AI, Rising Chip Complexity Complicate Prototyping


Prototyping, an essential technology for designing complex chips in tight market windows, is becoming significantly more challenging for the growing number of designs that include AI/ML. Prototyping remains one of the foundational pillars of the whole shift left movement, allowing software to be developed and tested before actual silicon is available. That, in turn, enables multiple teams t... » read more

Why Shift Left?


As every integrated circuit (IC) design company knows, the faster a design can progress from implementation to signoff verification, the better the chances are of meeting tapeout schedules. Meeting tapeout schedules improves a company’s chances of reaching their market targets. But as companies create larger and more complex ICs and move to advanced process nodes, the challenge of achieving t... » read more

Preparing For Commercial Chiplets


Experts at the Table: Semiconductor Engineering sat down to discuss the path to commercialization of chiplets with Saif Alam, vice president of engineering at Movellus; Tony Mastroianni, advanced packaging solutions director at Siemens Digital Industries Software; Mark Kuemerle, vice president of technology at Marvell; and Craig Bishop, CTO at Deca Technologies. What follows are excerpts of tha... » read more

The Four Foundational Pillars Of Calibre Shift Left Solutions For IC Design And Implementation Flows


As the semiconductor industry approaches a new era of digital transformation, design companies everywhere are turning to shift left strategies to address challenges that reduce design cycles while maximizing productivity, optimizing resource efficiency, ensuring design quality, and accelerating time to market. To overcome these challenges in IC design, Calibre shift left technologies include to... » read more

Blog Review: Aug. 23


Siemens' Stephen Chavez discusses best practices when it comes to thermal analysis for PCB design, including component placement and close collaboration between mechanical and electrical engineering disciplines. Synopsys' Gary Ruggles, Richard Solomon, and Varun Agrawal introduce the Compute Express Link (CXL) specification and how it could help improve latency through computational offloadi... » read more

Week In Review: Automotive, Security and Pervasive Computing


The AAA Foundation for Traffic Safety estimates that between 2021 and 2050, ADAS technologies currently available to U.S. will prevent "approximately 37 million crashes, 14 million injuries, and nearly 250,000 deaths, which would represent 16% of crashes and injuries, and 22% of deaths that would otherwise occur on U.S. roads without these technologies," according to a new report. Governmen... » read more

Week In Review: Design, Low Power


Synopsys’ board of directors appointed Sassine Ghazi as president and chief executive officer effective on Jan. 1, 2024. Ghazi, who is currently the COO, will succeed Aart de Geus, co-founder, chair, and CEO of Synopsys, who will then become the executive chair of board of directors. IBM Research introduced  an energy-efficient mixed-signal analog AI chip for DNN inferencing and demonstra... » read more

Tradeoffs Between On-Premise And On-Cloud Design


Experts at the Table: Semiconductor Engineering sat down discuss how and why companies are dividing up work on-premise and in the cloud, and what to watch out for, with Philip Steinke, fellow, CAD infrastructure and physical design at AMD; Mahesh Turaga, vice president of business development for cloud at Cadence Design Systems; Richard Ho, vice president hardware engineering at Lightmatter; Cr... » read more

Blog Review: Aug. 16


Synopsys' Johannes Stahl and Tim Kogel suggest that multi-die systems require a new approach at the architecture planning phase and why chip designers can’t ignore physical effects such as layout, power, temperature, or IR-drop. Siemens' Rich Edelman argues for using the waveform window in a GUI rather than $display when debugging UVM. Cadence's Paul Scannell stresses the need for diver... » read more

Why It’s So Difficult To Ensure System Safety Over Time


Safety is emerging as a concern across an increasing number of industries, but standards and methodologies are not in place to ensure electronic systems attain a defined level of safety over time. Much of this falls on the shoulders of the chip industry, which provides the underlying technology, and it raises questions about what more can be done to improve safety. A crude taxonomy recently ... » read more

← Older posts Newer posts →