diff --git a/anselm.csv b/anselm.csv
index 275508e0f3a231e0c55ec08144af3fd80c606a3f..21cb287c45a1b8e78e3f9c71887e0f758e48a5f9 100644
--- a/anselm.csv
+++ b/anselm.csv
@@ -52,20 +52,14 @@ icc/2015.3.187-GNU-4.9.3-2.25,1
 icc/2015.3.187-GNU-5.1.0-2.25,1
 icc/2016.1.150-GCC-4.9.3-2.25,1
 icc/2017.0.098-GCC-5.4.0-2.26,1
-icc/2017.1.132-GCC-5.4.0-2.26,1
 icc/2017.1.132-GCC-6.3.0-2.27,1
-icc/2017.2.174-GCC-6.3.0-2.27,1
 icc/2017.4.196-GCC-6.4.0-2.28,1
-icc/2017.4.196-GCC-7.1.0-2.28,1
 ifort/2015.3.187-GNU-4.9.3-2.25,1
 ifort/2015.3.187-GNU-5.1.0-2.25,1
 ifort/2016.1.150-GCC-4.9.3-2.25,1
 ifort/2017.0.098-GCC-5.4.0-2.26,1
-ifort/2017.1.132-GCC-5.4.0-2.26,1
 ifort/2017.1.132-GCC-6.3.0-2.27,1
-ifort/2017.2.174-GCC-6.3.0-2.27,1
 ifort/2017.4.196-GCC-6.4.0-2.28,1
-ifort/2017.4.196-GCC-7.1.0-2.28,1
 ispc/1.9.1,1
 java/1.7,1
 GDAL/1.9.2-foss-2015g,1
@@ -569,11 +563,8 @@ impi/5.0.3.048-iccifort-2015.3.187-GNU-5.1.0-2.25,1
 impi/5.0.3.048,1
 impi/5.1.2.150-iccifort-2016.1.150-GCC-4.9.3-2.25,1
 impi/2017.0.098-iccifort-2017.0.098-GCC-5.4.0-2.26,1
-impi/2017.1.132-iccifort-2017.1.132-GCC-5.4.0-2.26,1
 impi/2017.1.132-iccifort-2017.1.132-GCC-6.3.0-2.27,1
-impi/2017.2.174-iccifort-2017.2.174-GCC-6.3.0-2.27,1
 impi/2017.3.196-iccifort-2017.4.196-GCC-6.4.0-2.28,1
-impi/2017.3.196-iccifort-2017.4.196-GCC-7.1.0-2.28,1
 lam/7.1.4-icc,1
 mvapich2/1.9-gcc,1
 mvapich2/1.9-gcc46,1
@@ -627,10 +618,8 @@ imkl/11.3.1.150-iimpi-8.1.5-GCC-4.9.3-2.25,1
 imkl/11.3.1.150-iimpi-2016.01-GCC-4.9.3-2.25,1
 imkl/2017.0.098-iimpi-2017.00-GCC-5.4.0-2.26,1
 imkl/2017.1.132-iimpi-2017a,1
-imkl/2017.1.132-iimpi-2017.01-GCC-5.4.0-2.26,1
 imkl/2017.1.132-iompi-2017a,1
-imkl/2017.2.174-iimpi-2017.02-GCC-6.3.0-2.27,1
-imkl/2017.3.196-iimpi-2017.05-GCC-7.1.0-2.28,1
+imkl/2017.3.196-iimpi-2017b,1
 qrupdate/1.1.2-intel-2017a,1
 fastqc/0.11.2,1
 gatk/2.6-4,1
@@ -702,20 +691,14 @@ iccifort/2015.3.187-GNU-4.9.3-2.25,1
 iccifort/2015.3.187-GNU-5.1.0-2.25,1
 iccifort/2016.1.150-GCC-4.9.3-2.25,1
 iccifort/2017.0.098-GCC-5.4.0-2.26,1
-iccifort/2017.1.132-GCC-5.4.0-2.26,1
 iccifort/2017.1.132-GCC-6.3.0-2.27,1
-iccifort/2017.2.174-GCC-6.3.0-2.27,1
 iccifort/2017.4.196-GCC-6.4.0-2.28,1
-iccifort/2017.4.196-GCC-7.1.0-2.28,1
 iimpi/7.3.5-GNU-5.1.0-2.25,1
 iimpi/8.1.5-GCC-4.9.3-2.25,1
 iimpi/2016.01-GCC-4.9.3-2.25,1
 iimpi/2017a,1
 iimpi/2017b,1
 iimpi/2017.00-GCC-5.4.0-2.26,1
-iimpi/2017.01-GCC-5.4.0-2.26,1
-iimpi/2017.02-GCC-6.3.0-2.27,1
-iimpi/2017.05-GCC-7.1.0-2.28,1
 intel/13.5.192,1
 intel/14.0.1,1
 intel/15.2.164,1
@@ -724,10 +707,8 @@ intel/2015b,1
 intel/2016a,1
 intel/2016.01,1
 intel/2017a,1
+intel/2017b,1
 intel/2017.00,1
-intel/2017.01,1
-intel/2017.02,1
-intel/2017.05,1
 iomkl/2017a,1
 iompi/2017a,1
 ANSYS/14.5.x,1
diff --git a/anselm.md b/anselm.md
index 2f817dc7e90b6e419ecacc80b25521875f083cd2..15bca5116354d7f16a95528f36008efc8c597b5e 100644
--- a/anselm.md
+++ b/anselm.md
@@ -292,7 +292,7 @@
 | Module | Description |
 | ------ | ----------- |
 | bullxmpi |   |
-| impi |   |
+| [impi](http://software.intel.com/en-us/intel-mpi-library/) | The Intel(R) MPI Library for Linux* OS is a multi-fabric message passing library based on ANL MPICH2 and OSU MVAPICH2. The Intel MPI Library for Linux OS implements the Message Passing Interface, version 2 (MPI-2) specification. |
 | lam |   |
 | [MPICH](http://www.mpich.org/) | MPICH v3.x is an open source high-performance MPI 3.0 implementation. It does not support InfiniBand (use MVAPICH2 with InfiniBand devices). |
 | mvapich2 |   |
@@ -311,7 +311,7 @@
 | cuDNN |   |
 | [FFTW](http://www.fftw.org) | FFTW is a C subroutine library for computing the discrete Fourier transform (DFT) in one or more dimensions, of arbitrary input size, and of both real and complex data. |
 | [GSL](http://www.gnu.org/software/gsl/) | The GNU Scientific Library (GSL) is a numerical library for C and C++ programmers. The library provides a wide range of mathematical routines such as random number generators, special functions and least-squares fitting. |
-| imkl |   |
+| [imkl](http://software.intel.com/en-us/intel-mkl/) | Intel Math Kernel Library is a library of highly optimized, extensively threaded math routines for science, engineering, and financial applications that require maximum performance. Core math functions include BLAS, LAPACK, ScaLAPACK, Sparse Solvers, Fast Fourier Transforms, Vector Math, and more. |
 | LIBLINEAR |   |
 | MPI-LIBLINEAR |   |
 | NLopt |   |