Return-Path: X-Original-To: archive-asf-public-internal@cust-asf2.ponee.io Delivered-To: archive-asf-public-internal@cust-asf2.ponee.io Received: from cust-asf.ponee.io (cust-asf.ponee.io [163.172.22.183]) by cust-asf2.ponee.io (Postfix) with ESMTP id 7BD30200BA9 for ; Sun, 9 Oct 2016 01:42:18 +0200 (CEST) Received: by cust-asf.ponee.io (Postfix) id 7A6E8160AF3; Sat, 8 Oct 2016 23:42:18 +0000 (UTC) Delivered-To: archive-asf-public@cust-asf.ponee.io Received: from mail.apache.org (hermes.apache.org [140.211.11.3]) by cust-asf.ponee.io (Postfix) with SMTP id 56EC7160AEF for ; Sun, 9 Oct 2016 01:42:16 +0200 (CEST) Received: (qmail 77936 invoked by uid 500); 8 Oct 2016 23:42:15 -0000 Mailing-List: contact commits-help@predictionio.incubator.apache.org; run by ezmlm Precedence: bulk List-Help: List-Unsubscribe: List-Post: List-Id: Reply-To: dev@predictionio.incubator.apache.org Delivered-To: mailing list commits@predictionio.incubator.apache.org Received: (qmail 77927 invoked by uid 99); 8 Oct 2016 23:42:15 -0000 Received: from pnap-us-west-generic-nat.apache.org (HELO spamd4-us-west.apache.org) (209.188.14.142) by apache.org (qpsmtpd/0.29) with ESMTP; Sat, 08 Oct 2016 23:42:15 +0000 Received: from localhost (localhost [127.0.0.1]) by spamd4-us-west.apache.org (ASF Mail Server at spamd4-us-west.apache.org) with ESMTP id C9B6BC0C0A for ; Sat, 8 Oct 2016 23:42:14 +0000 (UTC) X-Virus-Scanned: Debian amavisd-new at spamd4-us-west.apache.org X-Spam-Flag: NO X-Spam-Score: -3.52 X-Spam-Level: X-Spam-Status: No, score=-3.52 tagged_above=-999 required=6.31 tests=[KAM_ASCII_DIVIDERS=0.8, KAM_LAZY_DOMAIN_SECURITY=1, MANY_SPAN_IN_TEXT=2.699, RCVD_IN_DNSWL_HI=-5, RCVD_IN_MSPIKE_H3=-0.01, RCVD_IN_MSPIKE_WL=-0.01, RP_MATCHES_RCVD=-2.999] autolearn=disabled Received: from mx1-lw-eu.apache.org ([10.40.0.8]) by localhost (spamd4-us-west.apache.org [10.40.0.11]) (amavisd-new, port 10024) with ESMTP id lzBqfIWplJEX for ; Sat, 8 Oct 2016 23:42:02 +0000 (UTC) Received: from mail.apache.org (hermes.apache.org [140.211.11.3]) by mx1-lw-eu.apache.org (ASF Mail Server at mx1-lw-eu.apache.org) with SMTP id 349005FB68 for ; Sat, 8 Oct 2016 23:42:00 +0000 (UTC) Received: (qmail 76934 invoked by uid 99); 8 Oct 2016 23:41:59 -0000 Received: from git1-us-west.apache.org (HELO git1-us-west.apache.org) (140.211.11.23) by apache.org (qpsmtpd/0.29) with ESMTP; Sat, 08 Oct 2016 23:41:59 +0000 Received: by git1-us-west.apache.org (ASF Mail Server at git1-us-west.apache.org, from userid 33) id 1185CE0BDB; Sat, 8 Oct 2016 23:41:59 +0000 (UTC) Content-Type: text/plain; charset="us-ascii" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit From: donald@apache.org To: commits@predictionio.incubator.apache.org Date: Sat, 08 Oct 2016 23:42:01 -0000 Message-Id: <63409fa86aa6497a93472d025940f60d@git.apache.org> In-Reply-To: <20e18e20b6ed44d893c7cc9113a2486f@git.apache.org> References: <20e18e20b6ed44d893c7cc9113a2486f@git.apache.org> X-Mailer: ASF-Git Admin Mailer Subject: [04/51] [abbrv] [partial] incubator-predictionio-site git commit: Documentation based on apache/incubator-predictionio#df568b6d505812928b59a662408d90119d524173 archived-at: Sat, 08 Oct 2016 23:42:18 -0000 http://git-wip-us.apache.org/repos/asf/incubator-predictionio-site/blob/64c98d37/templates/productranking/quickstart/index.html ---------------------------------------------------------------------- diff --git a/templates/productranking/quickstart/index.html b/templates/productranking/quickstart/index.html new file mode 100644 index 0000000..7eb48ef --- /dev/null +++ b/templates/productranking/quickstart/index.html @@ -0,0 +1,462 @@ +Quick Start - Product Ranking Engine Template
On this page
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Overview

