H2O scales statistics, machine learning, and math over Big Data.
H2O uses familiar interfaces like R, Python, Scala, the Flow notebook graphical interface, Excel, & JSON so that Big Data enthusiasts & experts can explore, munge, model, and score datasets using a range of algorithms including advanced ones like Deep Learning. H2O is extensible so that developers can add data transformations and model algorithms of their choice and access them through all of those clients.
Data collection is easy. Decision making is hard. H2O makes it fast and easy to derive insights from your data through faster and better predictive modeling. H2O allows online scoring and modeling in a single platform.
- Downloading H2O-3
- Open Source Resources
- Using H2O-3 Code Artifacts (libraries)
- Building H2O-3
- Launching H2O after Building
- Building H2O on Hadoop
- Sparkling Water
- Documentation
- Community / Advisors / Investors
While most of this README is written for developers who do their own builds, most H2O users just download and use a pre-built version. If that's you, just follow these steps:
- Point to http://h2o.ai
- Click on Download
- Scroll down to find the section for H2O-3
- Click the version you want (generally the latest numbered release)
Most people interact with three primary open source resources: GitHub (which you've already found), JIRA (for issue tracking), and h2ostream (a community discussion forum).
You can browse and create new issues in our open source JIRA: http://jira.h2o.ai
- You can browse and search for issues without logging in to JIRA:
- Click the
Issues
menu - Click
Search for issues
- Click the
- To create an issue (either a bug or a feature request), please create yourself an account first:
- Click the
Log In
button on the top right of the screen - Click
Create an acccount
near the bottom of the login box - Once you have created an account and logged in, use the
Create
button on the menu to create an issue - Create H2O-3 issues in the PUBDEV project
- Click the
(Note: There is only one issue tracking system for the project. GitHub issues are not enabled, you must use JIRA.)
- GitHub
- JIRA - file issues here (PUBDEV contains issues for the current H2O-3 project)
- h2ostream community forum - ask your questions here
- Documentation
- Bleeding edge nightly build page: http://s3.amazonaws.com/h2o-release/h2o-3/master/latest.html
- FAQ: http://h2o.ai/product/faq/
- Download (pre-built packages)
- Jenkins
- Website
- Follow us on Twitter, @h2oai
Every nightly build publishes R, Python, Java, and Scala artifacts to a build-specific repository. In particular, you can find Java artifacts in the maven/repo directory.
Here is an example snippet of a gradle build file using h2o-3 as a dependency. Replace x, y, z, and nnnn with valid numbers.
// h2o-3 dependency information
def h2oBranch = 'master'
def h2oBuildNumber = 'nnnn'
def h2oProjectVersion = "x.y.z.${h2oBuildNumber}"
repositories {
// h2o-3 dependencies
maven {
url "https://s3.amazonaws.com/h2o-release/h2o-3/${h2oBranch}/${h2oBuildNumber}/maven/repo/"
}
}
dependencies {
compile "ai.h2o:h2o-core:${h2oProjectVersion}"
compile "ai.h2o:h2o-algos:${h2oProjectVersion}"
compile "ai.h2o:h2o-web:${h2oProjectVersion}"
compile "ai.h2o:h2o-app:${h2oProjectVersion}"
}
Refer to the latest H2O-3 bleeding edge nightly build page for information about installing nightly build artifacts.
Refer to the h2o-droplets GitHub repository for a working example of how to use Java artifacts with gradle.
Note: Stable H2O-3 artifacts are periodically published to Maven Central (click here to search) but may substantially lag behind H2O-3 Bleeding Edge nightly builds.
Getting started with H2O development requires JDK 1.7, Node.js, and Gradle. We use the Gradle wrapper (called gradlew
) to ensure up-to-date local versions of Gradle and other dependencies are installed in your development directory.
To build H2O from the repository, perform the following steps.
# Build H2O
git clone https://github.com/h2oai/h2o-3.git
cd h2o-3
./gradlew build -x test
# Start H2O
java -jar build/h2o.jar
# Point browser to http://localhost:54321
git clone https://github.com/h2oai/h2o-3.git
cd h2o-3
./gradlew syncSmalldata
./gradlew syncRPackages
./gradlew build
Notes:
- Running tests starts five test JVMs that form an H2O cluster and requires at least 8GB of RAM (preferably 16GB of RAM).
