Damghan University Press Journal of Holography Applications in Physics 2783-4778 6 4 2026 05 30 Thermodynamics of Noncommutative Geometry Inspired Regular Black Holes Coupled with Nonlinear Electrodynamics 28 39 2081 10.22128/jhap.2025.3151.1165 EN Indra Sen Ram Department of Physics, Dyal singh College, University of Delhi, New Delhi 110003, India Nitin Kumar Department of Physics, Rajdhani College, University of Delhi, New Delhi 110015, India Manish Pandey Department of Civil Engineering, Faculty of Engineering, Marwadi University, Rajkot, Gujrat 360003, India Journal Article 2025 11 16 In this paper, we introduce an exact solution for a Hayward black hole (BH) by incorporating anisotropic perfect fluid influenced by nonlinear electrodynamics and non commutative geometry. The solution obtained resembles de Sitter spacetime at a small value of $r$ ($r\to 0$) and at a large distance ($r\to \infty$) resembles the regular Schwarzschild geometry . In the absence of non commutative geometry the solution obtained interpolates with the Hayward BH and as non commutative geometry inspired BH in the absence of magnetic monopole charge. Non commutative geometry modifies thermodynamic properties of the BH. The calculation of Hawking temperature and its graphical analysis indicate that the temperature reaches its peak at the point of heat capacity divergence. https://jhap.du.ac.ir/article_2081_66ab62d54e607aa6aa057127c8775cb1.pdf