New Security Risks Create Need For Stealthy Chips


Semiconductors are becoming more vulnerable to attacks at each new process node due to thinner materials used to make these devices, as well as advances in equipment used to simulate how those chips behave. Thinner chips are now emitting light, electromagnetic radiation and various other types of noise, which can be observed using infrared and acoustic sensors. In addition, more powerful too... » read more

Coordinating Automotive Embedded Software Development Requires A Unified Approach


The rising intelligence and connectivity of vehicles are making the interactions between software and physical systems more complex, exposing the deficiencies of current processes, tools and methods. To compete in the technological race for the future of mobility, companies must evolve their software development processes today. A common digital thread connecting software and physical systems t... » 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

Implementing A Multi-Domain System


IoT systems are multi-domain designs that often require AMS, Digital, RF, photonics and MEMS elements within the system. Tanner EDA provides an integrated, top-down design flow for IoT design that supports all these design domains. Learn more about key solutions that the Tanner design flow offers for successful IoT system design and verification. To read more, click here. » read more

Blog Review: Oct. 2


In a video, Cadence's Tom Hackett explains finite element analysis by looking at a simple model of a bridge and showing why FEA techniques are required for analysis of real-world structures. Synopsys' Taylor Armerding examines why the 156-year-old False Claims Act has new relevance when companies are accused of failing to meet cybersecurity standards. Mentor's Colin Walls demystifies memo... » read more

Week In Review: Design, Low Power


eSilicon debuted its 7nm high-bandwidth interconnect (HBI)+ PHY IP, a special-purpose hard IP block that offers a high-bandwidth, low-power and low-latency wide-parallel, clock-forwarded PHY interface for 2.5D applications such as chiplets. HBI+ PHY delivers a data rate of up to 4.0Gbps per pin. Flexible configurations include up to 80 receive and 80 transmit connections per channel and up to 2... » read more

Fast-Track Your Early SoC Design Exploration And Verification


By Nermeen Hossam and John Ferguson Most advanced node system-on-chip (SoC) designs are very large, and very complex. They typically contain many blocks and intellectual property (IP) that perform specialized functions, such as computation, internal communications, and signal processing. These blocks are often built by separate teams or IP suppliers, and integrated into the SoC layout. Howev... » read more

Open ISAs Gaining Traction


Open instruction set architectures are starting to gain a foothold, often in combination with other processors, as chipmakers begin to add more specialized compute elements and more flexibility into their designs. There are a number of these open ISAs available today, including Power, MIPS, and RISC-V, and there are a number of permutations and tools available for sale based on those archite... » read more

The Growing Impact Of Portable Stimulus


It has been a year since Accellera's Portable Test and Stimulus Specification became a standard. Semiconductor Engineering sat down to discuss the impact it has had, and the future direction of it, with Dave Kelf, chief marketing officer for Breker Verification Systems; Larry Melling, product management director for Cadence; Tom Fitzpatrick, strategic verification architect for Mentor, a Siemen... » read more

A Specification-Driven Methodology For The Design And Verification Of Reset Domain Crossing Logic


Reset architectures have increased in complexity along with SoC designs. Sadly, traditional reset design and verification techniques have not evolved to address this increase in complexity. In order to avoid ad-hoc reset methods, this paper presents a three-step specification-driven methodology that provides a requirements-based approach for reset domain crossing design and verification. To ... » read more

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