Primary audience: Economists, policy modellers, complexity scientists, agent-based modellers


The Thermodynamics of Economic Choice

Portfolio G applies the Gibbs ensemble of statistical mechanics to economics and complex adaptive systems. The central identification is deceptively simple: rationality is temperature. The inverse temperature parameter $\beta$ controls the sharpness of agent decision-making, interpolating continuously between maximum-entropy exploration ($\beta = 0$, uniformly random behaviour) and fully rational Nash equilibrium ($\beta \to \infty$, deterministic best response).

This is not a metaphor borrowed from physics. McFadden (1974) derived the Gibbs distribution from economic utility maximisation under Gumbel noise. Sims (2003) rederived it from optimal choice under a Shannon entropy budget (rational inattention). The Gibbs ensemble is the natural object that both lines of work were converging toward. The ASA’s contribution is to recognise the Gibbs partition function $Z_\beta = \beta^{-1}\ln\sum_i e^{\beta U_i}$ as the same primitive that governs tropical optimisation, knowledge routing, and gradient dynamics — a thermodynamic information routing universal.

What this buys the economist:

  • The representative agent of standard DSGE is the degenerate $\beta \to \infty$ limit of the Gibbs ensemble. Policy shocks shift $\beta$ as well as equilibrium positions — a thermodynamic restatement of the Lucas critique.
  • Arrow’s Impossibility Theorem and the Condorcet paradox do not apply to the Gibbs ensemble: the output is a probability measure, not a preference ranking, and no pairwise tournament is held.
  • Mean-field theory gives the Brock-Durlauf (2001) social interactions model exactly. The social multiplier $1/(1 - J\beta)$ diverges at $\beta J = 1$: this is the Schelling segregation tipping point, the Keynesian beauty contest fragility threshold, and every ecological tipping point with a diffusive feedback mechanism, all in one formula.
  • Every discrete threshold rule in a standard ABM (if/else, majority vote, min/max) has a Gibbs-ensemble equivalent — a smooth Gibbs or SoftMin transition parametrised by $\beta$. The result is an end-to-end differentiable model calibratable by gradient descent (PyTorch/JAX).

The double cascade (Hurd 2013) is the running example of Paper 289: the 2008 financial crisis as a non-adiabatic quench — high-$\beta$ markets hit a discontinuous utility shock with insufficient entropy to find the new equilibrium. Central bank QE is entropy injection: temporarily reducing $\beta$ to help the system escape the metastable state. The solvency cascade operates in the standard semiring; the liquidity freeze operates in the tropical (min, +) semiring. The hybrid is SoftMin$_\beta$, the Gibbs ensemble acting on the two cascades simultaneously.

Companion papers complete the economics framework: Paper 291 grounds stock-flow consistency (SFC) in discrete gauge theory (double-entry accounting as Noether conservation); Paper 292 analyses policy intervention ordering via non-associative algebra (a CBAM before carbon tax has different outcomes than the reverse); Paper 293 applies thermal Shapley values to attribute systemic risk; Paper 294 unifies all five Gibbs-ensemble application domains into the Thermodynamic Information Routing (TIR) framework.


Papers

# Paper
289 The Temperature of Rationality: Maslov-Gibbs Ensemble as a Foundation for Heterogeneous-Agent Economics
291 The Topology of Conservation: Stock-Flow Consistency as Discrete Gauge Theory on the Pacioli Manifold
292 Beyond DAGs: Non-Associative Policy Algebra and the Curvature of Climate Intervention Sequences
293 Thermal Attribution: Differentiable Shapley Values, Latent Bottlenecks, and the Tropical Limit of Cooperative Game Theory
294 Thermodynamic Information Routing: A Unified Framework for Gibbs Aggregation Across Economics, Computation, and Knowledge Retrieval
295 Currency Bundles on the Pacioli Manifold: Foreign Exchange as Gauge Theory
296 Term Structure Bundles: Interest Rates as Temporal Connections on the Pacioli Manifold
300 Economic Gauge Theory: Stock-Flow Consistency, Thermodynamic Constraints, and Climate Risk on the Pacioli Manifold
301 A Primer on Economic Gauge Theory
305 Differentiable Agent-Based Macroeconomics: A Stock-Flow Consistent ABM with Automatic Differentiation
306 Pacioli Combinator Library: A Conservation-Enforcing DSL for Differentiable Financial Computation
311 The Climate Hazard Yield Surface: A Geometric Framework for the Economics of Climate Action
312 Stochastic Tipping Points and the Option Value of Early Climate Investment
313 Thermal Economics: Implicit Differentiation Through Fixed Points as a Unifying Schema
314 SoftLeontief: Differentiable Input-Output Analysis and Supply-Chain Reverse Stress Testing
315 Differentiable Nash Equilibria: QRE as Implicit Differentiation Through a Game-Theoretic Fixed Point
316 EconIAC: MONIAC for the 21st Century — Differentiable Macroeconomics via the Gibbs Ensemble

Key Glossary Terms

MGE · Tropical Limit · Auto-Annealing · Pacioli Manifold · TIR