Matlab Online (MGO) have released a new series of data related to the history of the evolution of the LHC. Most of the analyses presented by the authors are from MGOs while most are also focused on the construction of the LHC tunnel [62]. The data used in this paper were extracted from data stored in MGOs and the CAST version of the LHC. The data analyses are based on new observations concerning the composition of the LHC tunnel at the MGO end (a.k.a. tunnel H2) and a subsequent detection of the LHC tunnel H4. These data analysis tools allow for the most reliable evaluation of the LHC tunnel’s chronology. Many of the analyses used on the LHC tunnel as discussed below, as well as analysis on the MGCN’s tunnel H5, provided some excellent support for this contention [9, 61, 92]. Furthermore, through the use of an extensive and useful database collection and data generation operations we were able to capture all the detailed data from all eight MGCN stations in Antarctica. Moreover, using MGO data as an aid for research, these analyses were also coupled with a data review period to provide for the inclusion of information regarding the tunnel construction. Finally, as MGO stations were not known to have been active during previous observations [62], we had to obtain information from other MGCN and BCT data and through the use of the information obtained from information from two unpublished MGOs, we can be certain that many of the material used to support these conclusions has been studied in detail by others. The formation of the LHC tunnel H2 The tunnel H2 is a massive, 3-level tunnel located at the edge of the Great Ice Tank (GICDM) and has an average depth of 7.5 cm and a circumference of about 1–2 km. This large tunnel is located at the edge of the GICDM due to many ice channels that form