Cordycepin, an analogue of adenosine, is first isolated and identified from Cordyceps militaris in 1950 to be regarded as a bioactive compound in inhibiting cancer cell growth. Although the biogenic analysis of cordycepin was reported to couple with the adenosine deaminase inhibitor, pentostatin, in Cordyceps militaris, the upstream precursor during developmental stages still remains unclear. Besides, it remains a puzzle in Ophiocordycipitaceae (including Ophiocordyceps sinensis and Ophiocordyceps formosana) due to their genetic discrepancy. In this study, 5 different development stages, including mycelia in solid and suspension as well as pre-matured and aged fruiting bodies of Cordyceps militaris have been harvested for transcriptomics and metabolomics analyses. We found that arginine-related pathways were activated whenever cordycepin increased. Besides, near infrared spectrum was proved to be able to enriched cordycepin production, and proceeded the transcriptomics as well, further confirmed the importance of arginine. Meanwhile, we searched the published protein sequences related to cordycepin against the draft genome of O.formosana and revealed only one scaffold with high identity compare to cns4 in C.militaris. We conducted DNA whole genome sequencing against Ophiocordyceps formosana by combining nanopore sequencing and illumina sequencing, to get a better quality of whole genome sequence as well. Together, this study conducted multi-omic analysis to illuminate the biogenesis of cordycepin in these entomopathogenic Ascomycete fungi, which provides the foundation for the further novel pharmacologically potential discovery and application.