # filter2_5_1c: filter2_5_1_valc, # filter2_5_2a: filter2_5_2_vala, filter2_5_2b: filter2_5_2_valb, # filter2_5_2c: filter2_5_2_valc, filter2_5_2d: filter2_5_2_vald, # filter2_5_2e: filter2_5_2_vale, filter2_5_3: filter2_5_3_val , filter3_1_0a: filter3_1_0_vala, filter3_1_0b: filter3_1_0_valb, filter3_1_1a: filter3_1_1_vala, filter3_1_1b: filter3_1_1_valb, filter3_1_1c: filter3_1_1_valc, filter3_1_1d: filter3_1_1_vald, filter3_2_0: filter3_2_0_val, filter3_2_1a: filter3_2_1_vala, filter3_2_1b: filter3_2_1_valb, filter3_2_1c: filter3_2_1_valc, filter3_2_2a: filter3_2_2_vala, filter3_2_2b: filter3_2_2_valb, filter3_2_2c: filter3_2_2_valc, filter3_2_2d: filter3_2_2_vald, filter3_2_3: filter3_2_3_val # , filter3_3_0: filter3_3_0_val, filter3_3_1a: filter3_3_1_vala, # filter3_3_1b: filter3_3_1_valb, # filter3_3_1c: filter3_3_1_valc, filter3_3_2a: filter3_3_2_vala, # filter3_3_2b: filter3_3_2_valb, # filter3_3_2c: filter3_3_2_valc, filter3_3_2d: filter3_3_2_vald, # filter3_3_3: filter3_3_3_val, , filtera1: filtera1val, filtersmul: filtersmulval, biases: biasesval }) train_x, train_y, test_x, test_y = prepare_data() num_epochs = 10 n_train_batches = train_x.shape[0] // batch_size n_test_batches = test_x.shape[0] // batch_size for i in range(num_epochs): print("epoch %d" % i) for minibatch_index in range(n_train_batches): minibatch_start = minibatch_index * batch_size minibatch_end = (minibatch_index + 1) * batch_size X_val[:] = train_x[minibatch_start:minibatch_end] y_val[:] = train_y[minibatch_start:minibatch_end] # print(y_val.shape) # y_val[:] = convert_to_one_hot(train_y[minibatch_start:minibatch_end]) t.run({X: X_val, y_: y_val}) # print(t.run_get_nodelist_once({X: X_val, y_: y_val}, [fc8])[fc8].asnumpy()) # print(map_to_numpy(t.get_Variable_node_to_val_map())) print("loss_val:", t.get_loss().asnumpy())
def ResNet152(inputs, n_class): X = ad.Placeholder("X") y_ = ad.Placeholder("y_") W1 = ad.Variable("W1") W6 = ad.Variable("W6") b6 = ad.Variable("b6") W7 = ad.Variable("W7") b7 = ad.Variable("b7") keep_prob = ad.Placeholder("keep_prob") #conv1 conv1 = ad.convolution_2d_forward_op(X, W1, "NCHW", "VALID", 2, 2) bn1 = ad.bn_forward_op(conv1, "NCHW", "pre_activation") act1 = ad.activation_forward_op(bn1, "NCHW", "relu") pool1 = ad.pooling_2d_forward_op(act1, "NCHW", "max", 0, 0, 2, 2, 3, 3) #conv2_x conv2, dict2 = convolutional_block(inputs=pool1, kernel_size=3, in_filter=64, out_filters=[64, 64, 256], block_name="2a", stride=1) iden2_1, dict2_1 = identity_block(inputs=conv2, kernel_size=3, in_filter=256, out_filters=[64, 64, 256], block_name="2b", stride=1) iden2_2, dict2_2 = identity_block(iden2_1, 3, 256, [64, 64, 256], "2c", 1) #conv3_x conv3, dict3 = convolutional_block(iden2_2, 3, 256, [128, 128, 512], "3a", 1) iden3_1, dict3_1 = identity_block(conv3, 3, 512, [128, 128, 512], "3b", 1) iden3_2, dict3_2 = identity_block(iden3_1, 3, 512, [128, 128, 512], "3c", 1) iden3_3, dict3_3 = identity_block(iden3_2, 3, 512, [128, 128, 512], "3d", 