diff --git a/docs.it4i/barbora/introduction.md b/docs.it4i/barbora/introduction.md
index fd300804fc3f256ada81fe415f4b3805dd884943..d03deead03182c5010dec47bf3a8aa12ab642658 100644
--- a/docs.it4i/barbora/introduction.md
+++ b/docs.it4i/barbora/introduction.md
@@ -1,12 +1,12 @@
 # Introduction
 
-Welcome to Barbora supercomputer cluster. The Barbora cluster consists of 201 compute nodes, totaling 7232 compute cores with 44544 GB RAM, giving over 848 TFLOP/s theoretical peak performance.
+Welcome to Barbora supercomputer cluster. The Barbora cluster consists of 201 compute nodes, totaling 7232 compute cores with 44544GB RAM, giving over 848TFLOP/s theoretical peak performance.
 
-Nodes are interconnected through a fully non-blocking fat-tree InfiniBand network, and are equipped with Intel Cascade Lake processors. A few nodes are also equipped with NVIDIA Tesla V100-SXM2 Read more in [Hardware Overview][1].
+Nodes are interconnected through a fully non-blocking fat-tree InfiniBand network, and are equipped with Intel Cascade Lake processors. A few nodes are also equipped with NVIDIA Tesla V100-SXM2. Read more in [Hardware Overview][1].
 
 The cluster runs with an operating system compatible with the Red Hat [Linux family][a]. We have installed a wide range of software packages targeted at different scientific domains. These packages are accessible via the [modules environment][2].
 
-The user data shared file-system and job data shared file-system are available to users.
+The user data shared file system and job data shared file system are available to users.
 
 The [PBS Professional Open Source Project][b] workload manager provides [computing resources allocations and job execution][3].