- Running
./gradlew syncRPackages
is supported on Windows, OS X, and Linux, and is strongly recommended but not required../gradlew syncRPackages
ensures a complete and consistent environment with pre-approved versions of the packages required for tests and builds. The packages can be installed manually, but we recommend setting an ENV variable and using./gradlew syncRPackages
. To set the ENV variable, use the following format (where `${WORKSPACE} can be any path):mkdir -p ${WORKSPACE}/Rlibrary
export R_LIBS_USER=${WORKSPACE}/Rlibrary
#### Recipe 3: Pull, clean, build, and run tests
git pull ./gradlew syncSmalldata ./gradlew syncRPackages ./gradlew clean ./gradlew build
#### Notes
- We recommend using `./gradlew clean` after each `git pull`.
- Skip tests by adding `-x test` at the end the gradle build command line. Tests typically run for 7-10 minutes on a Macbook Pro laptop with 4 CPUs (8 hyperthreads) and 16 GB of RAM.
- Syncing smalldata is not required after each pull, but if tests fail due to missing data files, then try `./gradlew syncSmalldata` as the first troubleshooting step. Syncing smalldata downloads data files from AWS S3 to the smalldata directory in your workspace. The sync is incremental. Do not check in these files. The smalldata directory is in .gitignore. If you do not run any tests, you do not need the smalldata directory.
- Running `./gradlew syncRPackages` is supported on Windows, OS X, and Linux, and is strongly recommended but not required. `./gradlew syncRPackages` ensures a complete and consistent environment with pre-approved versions of the packages required for tests and builds. The packages can be installed manually, but we recommend setting an ENV variable and using `./gradlew syncRPackages`. To set the ENV variable, use the following format (where `${WORKSPACE} can be any path):
mkdir -p
### 4.2. Setup on all Platforms
##### Install required Python packages (prepending with `sudo` if unsuccessful)
pip install grip
pip install tabulate
pip install wheel
pip install scikit-learn
Python tests require:
pip install scikit-learn
pip install numpy
pip install scipy
pip install pandas
pip install statsmodels
pip install patsy
### 4.3. Setup on Windows
##### Step 1: Download and install [WinPython](https://winpython.github.io).
From the command line, validate `python` is using the newly installed package by using `which python` (or `sudo which python`). [Update the Environment variable](https://github.com/winpython/winpython/wiki/Environment) with the WinPython path.
###### Step 2: Install required Python packages:
pip install grip
pip install tabulate
pip install wheel
##### Step 3: Install JDK
Install [Java 1.7](http://www.oracle.com/technetwork/java/javase/downloads/jdk7-downloads-1880260.html) and add the appropriate directory `C:\Program Files\Java\jdk1.7.0_65\bin` with java.exe to PATH in Environment Variables. To make sure the command prompt is detecting the correct Java version, run:
javac -version
The CLASSPATH variable also needs to be set to the lib subfolder of the JDK:
CLASSPATH=/<path>/<to>/<jdk>/lib
##### Step 4. Install Node.js
Install [Node.js](http://nodejs.org/download/) and add the installed directory `C:\Program Files\nodejs`, which must include node.exe and npm.cmd to PATH if not already prepended.
##### Step 5. Install R, the required packages, and Rtools:
To install these packages from within an R session, enter:
R> install.packages("RCurl")
R> install.packages("jsonlite")
R> install.packages("statmod")
R> install.packages(c("devtools", "roxygen2", "testthat"))
Install [R](http://www.r-project.org/) and add the preferred bin\i386 or bin\x64 directory to your PATH.
Note: Acceptable versions of R are >= 2.13 && <= 3.0.0 && >= 3.1.1.
