| /frameworks/ml/nn/runtime/test/specs/V1_1/ |
| relu_float_1_relaxed.mod.py | 17 # model
18 model = Model() variable
21 model = model.Operation("RELU", i1).To(i2) variable
22 model = model.RelaxedExecution(True) variable
|
| tanh_relaxed.mod.py | 17 # model
18 model = Model() variable
22 model = model.Operation("TANH", i1).To(i2) variable
23 model = model.RelaxedExecution(True) variable
|
| /external/caliper/caliper/src/main/java/com/google/caliper/model/ |
| Defaults.java | 17 package com.google.caliper.model;
24 * Default instances of non-model classes used by the Caliper model. These are present to facilitate
|
| Measurement.java | 17 package com.google.caliper.model;
|
| PersistentHashing.java | 17 package com.google.caliper.model;
|
| StringMapFunnel.java | 17 package com.google.caliper.model;
|
| /external/glide/library/src/main/java/com/bumptech/glide/load/model/ |
| ModelLoader.java | 1 package com.bumptech.glide.load.model;
6 * A factory interface for translating an arbitrarily complex data model into a concrete data type that can be used
7 * by an {@link DataFetcher} to obtain the data for a resource represented by the model.
11 * 1. To translate a specific model into a data type that can be decoded into a resource.
13 * 2. To allow a model to be combined with the dimensions of the view to fetch a resource of a specific size.
23 * @param <T> The type of the model.
30 * Obtains an {@link DataFetcher} that can fetch the data required to decode the resource represented by this model.
34 * Note - If no valid data fetcher can be returned (for example if a model has a null URL), then it is
39 * @param model The model representing the resource
[all...] |
| /external/glide/library/src/main/java/com/bumptech/glide/load/model/file_descriptor/ |
| FileDescriptorModelLoader.java | 1 package com.bumptech.glide.load.model.file_descriptor;
5 import com.bumptech.glide.load.model.ModelLoader;
10 * @param <T> The type of the model that will be translated into an {@link java.io.File}.
|
| /external/glide/library/src/main/java/com/bumptech/glide/load/model/stream/ |
| StreamModelLoader.java | 1 package com.bumptech.glide.load.model.stream;
3 import com.bumptech.glide.load.model.ModelLoader;
10 * @param <T> The type of the model that will be translated into an {@link InputStream}.
|
| /external/junit/src/main/java/org/junit/internal/runners/model/ |
| MultipleFailureException.java | 1 package org.junit.internal.runners.model;
6 public class MultipleFailureException extends org.junit.runners.model.MultipleFailureException {
|
| /external/junit/src/main/java/org/junit/runners/model/ |
| Annotatable.java | 1 package org.junit.runners.model;
6 * A model element that may have annotations.
12 * Returns the model elements' annotations.
17 * Returns the annotation on the model element of the given type, or @code{null}
|
| RunnerScheduler.java | 1 package org.junit.runners.model;
|
| Statement.java | 1 package org.junit.runners.model;
|
| /external/libtextclassifier/ |
| zlib-utils_test.cc | 28 ModelT model; local
29 model.regex_model.reset(new RegexModelT);
30 model.regex_model->patterns.emplace_back(new RegexModel_::PatternT);
31 model.regex_model->patterns.back()->pattern = "this is a test pattern";
32 model.regex_model->patterns.emplace_back(new RegexModel_::PatternT);
33 model.regex_model->patterns.back()->pattern = "this is a second test pattern";
35 model.datetime_model.reset(new DatetimeModelT);
36 model.datetime_model->patterns.emplace_back(new DatetimeModelPatternT);
37 model.datetime_model->patterns.back()->regexes.emplace_back(
39 model.datetime_model->patterns.back()->regexes.back()->pattern
[all...] |
| /external/mp4parser/isoparser/src/main/java/com/googlecode/mp4parser/h264/model/ |
| BitstreamElement.java | 21 package com.googlecode.mp4parser.h264.model;
|
| /frameworks/ml/nn/runtime/test/specs/V1_0/ |
| add.mod.py | 0 # model
2 model = Model() variable
7 model = model.Operation("ADD", i1, i2, act).To(i3) variable
|
| add_broadcast_quant8.mod.py | 0 # model
2 model = Model() variable
7 model = model.Operation("ADD", i1, i2, act).To(i3) variable
|
| add_quant8.mod.py | 0 # model
2 model = Model() variable
7 model = model.Operation("ADD", i1, i2, act).To(i3) variable
|
| concat_float_1.mod.py | 17 # model
18 model = Model() variable
23 model = model.Operation("CONCATENATION", i1, i2, axis0).To(r) variable
|
| concat_quant8_1.mod.py | 17 # model
18 model = Model() variable
23 model = model.Operation("CONCATENATION", i1, i2, axis1).To(r) variable
|
| depth_to_space_float_1.mod.py | 0 model = Model()
6 model = model.Operation("DEPTH_TO_SPACE", i1, block).To(output) variable
1 model = Model() variable
|
| depth_to_space_float_2.mod.py | 0 model = Model()
6 model = model.Operation("DEPTH_TO_SPACE", i1, block).To(output) variable
1 model = Model() variable
|
| depth_to_space_float_3.mod.py | 0 model = Model()
6 model = model.Operation("DEPTH_TO_SPACE", i1, block).To(output) variable
1 model = Model() variable
|
| depth_to_space_quant8_1.mod.py | 0 model = Model()
6 model = model.Operation("DEPTH_TO_SPACE", i1, block).To(output) variable
1 model = Model() variable
|
| depth_to_space_quant8_2.mod.py | 0 model = Model()
6 model = model.Operation("DEPTH_TO_SPACE", i1, block).To(output) variable
1 model = Model() variable
|