This eng ine template sorts a list of products for a user based on his/her preference. This is ideal for personalizing the display order of product page, catalog, or menu items if you have large number of options. It creates engagement and early conversion by placing products that a user prefers on the top.

Usage

Event Data Requirements

By default, this template takes the following data from Event Server as Training Data:

  • user $set events
  • item $set events
  • Users' view item events

This template can easily be customized to consider more user events such as buy, rate and like.

Input Query

  • UserID
  • List of ItemIDs, which are the products to be ranked

Output PredictedResult

  • a ranked list of recommended itemIDs

1. Install and Run PredictionIO

First you need to install PredictionIO 0.10.0-incubating (if you haven't done it).

Let's say you have installed PredictionIO at /home/yourname/PredictionIO/. For convenience, add PredictionIO's binary command path to your PATH, i.e. /home/yourname/PredictionIO/bin:

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$ PATH=$PATH:/home/yourname/PredictionIO/bin; export PATH
+

If you launched PredictionIO AWS instance, the path is located at /opt/PredictionIO/bin.

Once you have completed the installation process, please make sure all the components (PredictionIO Event Server, Elasticsearch, and HBase) are up and running.

If you launched PredictionIO AWS instance, you can skip pio-start-all. All components should have been started automatically.

If you are using PostgreSQL or MySQL, run the following to start PredictionIO Event Server:

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$ pio eventserver &
+

If instead you are running HBase and Elasticsearch, run the following to start all PredictionIO Event Server, HBase, and Elasticsearch:

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$ pio-start-all
+

You can check the status by running:

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$ pio status
+

If everything is OK, you should see the following outputs:

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+2
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+4
...
+
+(sleeping 5 seconds for all messages to show up...)
+Your system is all ready to go.
+

To further troubleshoot, please see FAQ - Using PredictionIO.

2. Create a new Engine from an Engine Template

Now let's create a new engine called MyProductRanking by downloading the Product Ranking Engine Template. Go to a directory where you want to put your engine and run the following:

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+2
$ pio template get PredictionIO/template-scala-parallel-productranking MyProductRanking
+$ cd MyProductRanking
+

A new directory MyProductRanking is created, where you can find the downloaded engine template.

3. Generate an App ID and Access Key

You will need to create a new App in PredictionIO to store all the data of your app. The data collected will be used for machine learning modeling.

Let's assume you want to use this engine in an application named "MyApp1". Run the following to create a new app "MyApp1":

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$ pio app new MyApp1
+

You should find the following in the console output:

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...
+[INFO] [App$] Initialized Event Store for this app ID: 1.
+[INFO] [App$] Created new app:
+[INFO] [App$]       Name: MyApp1
+[INFO] [App$]         ID: 1
+[INFO] [App$] Access Key: 3mZWDzci2D5YsqAnqNnXH9SB6Rg3dsTBs8iHkK6X2i54IQsIZI1eEeQQyMfs7b3F
+

Note that App ID, **Access Key* are created for this App "MyApp1". You will need the Access Key when you collect data with EventServer for this App.

You can list all of the apps created its corresponding ID and Access Key by running the following command:

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$ pio app list
+

You should see a list of apps created. For example:

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[INFO] [App$]                 Name |   ID |                                                       Access Key | Allowed Event(s)
+[INFO] [App$]               MyApp1 |    1 | 3mZWDzci2D5YsqAnqNnXH9SB6Rg3dsTBs8iHkK6X2i54IQsIZI1eEeQQyMfs7b3F | (all)
+[INFO] [App$]               MyApp2 |    2 | io5lz6Eg4m3Xe4JZTBFE13GMAf1dhFl6ZteuJfrO84XpdOz9wRCrDU44EUaYuXq5 | (all)
+[INFO] [App$] Finished listing 2 app(s).
+

4. Collecting Data

Next, let's collect some training data for the app of this Engine. By default, the Product Ranking Engine Template supports 2 types of entities: user and item, and event view. A user can view an item. This template requires '$set' user event, '$set' item event and user-view-item events.

