Industry-Leading Reverse Engineering

From Physical Device to System-level Insight

TechInsights provides industry-leading reverse engineering services for semiconductor and electronic systems, delivering detailed technical analysis from physical device teardown to system-level architecture.

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Process Reverse Engineering

TechInsights perform step-by-step process flow reconstruction based on physical device analysis — revealing the sequence of lithography, deposition, etching, and integration steps used in wafer fabrication and advanced packaging. This insight enables you to understand manufacturing strategies at a fundamental level.

Decode the Process. Discover the Strategy.

Circuit Extraction

Our experts extract die-level circuit layouts, functional blocks, transistor structures, and interconnect architectures from devices using state-of-the-art imaging, SEM/TEM analysis, and schematic reconstruction tools. This capability powers deep circuit visibility for design optimization and competitive intelligence.

Circuit Insight That Drives Competitive Edge.

System Reverse Engineering

Take advantage of full system-level deconstruction including SoC floorplan analysis, functional block organization, and architectural innovation assessment. We uncover how subsystems interact, how data flows, and where key performance differentiation originates.

Architecture Exposed. Advantage Explained.

Performance Testing and Characterization

TechInsights goes beyond structural analysis — we conduct performance testing, reliability assessment, and operational analysis under varied conditions to evaluate how real devices function in practice, providing actionable performance intelligence.

Performance Proven. Not Assumed.

Advanced Teardowns & Materials Analysis

From semiconductor chip teardowns to advanced packaging and MEMS, our multidisciplinary teams reveal design strategies, material use, and architectural choices across a broad array of technologies.

Deconstructing Innovation, Layer by Layer.

Unlock Deep Technology Insight with Reverse Engineering

Get unparalleled visibility into semiconductor processes, circuits, and system architectures. TechInsights’ reverse engineering services help you benchmark competitors, accelerate R&D, and strengthen IP strategy with confidence.

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Why Leading Organizations Trust TechInsights Reverse Engineering

TechInsights delivers unmatched technical visibility into today’s most advanced semiconductor and system designs. Using industry-leading tools and deep domain expertise, we expose hidden innovation across logic, memory, RF, power, sensor and High Performance Computing (HPC) technologies—transforming complex silicon and systems into clear, actionable intelligence.

Our reverse engineering extends beyond inspection. High-fidelity visual and schematic analysis fuels competitive benchmarking, market intelligence, and patent workflows—supporting confident roadmap, investment, and product decisions. From evidence-of-use to infringement evaluation, TechInsights provides trusted technical proof when accuracy matters most.

Unmatched Technical Visibility

Expose hidden innovation at every layer—from device physics to system architecture.

Competitive Benchmarking & Market Intelligence

Compare designs, track technology trends, and inform strategic decisions with confidence.

Patent & IP Evidence Support

High-fidelity imagery and schematics to support validity, infringement, and EoU strategies.

Drive Innovation & Reduce Risk

Turn deep technical insight into faster R&D, smarter design choices, and stronger IP positions.

High Performance Computing Benchmarking

Independent lab validation of HPC systems at the server node and accelerator card-level, delivering vendor-neutral performance, power, thermal, and energy-to-solution insights beyond vendor telemetry for competitive benchmarking and procurement decisions.

Frequently Asked Questions

What is semiconductor reverse engineering?

Semiconductor reverse engineering is the process of analyzing an integrated circuit (IC) to uncover its design, architecture, manufacturing process, and circuit functionality. This can include chip teardown, delayering, imaging, layout analysis, and circuit extraction to understand how a device was built and how it operates.

Most semiconductor devices can be reverse engineered, including logic ICs, memory (DRAM, NAND), SoCs, RF components, power devices, image sensors, and advanced packaging technologies such as 2.5D and 3D ICs. Analysis depth ranges from package-level teardown to transistor-level circuit extraction.

Reverse engineering reveals competitor process nodes, design techniques, architecture decisions, material stacks, and performance optimizations. These insights help engineering and product teams benchmark performance, reduce design risk, and identify cost or technology gaps.

Circuit extraction reconstructs the electrical schematic from a semiconductor layout. It enables detailed functional analysis, patent validation, and verification of design implementation. Circuit extraction is often critical in IP litigation and patent licensing cases.

Getting started is easy! Registering for the TechInsights Platform is free and simple—just enter your corporate email to create an account. Once registered, you can search analysis or contact us through the platform or reach out directly to schedule a consultation.

Reverse engineering is used by semiconductor companies, fabless design houses, foundries, automotive suppliers, consumer electronics OEMs, IP firms, litigation teams, and strategic investors.

Yes. Through structural analysis, layer measurements, and materials characterization, reverse engineering can determine process node details, transistor architecture (e.g., FinFET, GAA), and fabrication techniques used by the foundry.

Reverse engineering provides technical evidence of use (EoU) by mapping patent claims to specific structures or circuits inside a chip. This supports IP litigation, licensing negotiations, and portfolio valuation.

Deliverables may include high-resolution microscopy images, block diagrams, extracted schematics, bill of materials (BOM), process cross-sections, functional analysis reports, and benchmarking comparisons — all structured for engineering or legal use.

Project timelines depend on complexity and depth of analysis. High-level chip teardown may take weeks, while full circuit extraction and transistor-level analysis can take several months.

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