SrRuO₃, a 4d ferromagnetic metal with the perovskite structure, provides a promising opportunity to seek the existence of Weyl fermions in magnetic materials. We observed direct quantum transport evidence of Weyl fermions on a ultra-high quality SrRuO₃ thin films grown by machine-leanirng assisted molecular beam epitaxy: (i) unsaturated linear positive magnetoresistance (MR), (ii) chiral-anomaly-induced negative MR, (iii) π Berry phase accumulated along cyclotron orbits, (iv) light cyclotron masses, and (v) high quantum mobility of about 10000 cm²/Vs. Also, our first principles calculations found the Weyl nodes near the Fermi level which can reproduce our experimental results well. Therefore, our experimental data and calculations establish SrRuO₃ as a magnetic Weyl semimetal.