You can send these events to PredictionIO Event Server in real-time easily by making a HTTP request or through the provided SDK. Please see App Integration Overview for more details how to integrate your app with SDK.

Let's try sending events to EventServer with the following curl commands (The corresponding SDK code is showed in other tabs).

Replace <ACCCESS_KEY> by the Access Key generated in above steps. N ote that localhost:7070 is the default URL of the Event Server.

For convenience, set your access key to the shell variable, run:

$ ACCESS_KEY=<ACCESS_KEY>

For example, when a new user with id "u0" is created in your app on time 2014-11-02T09:39:45.618-08:00 (current time will be used if eventTime is not specified), you can send a $set event for this user. To send this event, run the following curl command:

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$ curl -i -X POST http://localhost:7070/events.json?accessKey=$ACCESS_KEY \
+-H "Content-Type: application/json" \
+-d '{
+  "event" : "$set",
+  "entityType" : "user",
+  "entityId" : "u0",
+  "eventTime" : "2014-11-02T09:39:45.618-08:00"
+}'
+
 
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import predictionio
+
+client = predictionio.EventClient(
+  access_key=<ACCESS KEY>,
+  url=<URL OF EVENTSERVER>,
+  threads=5,
+  qsize=500
+)
+
+# Create a new user
+
+client.create_event(
+  event="$set",
+  entity_type="user",
+  entity_id=<USER_ID>
+)
+
 
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+10
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+13
 
<?php
+require_once("vendor/autoload.php");
+use predictionio\EventClient;
+
+$client = new EventClient(<ACCESS KEY>, <URL OF EVENTSERVER>);
+
+// Create a new user
+$client->createEvent(array(
+  'event' => '$set',
+  'entityType' => 'user',
+  'entityId' => <USER ID>
+));
+?>
+
 
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+8
+9
 
# Create a client object.
+client = PredictionIO::EventClient.new(<ACCESS KEY>, <URL OF EVENTSERVER>)
+
+# Create a new user
+client.create_event(
+  '$set',
+  'user',
+  <USER ID>
+)
+
 
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+13
 
import org.apache.predictionio.Event;
+import org.apache.predictionio.EventClient;
+
+import com.google.common.collect.ImmutableList;
+
+EventClient client = new EventClient(<ACCESS KEY>, <URL OF EVENTSERVER>);
+
+// Create a new user
+Event userEvent = new Event()
+  .event("$set")
+  .entityType("user")
+  .entityId(<USER_ID>);
+client.createEvent(userEvent);
+

When a new item "i0" is created in your app on time 2014-11-02T09:39:45.618-08:00 (current time will be used if eventTime is not specified), you can send a $set event for the item. Run the following curl command:

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$ curl -i -X POST http://localhost:7070/events.json?accessKey=$ACCESS_KEY \
+-H "Content-Type: application/json" \
+-d '{
+  "event" : "$set",
+  "entityType" : "item",
+  "entityId" : "i0",
+  "eventTime" : "2014-11-02T09:39:45.618-08:00"
+}'
+
 
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+4
+5
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# Create a new item or set existing item's categories
+
+client.create_event(
+  event="$set",
+  entity_type="item",
+  entity_id=<ITEM_ID>
+)
+
 
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<?php
+// Create a new item or set existing item's categories
+$client->createEvent(array(
+  'event' => '$set',
+  'entityType' => 'item',
+  'entityId' => <ITEM ID>
+));
+
+?>
+
 
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+4
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# Create a new item or set existing item's categories
+client.create_event(
+  '$set',
+  'item',
+  <ITEM ID>
+)
+
+
 
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// Create a new item or set existing item's categories
+Event itemEvent = new Event()
+  .event("$set")
+  .entityType("item")
+  .entityId(<ITEM_ID>);
+client.createEvent(itemEvent)
+

