--- title: Trained Models & Pipelines teaser: Downloadable trained pipelines and weights for spaCy menu: - ['Quickstart', 'quickstart'] - ['Conventions', 'conventions'] - ['Pipeline Design', 'design'] --- ### Quickstart {hidden="true"} > #### 📖 Installation and usage > > For more details on how to use trained pipelines with spaCy, see the > [usage guide](/usage/models). import QuickstartModels from 'widgets/quickstart-models.js' ## Package naming conventions {#conventions} In general, spaCy expects all pipeline packages to follow the naming convention of `[lang]\_[name]`. For spaCy's pipelines, we also chose to divide the name into three components: 1. **Type:** Capabilities (e.g. `core` for general-purpose pipeline with vocabulary, syntax, entities and word vectors, or `dep` for only vocab and syntax). 2. **Genre:** Type of text the pipeline is trained on, e.g. `web` or `news`. 3. **Size:** Package size indicator, `sm`, `md` or `lg`. For example, [`en_core_web_sm`](/models/en#en_core_web_sm) is a small English pipeline trained on written web text (blogs, news, comments), that includes vocabulary, vectors, syntax and entities. ### Package versioning {#model-versioning} Additionally, the pipeline package versioning reflects both the compatibility with spaCy, as well as the major and minor version. A package version `a.b.c` translates to: - `a`: **spaCy major version**. For example, `2` for spaCy v2.x. - `b`: **Package major version**. Pipelines with a different major version can't be loaded by the same code. For example, changing the width of the model, adding hidden layers or changing the activation changes the major version. - `c`: **Package minor version**. Same pipeline structure, but different parameter values, e.g. from being trained on different data, for different numbers of iterations, etc. For a detailed compatibility overview, see the [`compatibility.json`](https://github.com/explosion/spacy-models/tree/master/compatibility.json). This is also the source of spaCy's internal compatibility check, performed when you run the [`download`](/api/cli#download) command. ## Pretrained pipeline design {#design} The spaCy v3 pretrained pipelines are designed to be efficient and configurable. For example, multiple components can share a common "token-to-vector" model and it's easy to swap out or disable the lemmatizer. The pipelines are designed to be efficient in terms of speed and size and work well when the pipeline is run in full. When modifying a pretrained v3 pipeline, it's important to understand how the components **depend on** each other. Unlike spaCy v2, where the `tagger`, `parser` and `ner` components were all independent, some v3 components depend on earlier components in the pipeline. As a result, disabling or reordering components can affect the annotation quality or lead to warnings and errors. Main changes from spaCy v2 models: - The [`Tok2Vec`](/api/tok2vec) component may be a separate, shared component. A component like a tagger or parser can [listen](/api/architectures#Tok2VecListener) to an earlier `tok2vec` or `transformer` rather than having its own separate tok2vec layer. - Rule-based exceptions move from individual components to the `attribute_ruler`. Lemma and POS exceptions move from the tokenizer exceptions to the attribute ruler and the tag map and morph rules move from the tagger to the attribute ruler. - The lemmatizer tables and processing move from the vocab and tagger to a separate `lemmatizer` component. ### CNN/CPU pipeline design In the `sm`/`md`/`lg` models: - The `tagger`, `morphologizer` and `parser` components listen to the `tok2vec` component. - The `attribute_ruler` maps `token.tag` to `token.pos` if there is no `morphologizer`. The `attribute_ruler` additionally makes sure whitespace is tagged consistently and copies `token.pos` to `token.tag` if there is no tagger. For English, the attribute ruler can improve its mapping from `token.tag` to `token.pos` if dependency parses from a `parser` are present, but the parser is not required. - The rule-based `lemmatizer` (Dutch, English, French, Greek, Macedonian, Norwegian and Spanish) requires `token.pos` annotation from either `tagger`+`attribute_ruler` or `morphologizer`. - The `ner` component is independent with its own internal tok2vec layer. ### Transformer pipeline design In the tranformer (`trf`) models, the `tagger`, `parser` and `ner` (if present) all listen to the `transformer` component. The `attribute_ruler` and `lemmatizer` have the same configuration as in the CNN models. ### Modifying the default pipeline For faster processing, you may only want to run a subset of the components in a pretrained pipeline. The `disable` and `exclude` arguments to [`spacy.load`](/api/top-level#spacy.load) let you control which components are loaded and run. Disabled components are loaded in the background so it's possible to reenable them in the same pipeline in the future with [`nlp.enable_pipe`](/api/language/#enable_pipe). To skip loading a component completely, use `exclude` instead of `disable`. #### Disable part-of-speech tagging and lemmatization To disable part-of-speech tagging and lemmatization, disable the `tagger`, `morphologizer`, `attribute_ruler` and `lemmatizer` components. ```python # Note: English doesn't include a morphologizer nlp = spacy.load("en_core_web_sm", disable=["tagger", "attribute_ruler", "lemmatizer"]) nlp = spacy.load("en_core_web_trf", disable=["tagger", "attribute_ruler", "lemmatizer"]) ``` The lemmatizer depends on `tagger`+`attribute_ruler` or `morphologizer` for Dutch, English, French, Greek, Macedonian, Norwegian and Spanish. If you disable any of these components, you'll see lemmatizer warnings unless the lemmatizer is also disabled. #### Use senter rather than parser for fast sentence segmentation If you need fast sentence segmentation without dependency parses, disable the `parser` use the `senter` component instead: ```python nlp = spacy.load("en_core_web_sm") nlp.disable_pipe("parser") nlp.enable_pipe("senter") ``` The `senter` component is ~10× faster than the parser and more accurate than the rule-based `sentencizer`. #### Switch from rule-based to lookup lemmatization For the Dutch, English, French, Greek, Macedonian, Norwegian and Spanish pipelines, you can switch from the default rule-based lemmatizer to a lookup lemmatizer: ```python # Requirements: pip install spacy-lookups-data nlp = spacy.load("en_core_web_sm") nlp.remove_pipe("lemmatizer") nlp.add_pipe("lemmatizer", config={"mode": "lookup"}).initialize() ``` #### Disable everything except NER For the non-transformer models, the `ner` component is independent, so you can disable everything else: ```python nlp = spacy.load("en_core_web_sm", disable=["tok2vec", "tagger", "parser", "attribute_ruler", "lemmatizer"]) ``` In the transformer models, `ner` listens to the `transformer` layer, so you can disable all components related tagging, parsing, and lemmatization. ```python nlp = spacy.load("en_core_web_trf", disable=["tagger", "parser", "attribute_ruler", "lemmatizer"]) ``` #### Move NER to the end of the pipeline For access to `POS` and `LEMMA` features in an `entity_ruler`, move `ner` to the end of the pipeline after `attribute_ruler` and `lemmatizer`: ```python # load without NER nlp = spacy.load("en_core_web_sm", exclude=["ner"]) # source NER from the same pipeline package as the last component nlp.add_pipe("ner", source=spacy.load("en_core_web_sm")) # insert the entity ruler nlp.add_pipe("entity_ruler", before="ner") ```