This fork is a community version of the nupic.core C++ repository with Python bindings. Our aim is to provide an actively developed successor to the nupic.core and nupic repositories by Numenta, which are not actively developed anymore.
- actively developed C++ core library for HTM/nupic.core (Numenta's repos are in maintanance mode only)
- clean & lean, fast, modern codebase (dependency removal, c++11/17, modernized code, faster)
- API-compatibility with Numenta's code *)
- open and easier involvement of new ideas across HTM community (it's fun to contribute, we make master run stable, but are more open to experiments and larger revamps of the code if it proves useful), new features include:
- Anomaly Likelihood
- BacktrackingTM
- much faster Spatial pooler implementation (runs on Connections)
- stable and well tested code
- easier portability to new platforms (due to removal of custom code (ASM,..) and reliance of C++ standardized features)
- modularity through bindings to the core library
- ie. python bindings in bindings/py
This repository contains the C++ source code for the Numenta Platform for Intelligent Computing (NuPIC). It will eventually contain all algorithms for NuPIC, but is currently in a transition period.
*) Nupic API compatability: The objective is to stay as close as possible to the Nupic API Docs
with the aim that we don't break .py
code written against the numenta's nupic.core extension library if they were to be
ran against this extention library. If you are porting your code to this codebase, please review API Changelog.
Some of the major differences between this library and Numenta's extension library are the following:
- Support for Python 2.7 and Python 3.x (Only Python 3.x under windows)
- Support for Linux, OSx, and Windows MS Visual Studio 2017
- Support for C++11, C++17
- Replaced SWIG with PyBind11 for Python interface.
- Removed CapnProto serialization. It was prevasive and complicated the code considerably. It was replaced with simple binary streaming serialization in C++ library.
- Many code optimizations, modernization (Spatial Pooler shares optimized Connections backend with Temporal memory)
- Modular structure
- Interfaces & API stabilization, making it easier for developers & researchers to use our codebase
- Much easier installation (reduced dependencies, all are handeled by CMake)
- static and shared lib files for use with C++ applications.
- CMake
- Python
- Version 2.7 We recommend you use the latest 2.7 version where possible. But the system version should be fine. (The extension library for Python 2.7 not supported on Windows.)
- Version 3.4+ The Nupic Python repository will need to be upgraded as well before this will be useful. Be sure that your Python executable is in the Path environment variable. The Python that is in your default path is the one that will determine which version of Python the extension library will be built for.
- Python tools: In a command prompt execute the following.
cd to-repository-root
python -m pip install --user --upgrade pip setuptools setuptools-scm wheel
python -m pip install --no-cache-dir --user -r bindings/py/packaging/requirements.txt
Be sure you are running the right version of python. Check it with the following command:
python --version
Fork or download the HTM-Community Nupic.cpp repository from https://github.com/htm-community/nupic.cpp
The easiest way to build from source is as follows.
cd to-repository-root
python setup.py install --user --force
Note that --force
option will overwrite any existing files even if they are
the same version, which is useful when developing the library & bindings.
Note that --user
option will install the extension libaries in ~/.local so
that you don't need superuser permissions.
This will build everything including the nupic.cpp static library and Python extension libraries and then install them.
After that completes you are all set to run your .py programs which import the extensions:
- nupic.bindings.algorithms
- nupic.bindings.engine_internal
- nupic.bindings.math
The installation scripts will automatically download and build the dependancies it needs.
- Boost (Not needed by C++17 compilers that support the filesystem module)
- Yaml-cpp
- Eigen
- PyBind11
- gtest
- numpy
- pytest
After downloading the repository, do the following:
cd path-to-repository
mkdir -p build/scripts
cd build/scripts
cmake ../..
make install
This will build the Nupic.core library without the Python interface.
- build/Release/lib/libnupic-core.a static library
- build/Release/lib/libnupic-core.so shared library
- The headers will be in
build/Release/include
.
A debug library can be created by adding -DCMAKE_BUILD_TYPE=Debug
to the cmake command above. The -j3 could be used
with the make install
command to compile with multiple threads.
After downloading the repository, do the following:
- CD to top of repository.
- Double click startupMSVC.bat -- This will setup the build and create the solution file (.sln).
- Double click build/scripts/nupic.cpp.sln -- This starts up Visual Studio
- Select
Release
orDebug
as the Solution Configuration. Solution Platform must remain at x64. - Build everything. -- This will build the C++ library.
- In the solution explorer window, right Click on 'unit_tests' and select
Set as StartUp Project
so debugger will run unit tests. - If you also want the Python extension library; in a command prompt, cd to root of repository and run
python setup.py install --user --prefix=
.
There are two sets of unit tests.
- C++ Unit tests -- to run:
cd build/Release/bin; ./unit_tests
- Python Unit tests -- to run:
python setup.py test
- Choose the IDE that interest you (remember that IDE choice is limited to your OS).
- Open CMake executable in the IDE.
- Specify the source folder (
$NUPIC_CORE
) which is the location of the root CMakeList.exe. - Specify the build system folder (
$NUPIC_CORE/build/scripts
), i.e. where IDE solution will be created. - Click
Generate
.
- Double click startupMSVC.bat -- This will setup the build and create the solution file (.sln).
- Double click build/scripts/nupic.cpp.sln -- This starts up Visual Studio
- In the solution explorer window, right Click on 'unit_tests' and select
Set as StartUp Project
so debugger will run unit tests. - Start a debug session.
For all new work, tab settings are at 2 characters. The clang-format is LLVM style.