IMG Edge

SoC design-consultancy, hosting and verification services.

Take the lead with IMG Edge

System-on-Chip (SoC)-based product development is a high-risk endeavour, demanding great expertise and multi-million-dollar investments. Reducing time-to-market (TTM) and total cost of ownership is essential to ensuring profitability and gaining an edge over the competition. 

While using third-party IP significantly reduces engineering time, costs and risk, performance and datapath analysis, design verification and validation remain highly complex and challenging parts of any SoC project. IMG Edge solves this challenge, enabling customers to save 10+ millions of dollars and months of project time.


Consultancy services to determine product viability

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Market-proven, unique, verification and validation methodologies

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Access to world-class data centre design engineering infrastructure

Get the IMG Edge advantage

IMG Edge provides access to consultancy services tailored to key market segments such as consumer, industrial, telecoms or automotive, while our platforms provide access to critical design engineering infrastructure. These consist of market-leading hardware acceleration systems, virtual and physical prototyping, performance and power analysis and simulation and formal verification, enabling the delivery of fully verified and validated systems more rapidly than ever before.

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Working together to win

IMG Edge will give you a shortcut to the proven, market-leading capabilities that have been relied on by many Tier 1 customers and innovative start-ups to create world-beating products.

It will let you take advantage of our 25+ years of experience in creating complex SoC designs, our time and cost-saving verification techniques and our investments in secure 24/7, world-class data centre facilities.

Our proven verification and validation methodologies are unique in the market by being able to verify complex control logic and math together in datapath-heavy designs even for complex 64-bit ALUs, while delivering an absolute data consistency proof.