Microchip Sees Significant Productivity Gains In Mature-Node Custom IC Design With In-Design Signoff DRC


Microsemi pioneered the design of innovative chips that are used for multiple purposes across a variety of industries, using both mature and advanced process nodes. In mature node custom design implementation, layout designers still spend a significant amount of their valuable time fixing DRC errors—time that could be more beneficially spent ensuring their designs meet their PPA goals. By rep... » read more

Blog Review: Oct. 27


Siemens EDA's Ray Salemi continues looking into using Python for verification by looking at how pyuvm simplifies and refactors the UVM TLM system to take advantage of the fact that Python has multiple inheritance and no typing. Cadence's Paul McLellan listens in as Larry Disenhof explains the impact that export regulations have on EDA tools and IP products and changes in a rapidly shifting l... » read more

Blog Review: Oct. 20


Siemens EDA's Sumit Vishwakarma promotes ironing out preliminary bugs by using a real number model to describe an analog block as a discrete floating-point model and enable it to simulate in a digital solver at near-digital simulation speeds. Synopsys' Taylor Armerding explains how including security in the software development process from the beginning planning stages onward will help IoT ... » read more

Total Critical Area For Optimizing Test Patterns


Increasing complexity at advanced nodes makes it much harder to locate defects and latent defects because there is more surface area to cover and much less space between the various components in a leading-edge chip design. Ron Press, technology enablement director at Siemens Digital Industries Software, talks about why it’s so important to predict where defects are most likely to occur in th... » read more

Get Ready For The Next Generation Of Wearable Tech


Wearables have attracted a lot of attention recently, due to both their successes as well as failures. They bring together requirements for packaging, new substrates, power scavenging, low-power, novel connectivity, flexibility, durability, as well as fashion. While some of the challenges remain formidable, the long-term potential is driving the industry to look at what is possible. They are... » read more

Week In Review: Auto, Security, Pervasive Computing


Automotive Synopsys and 3D virtual-environment company Dassault Systèmes are collaborating on an automotive lighting system development platform. Synopsys’ optical design tools — LucidShape, LightTools, and CODE V — will be integrated with Dassault Systèmes' 3DEXPERIENCE Platform, which is used by automotive teams from different disciplines to work together on designs and simulations. ... » read more

Architecting Interposers


An interposer performs a similar function as a printed circuit board (PCB), but when the interposer is moved inside a package the impact is significant. Neither legacy PCB nor IC design tools can fully perform the necessary design and analysis tasks. But perhaps even more important, adding an interposer to a design may require organizational changes. Today, leading-edge companies have shown ... » read more

Will Co-Packaged Optics Replace Pluggables?


As optical connections work their way deeper into the data center, a debate is underway. Is it better to use pluggable optical modules or to embed lasers deep into advanced packages? There are issues of convenience, power, and reliability driving the discussion, and an eventual winner isn’t clear yet. “The industry is definitely embracing co-packaged optics,” said James Pond, principal... » read more

Bringing Scalable Power Integrity Analysis To Analog IC Designs


Power integrity is a broad term in integrated circuit (IC) design and verification. However, when IC engineers are working through design signoff, power integrity analysis focuses on three specific aspects of a design: Power: Verify the chip design as implemented provides the total predicted power under different operating modes. Performance: Find and eliminate performance issues affect... » read more

Introducing mPower


Power integrity analysis evaluates circuits to determine if they will provide their designed/intended performance and reliability as implemented. Designers must be able to verify analog and digital power integrity from the RTL/gate-level through die-level integrations up to the package and board system-level. The mPower toolset is an innovative power integrity verification solution that brings ... » read more

← Older posts Newer posts →