tag: OneSpin Solutions

Moore’s Law: Toward SW-Defined Hardware
By Ed Sperling - 15 May, 2017 - Comments: 2

Pushing to the next process node will continue to be a primary driver for some chips—CPUs, FPGAs and some ASICS—but for many applications that approach is becoming less relevant as a metric for progress. Behind this change is a transition from using customized software with generic hardware, to a mix of specialized, heterogeneous hardware that can achieve better performance with less ene... » read more

Speeding Up Neural Networks
By Ed Sperling - 27 Apr, 2017 - Comments: 2

Neural networking is gaining traction as the best way of collecting and moving critical data from the physical world and processing it in the digital world. Now the question is how to speed up this whole process. But it isn't a straightforward engineering challenge. Neural networking itself is in a state of almost constant flux and development, which makes it something of a moving target. Th... » read more

Design Complexity Drives New Automation
By Ann Mutschler - 27 Apr, 2017 - Comments: 0

As design complexity grows, so does the need for every piece in the design flow—hardware, software, IP, as well as the ecosystem — to be tied together more closely. At one level, design flow capacity is simply getting bigger to accommodate massive [getkc id="185" kc_name="finFET"]-class designs. But beyond sheer size, there are new interactions in the design flow that place much more emp... » read more

Whatever Happened To High-Level Synthesis?
By Brian Bailey - 26 Apr, 2017 - Comments: 0

A few years ago, [getkc id="105" comment="high-level synthesis"] (HLS) was probably the most talked about emerging technology. It was to be the heart of a new Electronic System Level (ESL) flow. Today, we hear much less about the progress being made in this area. Semiconductor Engineering sat down to discuss this with Bryan Bowyer, director of engineering for high level design and verificati... » read more

The Great Machine Learning Race
By Ed Sperling - 03 Apr, 2017 - Comments: 2

Processor makers, tools vendors, and packaging houses are racing to position themselves for a role in machine learning, despite the fact that no one is quite sure which architecture is best for this technology or what ultimately will be successful. Rather than dampen investments, the uncertainty is fueling a frenzy. Money is pouring in from all sides. According to a new Moor Insights report,... » read more

10 Ways To Skin A Formal Puzzle
By Dave Kelf - 23 Mar, 2017 - Comments: 1

During the holidays, OneSpin issued a challenge to solve the classic Einstein’s Riddle using any formal verification tool. Although this puzzle was meant to be a little holiday fun, its solution required thought and some useful formal techniques applicable in everyday functional verification. We received a broad range of answers from engineers across the globe in different companies, inclu... » read more

Challenges Grow For IP Reuse
By Ann Mutschler - 23 Mar, 2017 - Comments: 3

As chip complexity increases, so does the complexity of IP blocks being developed for those designs. That is making it much more difficult to re-use IP from one design to the next, or even to integrate new IP into an SoC. What is changing is the perception that standard [getkc id="43" kc_name="IP"] works the same in every design. Moreover, well-developed [getkc id="100" kc_name="methodologie... » read more

Quality Issues Widen
By Ed Sperling - 06 Mar, 2017 - Comments: 0

As the amount of semiconductor content in cars, medical and industrial applications increases, so does the concern about how long these devices will function properly—and what exactly that means. Quality is frequently a fuzzy concept. In mobile phones, problems have ranged from bad antenna placement, which resulted in batteries draining too quickly, to features that take too long to load. ... » read more

Why Auto Designs Take So Long
By Ann Mutschler - 02 Mar, 2017 - Comments: 0

Designing chips for the automotive market is adding significant overhead, particularly for chips with stringent safety requirements. On the verification side it could result in an additional 6 to 12 months of work. On the design side, developing the same processor in the mobile market would take 6 fewer man months. And when it comes to complex electronic control units (ECUs) or [getkc id="81... » read more

Dealing With Unintended Behavior
By Brian Bailey - 02 Mar, 2017 - Comments: 0

Functional verification was already tough enough, but having to identify behaviors that were never defined or intended opens up the search space beyond what existing tools are capable of handling. However, while you may not be able to eliminate unintended behaviors, a design team is not helpless. There are several steps that can be taken to reduce the likelihood of these problems getting int... » read more

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