conda-forge / packages

Package Name Access Summary Updated
gsl public GNU Scientific Library 2019-06-18
gap public GAP - Groups, Algorithms, Programming, a System for Computational Discrete Algebra 2019-06-18
gap-core public GAP - Groups, Algorithms, Programming, a System for Computational Discrete Algebra 2019-06-18
orange3-text public Orange3 add-on for analyzing textual data. 2019-06-18
maxima public Maxima is a system for the manipulation of symbolic and numerical expressions. 2019-06-18
pari public PARI/GP is a widely used computer algebra system designed for fast computations in number theory 2019-06-18
uproot public ROOT I/O in pure Python and Numpy. 2019-06-18
uproot-base public ROOT I/O in pure Python and Numpy. 2019-06-18
autodiff public Automatic differentiation in C++ couldn't be simpler. 2019-06-18
eclib public The eclib package includes mwrank (for 2-descent on elliptic curves over Q) and modular symbol code used to create the elliptic curve database. 2019-06-18
singular public Singular is a computer algebra system for polynomial computations, with special emphasis on commutative and non-commutative algebra, algebraic geometry, and singularity theory 2019-06-18
validate_email public No Summary 2019-06-18
pplpy public This Python package provides a wrapper to the C++ Parma Polyhedra Library (PPL). 2019-06-18
wikipedia public No Summary 2019-06-18
giac public Giac/Xcas is a free computer algebra system 2019-06-18
r-future.apply public Implementations of apply(), eapply(), lapply(), Map(), mapply(), replicate(), sapply(), tapply(), and vapply() that can be resolved using any future-supported backend, e.g. parallel on the local machine or distributed on a compute cluster. These future_*apply() functions come with the same pros and cons as the corresponding base-R *apply() functions but with the additional feature of being able to be processed via the future framework. 2019-06-18
r-future public The purpose of this package is to provide a lightweight and unified Future API for sequential and parallel processing of R expression via futures. The simplest way to evaluate an expression in parallel is to use `x %<-% { expression }` with `plan(multiprocess)`. This package implements sequential, multicore, multisession, and cluster futures. With these, R expressions can be evaluated on the local machine, in parallel a set of local machines, or distributed on a mix of local and remote machines. Extensions to this package implement additional backends for processing futures via compute cluster schedulers etc. Because of its unified API, there is no need to modify any code in order switch from sequential on the local machine to, say, distributed processing on a remote compute cluster. Another strength of this package is that global variables and functions are automatically identified and exported as needed, making it straightforward to tweak existing code to make use of futures. 2019-06-18
bilby public A user-friendly Bayesian inference library 2019-06-18
miniwdl public A static analysis toolkit for the Workflow Description Language 2019-06-18
wrapt public Module for decorators, wrappers and monkey patching 2019-06-18
jsonextended public Extending the python json package functionality 2019-06-18
qcengine public A wrapper for Quantum Chemistry engines that adheres to the MolSSI (molssi.org) QCSchema. 2019-06-18
mne public MNE python project for MEG and EEG data analysis. 2019-06-18
virtualenv public Virtual Python Environment builder 2019-06-18
xorg-libxt public No Summary 2019-06-18
mshr public mshr is the mesh generation component of FEniCS 2019-06-18
dionysus public Library for computing persistent homology 2019-06-18
deap public Distributed Evolutionary Algorithms in Python 2019-06-18
omniscidb-cpu public The OmniSci database 2019-06-17
awscli public Universal Command Line Environment for AWS. 2019-06-17
awkward-numba public Manipulate arrays of complex data structures as easily as Numpy. 2019-06-17
awkward public Manipulate arrays of complex data structures as easily as Numpy. 2019-06-17
boto3 public Amazon Web Services SDK for Python 2019-06-17
normaliz public Normaliz is an open source tool for computations in affine monoids, vector configurations, lattice polytopes, and rational cones. 2019-06-17
pynac public SageMath support library for symbolic computations 2019-06-17
botocore public Low-level, data-driven core of boto 3. 2019-06-17
r-rmarkdown public Convert R Markdown documents into a variety of formats. 2019-06-17
sqlalchemy public Database Abstraction Library. 2019-06-17
thrift-cpp public Compiler and C++ libraries and headers for the Apache Thrift RPC system 2019-06-17
r-proj4 public A simple interface to lat/long projection and datum transformation of the PROJ.4 cartographic projections library. It allows transformation of geographic coordinates from one projection and/or datum to another. 2019-06-17
sstp-client public SSTP (Microsofts Remote Access Solution for PPP over SSL) client 2019-06-17
pysot public Surrogate Optimization Toolbox 2019-06-17
voila public Rendering of live Jupyter notebooks with interactive widgets 2019-06-17
zocalo public Infrastructure components for automated data processing at Diamond Light Source 2019-06-17
tmux public A terminal multiplexer. 2019-06-17
libbrial public Brial - successor to PolyBoRi 2019-06-17
ncl public NCAR Command Language 2019-06-17
brial public Brial - successor to PolyBoRi 2019-06-17
plumpy public A python workflow library that supports multithreading, and RabbitMQ as a message broker for starting/stopping/monitoring tasks. 2019-06-17
xorg-libxrandr public The X.org Xrandr library 2019-06-17
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