How To Calculate The ROI Of Semiconductor IP Management


Intellectual property (IP) is a vital asset for technology companies. IP is often a critical factor in the valuation of a company and must be protected from accidental damage, leakage, and other negative consequences of poor handling. In the context of silicon companies that work on building silicon chips, the term IP involves overseeing both internal IP developed by the company itself and exte... » read more

Adding Differentiating Value And Reducing IP Integration Time for Your SoC


In the most efficient SoC design processes, semiconductor companies design their own, differentiated IP blocks, acquire high-quality third-party IP, configure it in an SoC-optimized way, and integrate all blocks into the SoC infrastructure of clocks, voltage supplies, on-chip buffer memories or registers, and test circuits. The SoC design team defines and drives the SoC-specific implementation ... » read more

Rethinking Watermark: Providing Proof of IP Ownership in Modern SoCs


Abstract "Intellectual property (IP) cores are essential to creating modern system-on-chips (SoCs). Protecting the IPs deployed in modern SoCs has become more difficult as the IP houses have been established across the globe over the past three decades. The threat posed by IP piracy and overuse has been a topic of research for the past decade or so and has led to creation of a field called wat... » read more

What’s In Your IP?


Jeff Markham, software architect at ClioSoft, talks with Semiconductor Engineering about IP traceability in markets such as automotive and aerospace, what’s actually in IP, what should not be in that IP from a security standpoint, and how all of this data can used to avert system reliability issues in the future. » read more

A New Dawn For IP


The IP industry is changing again. The concept started as build once, use everywhere, but today it is more like architect once, customize everywhere. Few designs can afford sub-optimal IP for their application. The need for customized IP is driven by both leading-edge designs and the trailing markets, although for different reasons. While this customization is causing IP companies to transfo... » read more

IP Management And Development At 5/3nm


The growing complexity of moving to new process nodes is making it much more difficult to create, manage and re-use IP. There are more rules, more data to manage, and more potential interactions as density increases, both in planar implementations and in advanced packaging. And the problems only get worse as designs move to 5nm and 3nm, and as more heterogeneous components such as accelerato... » read more

ML, Edge Drive IP To Outperform Broader Chip Market


The market for third-party semiconductor IP is surging, spurred by the need for more specific capabilities across a wide variety of markets. While the IP industry is not immune to steep market declines in semiconductor industry, it does have more built-in resilience than other parts of the industry. Case in point: The top 15 semiconductor suppliers were hit with an 18% decline in 2019 first-... » read more

IP’s Growing Impact On Yield And Reliability


Chipmakers are finding it increasingly difficult to achieve first-pass silicon with design IP sourced internally and from different IP providers, and especially with configurable IP. Utilizing poorly qualified IP and waiting for issues to appear during the design-to-verification phase just before tape-out can pose high risks for design houses and foundries alike in terms of cost and time to... » read more

The Arm-Huawei Disconnect


Arm's move to stop licensing its processor IP to HiSilicon, the captive chipmaker for Huawei, has set off a panic across the semiconductor industry. While the underlying threat to the entire chip industry is very real, many of the conclusions being drawn about this move are misleading or just plain wrong. When the U.S. government blacklisted Huawei, it imposed export restrictions on shipping... » read more

IP Requires System Context At 6/5/3nm


Driven by each successive generation of semiconductor manufacturing technology, complexity has reached dizzying levels. Every part of the design, verification and manufacturing is more complicated and intense the more transistors are able to be packed onto a die. For these reasons, the entire system must be taken into consideration as a whole – not just as individual building blocks as could ... » read more

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