To manually install packages, download the releases of the following R packages:
- [bitops](http://cran.r-project.org/package=bitops)
- [devtools](http://cran.r-project.org/package=devtools)
- [digest](http://cran.r-project.org/package=digest)
- [Rcpp](http://cran.r-project.org/package=Rcpp)
- [RCurl](http://cran.r-project.org/package=RCurl)
- [jsonlite](http://cran.r-project.org/package=jsonlite)
- [roxygen2](http://cran.r-project.org/package=roxygen2)
- [statmod](http://cran.r-project.org/package=statmod)
- [stringr](http://cran.r-project.org/package=stringr)
- [testthat](http://cran.r-project.org/package=testthat).
cd Downloads
R CMD INSTALL bitops_x.x-x.zip
R CMD INSTALL RCurl_x.xx-x.x.zip
R CMD INSTALL jsonlite_x.x.xx.zip
R CMD INSTALL statmod_x.x.xx.zip
R CMD INSTALL Rcpp_x.xx.x.zip
R CMD INSTALL digest_x.x.x.zip
R CMD INSTALL testthat_x.x.x.zip
R CMD INSTALL stringr_x.x.x.zip
R CMD INSTALL roxygen2_x.x.x.zip
R CMD INSTALL devtools_x.x.x.zip
Finally, install [Rtools](http://cran.r-project.org/bin/windows/Rtools/), which is a collection of command line tools to facilitate R development on Windows.
>**NOTE**: During Rtools installation, do **not** install Cygwin.dll.
##### Step 6. Install [Cygwin](https://cygwin.com/setup-x86_64.exe)
**NOTE**: During installation of Cygwin, deselect the Python packages to avoid a conflict with the Python.org package.
###### Step 6b. Validate Cygwin
If Cygwin is already installed, remove the Python packages or ensure that Native Python is before Cygwin in the PATH variable.
##### Step 7. Update or validate the Windows PATH variable to include R, Java JDK, Cygwin.
##### Step 8. Git Clone [h2o-3](https://github.com/h2oai/h2o-3.git)
If you don't already have a Git client, please install one. The default one can be found here http://git-scm.com/downloads. Make sure that command prompt support is enabled before the installation.
Download and update h2o-3 source codes:
git clone https://github.com/h2oai/h2o-3
##### Step 9. Run the top-level gradle build:
cd h2o-3
./gradlew.bat build
> If you encounter errors run again with `--stacktrace` for more instructions on missing dependencies.
### 4.4. Setup on OS X
If you don't have [Homebrew](http://brew.sh/), we recommend installing it. It makes package management for OS X easy.
##### Step 1. Install JDK
Install [Java 1.7](http://www.oracle.com/technetwork/java/javase/downloads/jdk7-downloads-1880260.html). To make sure the command prompt is detecting the correct Java version, run:
javac -version
##### Step 2. Install Node.js:
Using Homebrew:
brew install node
Otherwise, install from the [NodeJS website](http://nodejs.org/download/).
##### Step 3. Install R and the required packages:
Install [R](http://www.r-project.org/) and add the bin directory to your PATH if not already included.
<a name="InstallRPackagesInUnix"></a>
Install the following R packages:
- [RCurl](http://cran.r-project.org/package=RCurl)
- [jsonlite](http://cran.r-project.org/package=jsonlite)
- [statmod](http://cran.r-project.org/package=statmod)
- [devtools](http://cran.r-project.org/package=devtools)
- [roxygen2](http://cran.r-project.org/package=roxygen2)
- [testthat](http://cran.r-project.org/package=testthat).
cd Downloads
R CMD INSTALL bitops_x.x-x.tgz
R CMD INSTALL RCurl_x.xx-x.x.tgz
R CMD INSTALL jsonlite_x.x.xx.tgz
R CMD INSTALL statmod_x.x.xx.tgz
R CMD INSTALL Rcpp_x.xx.x.tgz
R CMD INSTALL digest_x.x.x.tgz
R CMD INSTALL testthat_x.x.x.tgz
R CMD INSTALL stringr_x.x.x.tgz
R CMD INSTALL roxygen2_x.x.x.tgz
R CMD INSTALL devtools_x.x.x.tgz
To install these packages from within an R session:
R> install.packages("RCurl")
R> install.packages("jsonlite")
R> install.packages("statmod")
R> install.packages(c("devtools", "roxygen2", "testthat"))
##### Step 4. Git Clone [h2o-3](https://github.com/h2oai/h2o-3.git)
OS X should already have Git installed. To download and update h2o-3 source codes:
git clone https://github.com/h2oai/h2o-3
##### Step 5. Run the top-level gradle build:
cd h2o-3
./gradlew build
> If you encounter errors run again with `--stacktrace` for more instructions on missing dependencies.
