Prerequisites for Fokker–Planck Equation

Direct prerequisites (4)

1. Stochastic Differential Equationslayer 3, tier 2
2. PDE Fundamentals for Machine Learninglayer 1, tier 2
3. Divergence, Curl, and Line Integralslayer 0A, tier 2
4. Feynman–Kac Formulalayer 3, tier 2

Reachable through the chain (27)

These topics are not directly cited as prerequisites but are reached transitively by following the chain upward. Working through the direct prerequisites pulls these in.

• Ito's Lemmalayer 3, tier 2
• Stochastic Calculus for MLlayer 3, tier 3
• Martingale Theorylayer 0B, tier 2
• Measure-Theoretic Probabilitylayer 0B, tier 1
• Cardinality and Countabilitylayer 0A, tier 2
• Sets, Functions, and Relationslayer 0A, tier 1
• Basic Logic and Proof Techniqueslayer 0A, tier 2
• Integration and Change of Variableslayer 0A, tier 2
• Kolmogorov Probability Axiomslayer 0A, tier 1
• Random Variableslayer 0A, tier 1
• Zermelo-Fraenkel Set Theorylayer 0A, tier 2
• Classical ODEs: Existence, Stability, and Numerical Methodslayer 1, tier 1
• Continuity in Rⁿlayer 0A, tier 1
• Metric Spaces, Convergence, and Completenesslayer 0A, tier 1
• The Jacobian Matrixlayer 0A, tier 1
• Differentiation in Rⁿlayer 0A, tier 1
• Vectors, Matrices, and Linear Mapslayer 0A, tier 1
• Fast Fourier Transformlayer 1, tier 2
• Exponential Function Propertieslayer 0A, tier 1
• Complex Numbers for Fourierlayer 0A, tier 2
• Eigenvalues and Eigenvectorslayer 0A, tier 1
• Matrix Operations and Propertieslayer 0A, tier 1
• Linear Independencelayer 0A, tier 1
• Inner Product Spaces and Orthogonalitylayer 0A, tier 1
• Matrix Normslayer 0A, tier 1
• Functional Analysis Corelayer 0B, tier 2
• Vector Calculus Chain Rulelayer 0A, tier 1