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README
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Availability
You can checkout the code from GitHub: [email protected]:ratschlab/MiTie.git
The the code is now written in C++ with shell script wrappers. We convert the transcript
prediction task into a general mixed integer optimization problem and use third party solvers
for this. We currently support CPLEX and glpk. Due to the significantly better runtime we
recommend using CPLEX if you have many samples or many complex splice structures. This is
a proprietary software, but free academic licenses can be obtained.
Setup
Installation:
change into the src directory and type
./configure -glpk-dir=<path_to_glpk>
or
./configure -cplex-dir=<path_to_cplex>
and then
make
mitie_example.sh demonstrates two strategies (with and without a genome annotation) to
run MiTie on a tiny toy data set.
Parallelization:
MiTie stores splice graphs in an HDF5 file. You can run the transcript_prediction for
each graph in that file in parallel.
Support:
We are happy to hear about your suggestions to improve the software. If you encounter
any difficulties please let us know. We are also happy to implement additional features,
if they are of general interest.