### 4.5. Setup on Ubuntu 14.04
##### Step 1. Install Node.js, npm, and bower:
sudo apt-get install npm
sudo ln -s /usr/bin/nodejs /usr/bin/node
npm install -g bower
##### Step 2. Install JDK:
Install [Java 1.7](http://www.oracle.com/technetwork/java/javase/downloads/jdk7-downloads-1880260.html). Installation instructions can be found here [JDK installation](http://askubuntu.com/questions/56104/how-can-i-install-sun-oracles-proprietary-java-jdk-6-7-8-or-jre). To make sure the command prompt is detecting the correct Java version, run:
javac -version
##### Step 3. Install R and the required packages:
Installation instructions can be found here [R installation](http://cran.r-project.org). Click “Download R for Linux”. Click “ubuntu”. Follow the given instructions.
To install the required packages, follow the [same instructions as for OS X above](#InstallRPackagesInUnix).
##### Step 4. Git Clone [h2o-3](https://github.com/h2oai/h2o-3.git)
If you don't already have a Git client:
sudo apt-get install git
Download and update h2o-3 source codes:
git clone https://github.com/h2oai/h2o-3
##### Step 5. Run the top-level gradle build:
cd h2o-3
./gradlew build
> If you encounter errors, run again using `--stacktrace` for more instructions on missing dependencies.
> Make sure that you are not running as root, since `bower` will reject such a run.
### 4.6. Setup on Ubuntu 13.10
##### Step 1. Install Node.js, npm, and bower
On Ubuntu 13.10, the default Node.js (v0.10.15) is sufficient, but the default npm (v1.2.18) is too old, so use a fresh install from the npm website:
sudo apt-get install node
sudo ln -s /usr/bin/nodejs /usr/bin/node
wget http://npmjs.org/install.sh
sudo apt-get install curl
sudo sh install.sh
##### Steps 2-4. Follow steps 2-4 for Ubuntu 14.04
### 4.7. Setting up your preferred IDE environment
For users of Intellij's IDEA, generate project files with:
./gradlew idea
For users of Eclipse, generate project files with:
./gradlew eclipse
<a name="Launching"></a>
## 5. Launching H2O after Building
java -jar build/h2o.jar
<a name="BuildingHadoop"></a>
## 6. Building H2O on Hadoop
Pre-built H2O-on-Hadoop zip files are available on the [download page](http://h2o.ai/download). Each Hadoop distribution version has a separate zip file in h2o-3.
To build H2O with Hadoop support yourself, first install sphinx for python: `pip install sphinx`
Then start the build by entering the following from the top-level h2o-3 directory:
(export BUILD_HADOOP=1; ./gradlew build -x test)
./gradlew dist
This will create a directory called 'target' and generate zip files there. Note that `BUILD_HADOOP` is the default behavior when the username is `jenkins` (refer to `settings.gradle`); otherwise you have to request it, as shown above.
### Adding support for a new version of Hadoop
In the `h2o-hadoop` directory, each Hadoop version has a build directory for the driver and an assembly directory for the fatjar.
You need to:
1. Add a new driver directory and assembly directory (each with a `build.gradle` file) in `h2o-hadoop`
2. Add these new projects to `h2o-3/settings.gradle`
3. Add the new Hadoop version to `HADOOP_VERSIONS` in `make-dist.sh`
4. Add the new Hadoop version to the list in `h2o-dist/buildinfo.json`
### Debugging HDFS
These are the required steps to debug HDFS in IDEA as a standalone H2O process.
Debugging H2O on Hadoop as a `hadoop jar` hadoop mapreduce job is a difficult thing to do. However, what you can do relatively easily is tweak the gradle settings for the project so that H2OApp has HDFS as a dependency. Here are the steps:
1. Make the following changes to gradle build files below
* Change the `hadoop-client` version in `h2o-persist-hdfs` to the desired version
* Add `h2o-persist-hdfs` as a dependency to `h2o-app`
1. Close IDEA
1. `./gradlew cleanIdea`
1. `./gradlew idea`
1. Re-open IDEA
1. Run or debug H2OApp, and you will now be able to read from HDFS inside the IDE debugger
`h2o-persist-hdfs` is normally only a dependency of the assembly modules, since those are not used by any downstream modules. We want the final module to define its own version of HDFS if any is desired.
Note this example is for MapR 4, which requires the additional `org.json` dependency to work properly.
