White Paper
The Evidence Behind PCB Design's 10x Efficiency Leap
This white paper examines how leading R&D teams are achieving order-of-magnitude improvements in PCB design throughput through physics-based automation. Drawing from real production data, comparative benchmarks, and engineering workflows across multiple industries, it reveals the measurable impact when layout moves off the critical path. Readers will understand the specific metrics that define modern design efficiency and how physics-driven approaches consistently outperform traditional methodologies—not through incremental gains, but through fundamental workflow transformation.
Key Takeaways
- Discover the three critical metrics that predict PCB project success—and why iteration velocity matters more than first-pass perfection
- Learn how teams achieve 24/7 design throughput without adding headcount, through comparative analysis of automated versus manual workflows
- Understand the physics constraints that separate viable automation from failed attempts, backed by production data from complex designs
- Evaluate ROI models from teams reporting 80% reduction in layout bottlenecks and 5x faster prototype cycles
- See validated performance benchmarks comparing traditional autorouters, AI copilots, and physics-based automation across DDR4, high-speed differential, and power delivery designs
The Evidence Behind PCB Design's 10x Efficiency Leap
