Thanks. I did not expect these icons to be links. It would be nice to have an explicit link at the end of the README, too.
Uwe On Sunday, August 14, 2016 at 1:12:19 AM UTC+2, Kristoffer Carlsson wrote: > > It is linked right at the top in the README? > > On Saturday, August 13, 2016 at 11:40:24 PM UTC+2, Uwe Fechner wrote: >> >> Hello, >> in the README it says, "for more information, see the documentation". >> Is the documentation online available? I cannot find it. >> >> Uwe >> >> On Saturday, August 13, 2016 at 10:07:57 PM UTC+2, Patrick Kofod Mogensen >> wrote: >>> >>> We are happy to announce that Optim v0.6 has been released. >>> >>> Since v0.5, we've seen some great additions and changes to the package. >>> Much >>> of this has happened with the help of new and old contributors, and >>> therefore >>> this version tag should really be dedicated to them. We've had nine >>> contributors >>> in this minor tag (@pkofod, @ranjanan, @ahwillia, @bjarthur, @Ace139, >>> @rgiordan, >>> @abieler, @matthieugomez, and @amroamroamro). This brings us up to 36 >>> contributors >>> in total (I'm not counting you @gitter-badger!), and 15 this year alone. >>> It is >>> great to see so many volunteering their time for this open source >>> project. >>> >>> In this version we have the following changes >>> * Added NEWS.md >>> * Added proper documentation using Documenter.jl >>> * Changed old solver: Nelder-Mead w/ Adaptive parameters (breaking) >>> * Julia v0.5 deprecation fixes >>> * Added solver: NewtonTrustRegion >>> * Added solver: ParticleSwarm >>> * Added box constraints to Levenberg Marquardt >>> * Changed Automatic Differentiation to ForwardDiff >>> * Various bug fixes >>> >>> Worth noting here is that we have some changes to the Nelder-Mead API. >>> It is >>> documented in the new documentation. >>> >>> We also have two new solvers: the NewtonTrustRegion solver, and the >>> ParticleSwarm >>> solver. A lot of focus and effort has gone into first order solvers, so >>> it's interesting >>> to see both a new zeroth and second order solver in Optim. >>> >>> Box contrains in Levenberg-Marquardt was added, and we switched to >>> ForwardDiff for >>> automatic differentiation, such that you can now obtain Hessians for the >>> two Newton >>> solvers. >>> >>> There's plenty of work in the pipeline, so stay tuned for more Optim >>> improvements >>> in the future. We are looking into code refactoring to easy use of the >>> code in more >>> flexible ways, better benchmarking, better testing, and more. >>> >>> As always, please report bugs or feature requests to the issue tracker >>> (https://github.com/JuliaOpt/Optim.jl/issues), and join the chat at >>> gitter >>> (https://gitter.im/JuliaOpt/Optim.jl). >>> >>> Optim.jl / JuliaOpt >>> >>>
