The LiVX₂ system (X: O, S, Se) is an example of a Heisenberg antiferromagnet with the geometrical frustration existing on the triangular lattice of its vanadium layer. While LiV(O,S)₂ has been observed to host a VBS state at low temperature, indicated by a metal-to-insulator transition and trimerization of the vanadium lattice, LiVSe₂ was not found to exhibit such transition. With its strong electronic correlation, methods based on one-body theory, such as DFT, often failed to correctly describe its properties, as was found in our preliminary calculations. We employed a new approach based on Diffusion Monte Carlo, which is based on many-body wave function, thus expected to correct for this. We performed a static energetic comparison between the trimerization structures, in both unpolarized and collinear spin-polarized formalization, as well as charge density analysis in the frustrated vanadium layer, benchmarking both approach against experimental data.