Week In Review: Design, Low Power


Tools & IP Cadence unveiled deep neural-network accelerator (DNA) AI processor IP, Tensilica DNA 100, targeted at on-device neural network inference applications. The processor is scalable from 0.5 TMAC (Tera multiply-accumulate) to 12 TMACs, or 100s of TMACs with multiple processors stacked, and the company claims it delivers up to 4.7X better performance and up to 2.3X more performance p... » read more

Week in Review: IoT, Security, Auto


Internet of Things Release 3 is published by oneM2M, the worldwide Internet of Things interoperability standards initiative. The third set of specifications deals with 3GPP interworking, especially as it relates to cellular IoT connectivity, among other features. The release is said to enable seamless interworking with narrowband IoT and LTE-M connectivity through the 3GPP Service Capability E... » read more

Blog Review: Sept. 19


Applied Materials' David Thompson shares the new DARPA program that is focused on using correlated electrons to develop a new type of switch with quantum effects, potentially leading to unprecedented switching speeds. Mentor's Joe Hupcey III argues that for the most effective formal analysis, assertions should be as simple as possible and shares some tips on decomposing big assertions. Ca... » read more

Enabling Device Intelligence


The explosive growth in silicon and software for artificial intelligence applications is transforming everything we know about connectivity, energy-efficiency, mobility, and security. Machine learning (ML) techniques are already used in computer vision, object recognition, speech recognition, and big data analytics. Deep learning (DL) algorithms and neural networks are pushing both silicon and ... » read more

Week In Review: Design, Low Power


M&A Intel acquired NetSpeed Systems, a network-on-a-chip and interconnect fabric IP and tool provider. Founded in 2011, the San Jose-based company recently put a focus on interconnects designed with AI applications in mind. Intel has cast the acquisition as a way to tie a number of its other technologies together. The team will join Intel's Silicon Engineering Group. Intel has been a NetSp... » read more

Week in Review: IoT, Security, Auto


Internet of Things NXP Semiconductors provided its A71CH trust anchor to Google IoT Cloud, enabling authentication for Google IoT Cloud Core. The technology helps to secure edge devices for Internet of Things deployments. Separately, NXP announced the promotion of Kurt Sievers, executive vice president and general manager of the chip company’s automotive business, to president of NXP Semicon... » read more

Is Your AI SoC Secure?


As artificial intelligence (AI) enters every application, from IoT to automotive, it is bringing new waves of innovation and business models, along with the need for high-grade security. Hackers try to exploit vulnerabilities at all levels of the system, from the system-on-chip (SoC) up. Therefore, security needs to be integral in the AI process. The protection of AI systems, their data, and th... » read more

Process Corner Explosion


The number of corners that need to be checked is exploding at 7nm and below, fueled by everything from temperature and voltage to changes in metal. Lowering risk and increasing predictability of an SoC at those nodes starts with understanding what will happen when a design is manufactured on a particular foundry process, captured in process corners. This is basically a way of modeling what i... » read more

Minimizing Chip Aging Effects


Aging kills semiconductors, and it is a growing problem for an increasing number of semiconductor applications—especially as they migrate to more advanced nodes. Additional analysis and prevention methods are becoming necessary for safety critical applications. While some aspects of aging can be mitigated up front, others are tied to the operation of the device. What can an engineering tea... » read more

IP For Centralized ADAS Domain Controllers


A centralized architecture is becoming more popular to integrate the ADAS applications into a centralized ADAS domain controller. A centralized architecture reduces cost, minimizes development of separate software applications and reduces system complexity. As automakers adopt multi-domain controllers with centralized ADAS processors, the required performance and functionality of the ADAS proce... » read more

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