When the user "u0" view item "i0" on time 2014-11-10T12:34:56.123-08:00 (current time will be used if eventTime is not specified), you can send a view event. Run the following curl command:

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$ curl -i -X POST http://localhost:7070/events.json?accessKey=$ACCESS_KEY \
+-H "Content-Type: application/json" \
+-d '{
+  "event" : "view",
+  "entityType" : "user",
+  "entityId" : "u0",
+  "targetEntityType" : "item",
+  "targetEntityId" : "i0",
+  "eventTime" : "2014-11-10T12:34:56.123-08:00"
+}'
+
 
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# A user views an item
+
+client.create_event(
+  event="view",
+  entity_type="user",
+  entity_id=<USER ID>,
+  target_entity_type="item",
+  target_entity_id=<ITEM ID>
+)
+
 
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<?php
+// A user views an item
+$client->createEvent(array(
+   'event' => 'view',
+   'entityType' => 'user',
+   'entityId' => <USER ID>,
+   'targetEntityType' => 'item',
+   'targetEntityId' => <ITEM ID>
+));
+?>
+
 
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# A user views an item.
+client.create_event(
+  'view',
+  'user',
+  <USER ID>, {
+    'targetEntityType' => 'item',
+    'targetEntityId' => <ITEM ID>
+  }
+)
+
 
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// A user views an item
+Event viewEvent = new Event()
+    .event("view")
+    .entityType("user")
+    .entityId(<USER_ID>)
+    .targetEntityType("item")
+    .targetEntityId(<ITEM_ID>);
+client.createEvent(viewEvent);
+

Query Event Server

Now let's query the EventServer and see if these events are imported successfully.

Go to following URL with your browser:

http://localhost:7070/events.json?accessKey=&lt;YOUR_ACCESS_KEY>

or run the following command in terminal:

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$ curl -i -X GET "http://localhost:7070/events.json?accessKey=$ACCESS_KEY"
+

Note that you should quote the entire URL by using single or double quotes when you run the curl command.

It should return the imported events in JSON format. You can refer to Event Server Debugging Recipes for more different ways to query Event Server.

Import More Sample Data

This engine requires more data in order to train a useful model. Instead of sending more events one by one in real time, for quickstart demonstration purpose, we are going to use a script to import more events in batch.

A Python import script import_eventserver.py is provided to import sample data. It imports 10 users (with user ID "u1" to "u10") and 50 items (with item ID "i1" to "i50"). Each user then randomly view 10 items.< /p>

First, you will need to install Python SDK in order to run the sample data import script. To install Python SDK, run:

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$ pip install predictionio
+

or

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$ easy_install predictionio
+

You may need sudo access if you have permission issue. (ie. sudo pip install predictionio)

Make sure you are under the MyProductRanking directory. Execute the following to import the data (Replace the value of access_key parameter with your Access Key):

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$ cd MyProductRanking
+$ python data/import_eventserver.py --access_key 3mZWDzci2D5YsqAnqNnXH9SB6Rg3dsTBs8iHkK6X2i54IQsIZI1eEeQQyMfs7b3F
+

You should see the following output:

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...
+User u10 views item i13
+User u10 views item i19
+User u10 views item i16
+User u10 views item i39
+User u10 views item i47
+User u10 views item i7
+160 events are imported.
+

If you see error TypeError: init() got an unexpected keyword argument 'access_key', please update the Python SDK to the latest version.

You can query the event server again as described previously to check the imported events.

5. Deploy the Engine as a Service

Now you can build, train, and deploy the engine. First, make sure you are under the MyProductRanking directory.

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$ cd MyProductRanking
+

Engine.json

Under the directory, you should find an engine.json file; this is where you specify parameters for the engine.

Modify this file to make sure the appName parameter match your App Name you created earlier (e.g. "MyApp1" if you follow the quickstart).

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  ...
+  "datasource": {
+    "params" : {
+      "appName": "MyApp1"
+    }
+  },
+  ...
+

You may see appId in engine.json instead, which means you are using old template. In this case, make sure the appId defined in the file match your App ID. Alternatively, you can download the latest version of the template or follow our upgrade instructions to modify the template to use appName as parameter.

