What Not To Verify


It is well understood that [getkc id="10" kc_name="verification"] is all about mitigating and managing risk, and success here begins with a good verification planning process. During the planning process, the project team creates a list of specific design functions and use cases that must be verified—and they identify the technique used to verify each specific item on the list. That list c... » read more

Is Art Acceptable In Verification?


The industry appears to have accepted that [getkc id="10" kc_name="verification"] involves art as well as science. This is usually based on one of three reasons, namely: the problem is large and complex; there is a lack of understanding and tools that enable it to be automated; and if it could be made a science, all of the jobs would have migrated offshore. Today, designs are built from pre-... » read more

What Ford Is Driving


Jim Buczkowski, director of electrical and electronics systems research and advanced engineering at Ford Motor Co., sat down with Semiconductor Engineering to talk about quality, security, architectures, packaging and automotive's unique constraints. What follows are excerpts of that conversation. SE: As more electronic content is included in automobiles, what kinds of issues are you dealing... » read more

Defining Functional Accuracy


I have been heavily involved in a project that recently completed. It involved creating virtual platforms (VPs) for a number of Altera’s FPGA SoCs. If you’re interested in more information, an announcement on the VP availability went out last week. Some of the modeled platforms existed and some were in various stages of development. The goal of the project was to deliver functionally acc... » read more

Rethinking SoC Verification


The introduction of the iPhone in 2007 represented a fundamental shift in electronic system design: moving advanced processing power off of the desktop and into the hands of users everywhere, always. This shift has led to a revolution in mobile—the expansion into the Internet-of-Things, with wearables, connected automobiles and homes. This revolution is causing profound technology challeng... » read more

Redefining Progress


After lots of wrangling over the whether Moore's Law is alive, dead, or languishing at somewhere in between, that discussion now seems about as relevant as the look and feel of Apple's early Macintosh operating system—an issue that back in the 1980s spawned a very public war with Microsoft. Today that argument is about as relevant as whether Betamax was better than VHS. Whether it's Moor... » read more

Low Power Everything


A decade ago, former International Rectifier CEO Alex Lidow pronounced that there were three main categories for saving energy on a mass scale—variable speed motors, fluorescent lighting, and more efficient servers. He was right at the time. Those weren't necessarily semiconductor-driven markets, but they were the place where the most power could be saved. In fact, at the time, the rough e... » read more

What Will Change In Design For 2015?


This year more than 26 people provided predictions for 2015. Most of these came from the EDA industry, so the results may be rather biased. However, ecosystems are coming closer together in many parts of the semiconductor food chain, meaning that the EDA companies often can see what is happening in dependent industries and in the system design houses. Thus their predictions may have already res... » read more

IP Design Essentials For Reliability And SoC Integration


IP is integral to every SoC design. The need for ubiquitous connectivity has pushed the threshold for content in SoCs even beyond the tenets of Moore’s Law. Technology scaling has not only enabled the delivery of increased performance and reduced power, but also rich content through the integration of a wide range of IPs such as radio devices, CMOS image sensors, MEMs, etc., into a single ... » read more

IP Reaches Back To Established Nodes


Driven by the [getkc id="76" kc_name="IoT"] and wearable market opportunity, [getkc id="81" kc_name="SoC"] developers are shifting backward to established nodes, and what is learned at the leading-edge nodes is being leveraged in reverse as IP is ported backward to improve functionality. [getkc id="43" kc_name="IP"] certainly can be improved to work faster at older geometries, stressed Krish... » read more

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