FESADev/.codex/skills/fesa-formulation-spec/SKILL.md

name, description

name	description
fesa-formulation-spec	Use when drafting FESA FEM formulation specifications, strong or weak forms, shape functions, element equations, numerical integration, Jacobian rules, and output recovery contracts.

FESA Formulation Spec

Use this skill to turn approved requirements and research evidence into an implementable math-level FEM contract.

Inputs

Read these first:

• AGENTS.md
• docs/SOLVER_AGENT_DESIGN.md
• docs/formulations/README.md
• docs/requirements/<feature-id>.md
• docs/research/<feature-id>-research.md

Workflow

1. Confirm scope, assumptions, primary variables, DOFs, sign convention, units, and coordinate system.
2. Write the Strong Form and boundary conditions.
3. Write the Weak or Variational Form and natural boundary terms.
4. Define Discretization: interpolation, shape functions, partition of unity, Kronecker delta checks, and nodal layout.
5. Define Kinematics: strain-displacement relation, B matrix or kinematic operator, strain measure, and deformation assumptions.
6. Define Constitutive Contract without creating C++ APIs.
7. Define Element Equations: residual or internal force, external force, stiffness or tangent, mass or damping when applicable, and dimensions.
8. Define Mapping and Numerical Integration: reference coordinates, isoparametric mapping, Jacobian, derivative transform, determinant checks, Gauss points, and weights.
9. Define Output Recovery for displacement, reaction, element force, strain, stress, and nodal extrapolation.
10. List Numerical Risks and downstream tests.

Output Contract

Produce or revise docs/formulations/<feature-id>-formulation.md with:

• Scope and Assumptions
• Primary Variables and DOFs
• Strong Form
• Weak or Variational Form
• Discretization
• Kinematics
• Constitutive Contract
• Element Equations
• Mapping and Numerical Integration
• Output Recovery
• Algorithm Pseudocode
• Numerical Risks
• Open Issues and Downstream Handoff

Boundaries

• Do not implement C++ code.
• Do not design C++ APIs.
• Do not implement parsers.
• Do not run Abaqus, Nastran, or any reference solver.
• Do not generate reference HDF5 files or deterministic CSV views.
• Do not approve release readiness.

Quality Gate

• Strong form, weak form, discretization, kinematics, constitutive contract, and element equations are distinct.
• Shape functions include partition of unity and Kronecker delta checks when applicable.
• Jacobian, determinant validity, derivative transform, integration rule, and output location are explicit.
• Missing research or requirements become open issues, not assumptions.

Handoff

Send the formulation to Numerical Review Agent first. After review, pass implementation-relevant pseudocode and acceptance quantities to Implementation Planning Agent, I/O needs to I/O Definition Agent, and benchmarkable checks to Reference Model Agent.