1) iden3_4, dict3_4 = identity_block(iden3_3, 3, 512, [128, 128, 512], "3e", 1) iden3_5, dict3_5 = identity_block(iden3_4, 3, 512, [128, 128, 512], "3f", 1) iden3_6, dict3_6 = identity_block(iden3_5, 3, 512, [128, 128, 512], "3g", 1) iden3_7, dict3_7 = identity_block(iden3_6, 3, 512, [128, 128, 512], "3h", 1) #conv4_x conv4, dict4 = convolutional_block(iden3_7, 3, 512, [256, 256, 1024], "4a", 1) iden4_1, dict4_1 = identity_block(conv4, 3, 1024, [256, 256, 1024], "4b", 1) iden4_2, dict4_2 = identity_block(iden4_1, 3, 1024, [256, 256, 1024], "4c", 1) iden4_3, dict4_3 = identity_block(iden4_2, 3, 1024, [256, 256, 1024], "4d", 1) iden4_4, dict4_4 = identity_block(iden4_3, 3, 1024, [256, 256, 1024], "4e", 1) iden4_5, dict4_5 = identity_block(iden4_4, 3, 1024, [256, 256, 1024], "4f", 1) iden4_6, dict4_6 = identity_block(iden4_5, 3, 1024, [256, 256, 1024], "4f", 1) iden4_7, dict4_7 = identity_block(iden4_6, 3, 1024, [256, 256, 1024], "4f", 1) iden4_8, dict4_8 = identity_block(iden4_7, 3, 1024, [256, 256, 1024], "4f", 1) iden4_9, dict4_9 = identity_block(iden4_8, 3, 1024, [256, 256, 1024], "4f", 1) iden4_10, dict4_10 = identity_block(iden4_9, 3, 1024, [256, 256, 1024], "4f", 1) iden4_11, dict4_11 = identity_block(iden4_10, 3, 1024, [256, 256, 1024], "4f", 1) iden4_12, dict4_12 = identity_block(iden4_11, 3, 1024, [256, 256, 1024], "4f", 1) iden4_13, dict4_13 = identity_block(iden4_12, 3, 1024, [256, 256, 1024], "4f", 1) iden4_14, dict4_14 = identity_block(iden4_13, 3, 1024, [256, 256, 1024], "4f", 1) iden4_15, dict4_15 = identity_block(iden4_14, 3, 1024, [256, 256, 1024], "4f", 1) iden4_16, dict4_16 = identity_block(iden4_15, 3, 1024, [256, 256, 1024], "4f", 1) iden4_17, dict4_17 = identity_block(iden4_16, 3, 1024, [256, 256, 1024], "4f", 1) iden4_18, dict4_18 = identity_block(iden4_17, 3, 1024, [256, 256, 1024], "4f", 1) iden4_19, dict4_19 = identity_block(iden4_18, 3, 1024, [256, 256, 1024], "4f", 1) iden4_20, dict4_20 = identity_block(iden4_19, 3, 1024, [256, 256, 1024], "4f", 1) iden4_21, dict4_21 = identity_block(iden4_20, 3, 1024, [256, 256, 1024], "4f", 1) iden4_22, dict4_22 = identity_block(iden4_21, 3, 1024, [256, 256, 1024], "4f", 1) iden4_23, dict4_23 = identity_block(iden4_22, 3, 1024, [256, 256, 1024], "4f", 1) iden4_24, dict4_24 = identity_block(iden4_23, 3, 1024, [256, 256, 1024], "4f", 1) iden4_25, dict4_25 = identity_block(iden4_24, 3, 1024, [256, 256, 1024], "4f", 1) iden4_26, dict4_26 = identity_block(iden4_25, 3, 1024, [256, 256, 1024], "4f", 1) iden4_27, dict4_27 = identity_block(iden4_26, 3, 1024, [256, 256, 1024], "4f", 1) iden4_28, dict4_28 = identity_block(iden4_27, 3, 1024, [256, 256, 1024], "4f", 1) iden4_29, dict4_29 = identity_block(iden4_28, 3, 1024, [256, 256, 1024], "4f", 1) iden4_30, dict4_30 = identity_block(iden4_29, 3, 1024, [256, 256, 1024], "4f", 1) iden4_31, dict4_31 = identity_block(iden4_30, 3, 1024, [256, 256, 1024], "4f", 1) iden4_32, dict4_32 = identity_block(iden4_31, 3, 1024, [256, 256, 