The Organizational Intelligence Platform

Diagnose structural health. Build a digital twin of how work actually flows. Generate optimized organizational designs with AI. Simulate risk before you commit resources.

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The Digital Twin

See Your Organization as It Actually Operates

Traditional org charts show reporting lines: who reports to whom. They tell you nothing about how work actually flows, where dependencies cluster, or which handoffs create bottlenecks.

Reconfig builds a mathematical model of your organization from structured survey data. The result is a digital twin that captures the real information flow, task dependencies, and coordination patterns that determine whether your structure helps or hinders execution.

With this model, you can test structural changes computationally before disrupting your people, your projects, or your performance.

Org Chart (Static)

Reports hierarchy, titles, departments. Tells you where people sit, not how they work.

Digital Twin (Dynamic)

Information flow, task dependencies, coordination loads, bottleneck risk, rework probability. A living model you can simulate.

Optimized Design (Prescriptive)

AI-generated structural alternatives that minimize coordination cost, reduce rework, and align teams to strategy.

Four Modules

A Complete System for Organizational Design

Diagnose

A structured assessment across 10 organizational dimensions, from decision-making clarity to cross-functional coordination. Lightweight 5–10 minute surveys replace months of consultant interviews.

Radar charts reveal structural strengths and gaps at a glance

Benchmark against industry and organizational maturity norms

Track health over time to measure transformation impact

Define

Document the foundational architecture of the organization: purpose, mission, accountabilities, and functional decomposition. This creates the structural grammar that the digital twin is built on.

Map accountability boundaries across business units and functions

Decompose functions into discrete tasks and deliverables

Align purpose and mission to structural design choices

Discover

Build the digital twin through structured survey data. Map task dependencies, information flows, and coordination patterns to reveal the real operating model beneath the org chart.

Visualize bottlenecks and hidden dependency clusters

Identify rework loops and coordination overload points

Generate Design Structure Matrices (DSMs) for quantitative analysis

Design

The AI optimization engine evaluates thousands of structural configurations using evolutionary algorithms, then generates alternative designs ranked by coordination cost, risk exposure, and strategic alignment.

Compare scenarios side-by-side with quantified trade-offs

Constraint-aware optimization respects real-world boundaries

Data-backed recommendations replace intuition-driven redesign

SimVision Engine

Predict Organizational Risk Before It Materializes

SimVision is an agent-based simulation engine developed from research at Stanford University. It models how real humans behave within organizational structures: how they prioritize, communicate, make errors, and adapt under pressure.

Rather than assuming people follow process perfectly, SimVision captures the messy reality of how work gets done: task backlogs, rework cascades, communication breakdowns, and decision bottlenecks. The result is a forward-looking risk model that predicts schedule overruns and cost blowouts before they happen.

This is not project management software. It is a computational laboratory for testing organizational designs under realistic operating conditions.

7.5%

CapEx Reduction

$20B LNG mega-project. SimVision identified coordination failures that traditional risk models missed, saving hundreds of millions in projected rework costs.

12 mo

Schedule Reduction

NASA Ares I-X launch vehicle program. Simulation-driven restructuring eliminated critical-path bottlenecks and reduced projected schedule by a full year.

90%

Prediction Accuracy

FPSO marine engineering project. SimVision predictions matched actual schedule and cost outcomes with 90% accuracy, validated against real project data.

Interactive Experience

Experience Organizational Design Firsthand

The Reconfig Challenge is an interactive simulation that puts you in the role of an organizational designer. Restructure a team, observe the consequences, and see why structure is the hidden variable in performance.

Open in full screen →

Proven Foundations

Built on Research. Validated in Practice.

DSM Methodology

Design Structure Matrix: the mathematical framework for modeling task dependencies and information flow in complex systems. Proven across aerospace, energy, and automotive.

Evolutionary Algorithms

Bio-inspired optimization that evaluates thousands of structural configurations to find designs that minimize coordination cost and cross-unit friction.

Prof. Ali Yassine

Scientific advisor and pioneer in computational organizational design. Leading researcher in DSM-based optimization with 20+ years of published work in the field.

ODC-Accenture Prize

Recognized for innovation in organizational design and change. Awarded for demonstrating measurable impact through computational approaches to structure optimization.

See It in Action

A 30-minute demo walks through the full platform, from diagnosis to digital twin to optimized design. See how your organization could operate with structure engineered for performance.

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