Delete CHANGELOG

CHANGELOG

-### 4.x GYACOMO
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->4.11 background ExB shear
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->4.1 Miller geometry benchmarked
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->4.01 Singular value decomposition is availale with LAPACK (used for DLRA experiments)
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->4.0 Gyacomo is born and the code is open-source with a GNU GPLv3 license
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-### 3.x HeLaZ 3D (flux tube s-alpha)
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->3.9 Perpendicular electromagnetic fluctuations by solving Ampere equations (benchmarked linearly)
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->3.8 Benchmarked for CBC against GENE for various gradients values (see Dimits_fig3.m)
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->3.7 The frequency plane has been transposed from positive kx to positive ky for easier implementation of shear. Also added 3D Z-pinch geometry
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->3.6 MPI 3D parallelization in p, kx and z and benchmarked for each parallel options with gbms (new molix) for linear fluxtube shearless.
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->3.5 Staggered grid for parallel odd/even coupling
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->3.4 Adiabatic electrons
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->3.3 Benchmarked in fluxtube s-alpha geometry linear run with molix (B.J.Frei) code and works now for shear = 0 with periodic z BC
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->3.2 Stopping file procedure like in GBS is added
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->3.1 Implementation of mirror force
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->3.0 3D version and works as the 2D version if Nz = 1, the coordinates were renamed from (r,z)  to (x,y,z). Now the parallel direction is ez.
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-### 2.x 2D Zpinch MPI parallel version
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->2.7 Versatile interpolation of kperp for the cosolver matrices and corrections done on DGGK
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->2.6 Change of collisionality normalisation (from nu_ei to nu_ii), implementation of FCGK
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->2.5 GK cosolver collision implementation
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->2.4 MPI 2D cartesian parallel (along p and kr)
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->2.3 GK Dougherty operator
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->2.2 Allow restart with different P,J values
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->2.1 First compilable parallel version (1D parallel along kr)
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-### 1.x Implementation of the non linear Poisson bracket term
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->1.4 Quantitative study with stationary average particle flux \Gamma_\infty
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->1.3 Linear analysis showed that a certain amount of PJ are recquired to trigger mode
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->1.2 Zonal flows are observed in a similar way to Ricci Rogers 2006 with GS2
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->1.1 Qualitative test : find similar turbulences as Hasegawa Wakatani system with few moments
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->1.1 Methods in fourier_mod.f90 have been validated by tests on Hasegawa Wakatani system
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->1.1 Methods in fourier_mod.f90 have been validated by tests on Hasegawa Wakatani system
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->1.0 FFTW3 has been used to treat the convolution as a product and discrete fourier transform
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-### 0.x Write MOLI matlab solver in Fortran using Monli1D as starting point
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->0.6 Benchmarks now include Dougherty, Lenard-Bernstein and Full Coulomb collision operators
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->0.5 Load COSOlver matrices
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->0.4 Benchmark with MOLI matlab results for Z-pinch (cf. kz_linear script)
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->0.3 RK4 time solver
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->0.2 implement moment hierarchy linear terms
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->0.1 implement linear Poisson equation in fourier space
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->0.0 go from 1D space to 2D fourier and from Hermite basis to Hermite-Laguerre basis