1024], "4f", 1) iden4_33, dict4_33 = identity_block(iden4_32, 3, 1024, [256, 256, 1024], "4f", 1) iden4_34, dict4_34 = identity_block(iden4_33, 3, 1024, [256, 256, 1024], "4f", 1) iden4_35, dict4_35 = identity_block(iden4_34, 3, 1024, [256, 256, 1024], "4f", 1) #conv5_x conv5, dict5 = convolutional_block(iden4_35, 3, 1024, [512, 512, 2048], "5a", 1) iden5_1, dict5_1 = identity_block(conv5, 3, 2048, [512, 512, 2048], "5b", 1) iden5_2, dict5_2 = identity_block(iden5_1, 3, 2048, [512, 512, 2048], "5c", 1) pool5 = ad.pooling_2d_forward_op(iden5_2, "NCHW", "mean", 0, 0, 1, 1, 2, 2) pool5_flat = ad.flatten_op(pool5) mul6 = ad.matmul_op(pool5_flat, W6) add6 = ad.add_op(mul6, b6) act6 = ad.fullyactivation_forward_op(add6, "NCHW", "relu") drop_out = ad.fullydropout_forward_op(act6, "NCHW", keep_prob) mul7 = ad.matmul_op(drop_out, W7) add7 = ad.add_op(mul7, b7) act7 = ad.fullyactivation_forward_op(add7, "NCHW", "softmax") loss = ad.softmaxcrossentropy_op(act7, y_) X_val = np.random.normal(0, 0.5, (10, 3, 230, 230)) W1_val = np.random.normal(0, 0.5, (64, 3, 7, 7)) W6_val = np.random.normal(0, 0.5, (7 * 7 * 2048, 50)) b6_val = np.random.normal(0, 0.5, (10, 50)) W7_val = np.random.normal(0, 0.5, (50, 6)) b7_val = np.random.normal(0, 0.5, (10, 6)) y_val = np.random.normal(0, 0.5, (10, 6)) aph = 0.001 t = train.Adam_minimize(loss, aph) feed_dict = {W1: W1_val, W6: W6_val, W7: W7_val, b6: b6_val, b7: b7_val} feed_dict.update(dict2) feed_dict.update(dict2_1) feed_dict.update(dict2_2) feed_dict.update(dict3) feed_dict.update(dict3_1) feed_dict.update(dict3_2) feed_dict.update(dict3_3) feed_dict.update(dict3_4) feed_dict.update(dict3_5) feed_dict.update(dict3_6) feed_dict.update(dict3_7) feed_dict.update(dict4) feed_dict.update(dict4_1) feed_dict.update(dict4_2) feed_dict.update(dict4_3) feed_dict.update(dict4_4) feed_dict.update(dict4_5) feed_dict.update(dict4_6) feed_dict.update(dict4_7) feed_dict.update(dict4_8) feed_dict.update(dict4_9) feed_dict.update(dict4_10) feed_dict.update(dict4_11) feed_dict.update(dict4_12) feed_dict.update(dict4_13) feed_dict.update(dict4_14) feed_dict.update(dict4_15) feed_dict.update(dict4_16) feed_dict.update(dict4_17) feed_dict.update(dict4_18) feed_dict.update(dict4_19) feed_dict.update(dict4_20) feed_dict.update(dict4_21) feed_dict.update(dict4_22) feed_dict.update(dict4_23) feed_dict.update(dict4_24) feed_dict.update(dict4_25) feed_dict.update(dict4_26) feed_dict.update(dict4_27) feed_dict.update(dict4_28) feed_dict.update(dict4_29) feed_dict.update(dict4_30) feed_dict.update(dict4_31) feed_dict.update(dict4_32) feed_dict.update(dict4_33) feed_dict.update(dict4_34) feed_dict.update(dict4_35) feed_dict.update(dict5) feed_dict.update(dict5_1) feed_dict.update(dict5_2) # t.init_Variable(feed_dict) # t.run({X: X_val, y_: y_val}) # print(t.get_Variable_node_to_val_map()[W1_val].asnumpy()) list = [] for key in feed_dict.keys(): list.append(key) executor = ad.Executor(list, ctx=ndarray.gpu(0)) executor.run(feed_dict)