mod
ad
mod | ad | |
---|---|---|
- | 6 | |
24 | 364 | |
- | - | |
0.0 | 5.9 | |
about 1 year ago | 1 day ago | |
Haskell | Haskell | |
MIT License | BSD 3-clause "New" or "Revised" License |
Stars - the number of stars that a project has on GitHub. Growth - month over month growth in stars.
Activity is a relative number indicating how actively a project is being developed. Recent commits have higher weight than older ones.
For example, an activity of 9.0 indicates that a project is amongst the top 10% of the most actively developed projects that we are tracking.
mod
We haven't tracked posts mentioning mod yet.
Tracking mentions began in Dec 2020.
ad
-
Is there an implementation of The Simple Essence of Automatic Differentiation (2018)?
Maybe ad?
-
Backpropagation and Accelerate
I’ll also link the ad package here in case someone can speak to its value over backprop https://github.com/ekmett/ad
-
[ad] Haskell Revitalisation
Apologies in advance for disappointing a few people but the [ad] part in the title doesn't mean Automatic Differentiation but rather means "advertisement".
-
Let's Program a Calculus Student II: Turning Symbolic Differentiation Automatic
Hi everybody! A couple weeks ago, I made a blog post talking about how recursion and pattern matching could be used to translate Calculus formulas into Haskell. This is a follow-up exploring how to use automatic differentiation to calculate those same derivatives as an example of cool stuff that polymorphism allows us to do. (I learned this idea from the ad package and really fell in love with how elegant it is)
- Monthly Hask Anything (March 2022)
- What are some ways I could tickle my (beginner) haskell-brain with something *useful*?
What are some alternatives?
poly - Fast polynomial arithmetic in Haskell (dense and sparse, univariate and multivariate, usual and Laurent)
modular-arithmetic - A useful type for working with integers modulo some constant.
hgeometry - HGeometry is a library for computing with geometric objects in Haskell. It defines basic geometric types and primitives, and it implements some geometric data structures and algorithms. The main two focusses are: (1) Strong type safety, and (2) implementations of geometric algorithms and data structures that have good asymptotic running time guarantees.
roots - 1-dimensional root-finding algorithms in Haskell
computational-algebra - General-Purpose Computer Algebra System as an EDSL in Haskell
nimber - Finite nimber arithmetic
semigroups - Haskell 98 semigroups
moving-averages
hermit - Haskell Equational Reasoning Model-to-Implementation Tunnel
search - infinite search in finite time with Hilbert's epsilon
grid - Tools for working with regular grids/graphs/lattices.
gamma - Haskell implementation of gamma and incomplete gamma functions