Sequential vs Parallel

This image illustrates a crucial difference in predictability between single-factor and multi-factor systems.

In the Sequential (Serial) model:

• Each step (A→B→C→D) proceeds independently without external influences.
• All causal relationships are clearly defined by “100% accurate rules.”
• Ideally, with no other associations, each step can perfectly predict the next.
• The result is deterministic (100%) with no uncertainty.
• However, such single-factor models only truly exist in human-made abstractions or simple numerical calculations.

In contrast, the Parallel model shows:

• Multiple factors (a, b, c, d) exist simultaneously and influence each other in complex ways.
• The system may not include all possible factors.
• “Not all conditions apply” – certain influences may not manifest in particular situations.
• “Difficult to make all influences into one rule” – complex interactions cannot be simplified into a single rule.
• Thus, the result becomes probabilistic, making precise predictions impossible.
• All phenomena in the real world closely resemble this parallel model.

In our actual world, purely single-factor systems rarely exist. Even seemingly simple phenomena consist of interactions between various elements. Weather, economics, ecosystems, human health, social phenomena – all real systems comprise numerous variables and their complex interrelationships. This is why real-world phenomena exhibit probabilistic characteristics, which is not merely due to our lack of knowledge but an inherent property of complex systems.

With Claude