Building

Start with building your MyProductRanking engine. Run the following command:

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$ pio build --verbose
+

This command should take few minutes for the first time; all subsequent builds should be less than a minute. You can also run it without --verbose if you don't want to see all the log messages.

Upon successful build, you should see a console message similar to the following.

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[INFO] [Console$] Your engine is ready for training.
+

Training the Predictive Model

To train your engine, run the following command:

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$ pio train
+

When your engine is trained successfully, you should see a console message similar to the following.

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[INFO] [CoreWorkflow$] Training completed successfully.
+

Deploying the Engine

Now your engine is ready to deploy. Run:

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$ pio deploy
+

When the engine is deployed successfully and running, you should see a console message similar to the following:

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[INFO] [HttpListener] Bound to /0.0.0.0:8000
+[INFO] [MasterActor] Bind successful. Ready to serve.
+

Do not kill the deployed engine process.

By default, the deployed engine binds to http://localhost:8000. You can visit that page in your web browser to check its status.

Engine Status

6. Use the Engine

Now, You can retrieve predicted results. To rank items with IDs "i1", "i3", "i10", "i2", "i5", "i31", "i9" for user "u2". You send this JSON { "user": "u2", "items": ["i1", "i3", "i10", "i2", "i5", "i31", "i9"] } to the deployed engine and it will return a JSON of the ranked items. Simply send a query by making a HTTP request or through the EngineCl ient of an SDK.

With the deployed engine running, open another temrinal and run the following curl command or use SDK to send the query:

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$ curl -H "Content-Type: application/json" \
+-d '{ "user": "u2", "items": ["i1", "i3", "i10", "i2", "i5", "i31", "i9"]}' \
+http://localhost:8000/queries.json
+
+
 
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import predictionio
+engine_client = predictionio.EngineClient(url="http://localhost:8000")
+print engine_client.send_query({
+  "user": "u2",
+  "items": ["i1", "i3", "i10", "i2", "i5", "i31", "i9"]
+})
+
 
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<?php
+require_once("vendor/autoload.php");
+use predictionio\EngineClient;
+
+$client = new EngineClient('http://localhost:8000');
+
+$response = $client->sendQuery(array(
+  'user' => 'u2',
+  'items'=> array('i1', 'i3', 'i10', 'i2', 'i5', 'i31', 'i9') ));
+print_r($response);
+
+?>
+
 
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# Create client object.
+client = PredictionIO::EngineClient.new('http://localhost:8000')
+
+# Query PredictionIO.
+response = client.send_query(
+  'user' => 'u2',
+  'items' => ['i1', 'i3', 'i10', 'i2', 'i5', 'i31', 'i9'])
+
+puts response
+
 
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import com.google.common.collect.ImmutableMap;
+import com.google.common.collect.ImmutableList;
+import com.google.gson.JsonObject;
+
+import org.apache.predictionio.EngineClient;
+
+// create client object
+EngineClient engineClient = new EngineClient("http://localhost:8000");
+
+// query
+
+JsonObject response = engineClient.sendQuery(ImmutableMap.<String, Object>of(
+        "user",  "u2",
+        "items", ImmutableList.of("i1", "i3", "i10", "i2", "i5", "i31", "i9")
+    ));
+

The following is sample JSON response:

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{
+  "itemScores":[
+    {"item":"i5","score":1.0038217983580324},
+    {"item":"i3","score":0.00598658734782459},
+    {"item":"i2","score":0.004048103059012265},
+    {"item":"i9","score":-1.966935819737517E-4},
+    {"item":"i1","score":-0.0016841195307744916},
+    {"item":"i31","score":-0.0019770986240634503},
+    {"item":"i10","score":-0.0031498317618844918}
+  ],
+  "isOriginal":false
+}
+

MyProductRanking is now running.

To update the model periodically with new data, simply set up a cron job to call pio train and pio deploy. The engine will continue to serve prediction results during the re-train process. After the training is completed, pio deploy will automatically shutdown the existing engine server and bring up a new process on the same port.

Note that if you import a large data set and the training seems to be taking forever or getting stuck, it's likely that there is not enough executor memory. It's recommended to setup a Spark standalone cluster, you'll need to specify more driver and executor memory when training with a large data set. Please see FAQ here for instructions.

Next: DASE Components Explained

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