Asemic Theories of War / EZE, 2026

War without End

Pyrrhic Victory

Winnerless War

Endless War

The Maintenance Department

Totalizing the Enemy 

The Enemy as an Undifferentiated Target

Just Testing the Equipment / Improving the Technology

Continuation / Discontinuation

Trojan Horse

Operation Paperclip

fare / EZE, 2026

 

xuxa / EZE, 2026

 

Asemic Theory ~ Rhizomatic Stochastics / EZE, 2026

From Microsoft Copilot:

Rhizomatic stochastics isn’t an established term in mathematics or philosophy, but its two components — rhizomatic and stochastics — each have rich conceptual histories. When combined, they gesture toward a way of thinking about randomness that is decentralized, non‑hierarchical, and multiply connected.

🌱 Rhizomatic Foundations

The word rhizomatic comes from the philosophical work of Gilles Deleuze and Félix Guattari, who use the rhizome as a metaphor for systems without a central root, hierarchy, or linear structure. A rhizome “connects any point to any other point” and can be entered from any direction. It emphasizes heterogeneity, multiplicity, and continual transformation.

Key features of rhizomatic structures include:

• Non-hierarchical organization — no privileged starting point or governing center.

• Multiple, shifting connections — elements link in many directions.

• Decentralized growth — expansion occurs unpredictably, like roots spreading underground.

• Open-endedness — no fixed boundaries or final form.

These ideas have influenced learning theory, media theory, and literary analysis.

🎲 Stochastics

Stochastics refers to systems governed by randomness, probability, or uncertainty. In mathematics, stochastic processes model phenomena that evolve unpredictably over time — Brownian motion, Markov chains, random walks, and so on.

🔗 Putting them together: What “rhizomatic stochastics” would mean

Although not a standard term, rhizomatic stochastics naturally suggests a conceptual framework where random processes evolve in a rhizome-like manner:

• Nonlinear randomness — instead of a single probabilistic path, many branching, reconnecting, and diverging trajectories.

• Distributed causality — no central driver of the stochastic behavior; influences arise from many directions.

• Emergent structure — patterns form from local interactions rather than global rules.

• Open systems — new nodes, variables, or influences can enter at any time.

This could describe:

• Complex adaptive systems (ecologies, markets, neural networks)

• Non-hierarchical information flows (social networks, hypertext)

• Learning processes that evolve unpredictably and nonlinearly

• Mathematical models where randomness interacts with decentralized topology

In short, it frames stochastic behavior not as a tree of branching probabilities but as a network of probabilistic flows, more like a web than a path.

📚 Why the term feels intuitive

Deleuze and Guattari’s rhizome already challenges linear, deterministic models of knowledge and meaning. Stochastic processes challenge deterministic models of physical or mathematical evolution. Combining them highlights randomness in systems that are already non-hierarchical and multiply connected, a natural pairing for modeling contemporary complex phenomena.

From Google AI:

Rhizomatic stochastics refers to the intersection of non-hierarchical network structures (rhizomes) and probabilistic, random processes (stochastics). While not a single codified discipline, it is an emerging conceptual framework used in philosophy, biology, and digital theory to describe systems that grow and evolve through random, unpredictable connections. Nature +4Core Concepts

• Rhizome (Philosophy): A concept developed by Gilles Deleuze and Félix Guattari representing a centerless network where any point can connect to any other. It contrasts with "arborescent" (tree-like) structures that have a single trunk or origin.

• Stochastics (Mathematics): Systems governed by random probability. In a rhizomatic context, this means the growth and "lines of flight" (breakaway points) of the network are not predetermined but occur through chance and environmental flux. 

Reddit +5Key Applications

• Biological Quasispecies: Recent studies in virology use a rhizomatic vision to explain how viral populations evolve through lethal mutagenesis—a stochastic process where random mutations are used as a "solvent" to weaken the virus's structural connections.

• Digital Networks & AI: The internet and large language models are often described as rhizomatic. The way information moves between nodes is frequently a stochastic process, where "stochastic machines" (like AI) generate unexpected but meaningful connections across a distributed network.

• Social Dynamics & "Stochastic Violence": Some theorists use the term to describe how decentralized, rhizomatic networks (like social media swarms) can trigger "spontaneous but predictable" eruptions of violence through the seeding of hatred, without a central command hierarchy.

• Rhizomatic Learning: A pedagogical approach where the "community is the curriculum". It embraces uncertainty and prepares learners for stochastic environments where they must navigate and create knowledge through social interactions rather than pre-set modules. 

YouTube +6