$ git diff diff --git a/h2o-app/build.gradle b/h2o-app/build.gradle index af3b929..097af85 100644 --- a/h2o-app/build.gradle +++ b/h2o-app/build.gradle @@ -8,5 +8,6 @@ dependencies { compile project(":h2o-algos") compile project(":h2o-core") compile project(":h2o-genmodel")
- compile project(":h2o-persist-hdfs") }
diff --git a/h2o-persist-hdfs/build.gradle b/h2o-persist-hdfs/build.gradle index 41b96b2..6368ea9 100644 --- a/h2o-persist-hdfs/build.gradle +++ b/h2o-persist-hdfs/build.gradle @@ -2,5 +2,6 @@ description = "H2O Persist HDFS"
dependencies { compile project(":h2o-core")
- compile("org.apache.hadoop:hadoop-client:2.0.0-cdh4.3.0")
- compile("org.apache.hadoop:hadoop-client:2.4.1-mapr-1408")
- compile("org.json:org.json:chargebee-1.0") }
-----
<a name="Sparkling"></a>
## 7. Sparkling Water
Sparkling Water combines two open-source technologies: Apache Spark and H2O, our machine learning engine. It makes H2O’s library of Advanced Algorithms, including Deep Learning, GLM, GBM, K-Means, and Distributed Random Forest, accessible from Spark workflows. Spark users can select the best features from either platform to meet their Machine Learning needs. Users can combine Spark's RDD API and Spark MLLib with H2O’s machine learning algorithms, or use H2O independently of Spark for the model building process and post-process the results in Spark.
**Sparkling Water Resources**:
* [Download page for pre-built packages](http://h2o.ai/download/) (Scroll down for Sparkling Water)
* [Sparkling Water GitHub repository](https://github.com/h2oai/sparkling-water)
* [README](https://github.com/h2oai/sparkling-water/blob/master/README.md)
* [Developer documentation](https://github.com/h2oai/sparkling-water/blob/master/DEVEL.md)
<a name="Documentation"></a>
## 8. Documentation
### Generate REST API documentation
To generate the REST API documentation, use the following commands:
cd ~/h2o-3
cd py
python ./generate_rest_api_docs.py # to generate Markdown only
python ./generate_rest_api_docs.py --generate_html --github_user GITHUB_USER --github_password GITHUB_PASSWORD # to generate Markdown and HTML
The default location for the generated documentation is `build/docs/REST`.
If the build fails, try `gradlew clean`, then `git clean -f`.
### Bleeding edge build documentation
Documentation for each bleeding edge nightly build is available on the [nightly build page](http://s3.amazonaws.com/h2o-release/h2o-3/master/latest.html).
-----
<a name="Community"></a>
## 9. Community
We will breathe & sustain a vibrant community with the focus of taking a software engineering approach to data science and empowering everyone interested in data to be able to hack data using math and algorithms.
Join us on google groups at [h2ostream](https://groups.google.com/forum/#!forum/h2ostream) and feel free to file issues directly on our [JIRA](http://jira.h2o.ai).
Team & Committers
SriSatish Ambati Cliff Click Tom Kraljevic Tomas Nykodym Michal Malohlava Kevin Normoyle Spencer Aiello Anqi Fu Nidhi Mehta Arno Candel Josephine Wang Amy Wang Max Schloemer Ray Peck Prithvi Prabhu Brandon Hill Jeff Gambera Ariel Rao Viraj Parmar Kendall Harris Anand Avati Jessica Lanford Alex Tellez Allison Washburn Amy Wang Erik Eckstrand Neeraja Madabhushi Sebastian Vidrio Ben Sabrin Matt Dowle Mark Landry Erin LeDell Oleg Rogynskyy Nick Martin Nancy Jordan Nishant Kalonia Nadine Hussami Jeff Cramer Stacie Spreitzer Vinod Iyengar Charlene Windom Parag Sanghavi
<a name="Advisors"></a>
## Advisors
Scientific Advisory Council
Stephen Boyd Rob Tibshirani Trevor Hastie
Systems, Data, FileSystems and Hadoop
Doug Lea Chris Pouliot Dhruba Borthakur
<a name="Investors"></a>
## Investors
Jishnu Bhattacharjee, Nexus Venture Partners Anand Babu Periasamy Anand Rajaraman Ash Bhardwaj Rakesh Mathur Michael Marks Egbert Bierman Rajesh Ambati