A New Strategy For Successful Block/Chip Design-Stage Verification


Achieving efficiency in integrated circuit (IC) design while maintaining design quality is not just a goal, but a necessity. Designers constantly strive to strike a balance between ever-tightening time-to-market constraints and the finite resources at their disposal, while ensuring the quality of their designs remains uncompromised. Traditionally, IC design flows have been depicted as a linear ... » read more

Maximizing Efficiency And Productivity: The Benefits Of Shift Left Verification For IP Designers


Intellectual property (IP) designers play a crucial role by creating reusable components that form the building blocks of larger integrated circuit (IC) designs. These components, whether developed in-house or acquired from specialized IP design companies, are essential for providing core functionality such as memory and standard libraries. However, designing and verifying IP is a complex and d... » read more

Companies That Embrace Digital Transformation Have More Resilient Design And Supply Chains


Digital transformation has evolved quickly from a conceptual phase to a semiconductor industry change agent. The rapid take up of AI-enhanced product development is only accelerating this transformation and is further influenced by two connected trends: The movement of Moore’s Law from transistor scaling to system-level scaling, and the relatively recent redistribution of the global electroni... » read more

Shifting Left Using Model-Based Engineering


As heterogenous integration increases design complexity and forces engineers out of long-standing silos, model-based systems engineering (MBSE) is becoming essential for improving quality and reducing failures in the field. While it may seem like a new buzzword, MBSE's principles date back to the 1990s. In essence, it's a process of building models that enable early decisions, which pays off... » read more

Let’s Do The (IC Design) Time Warp Again


For the most part, we’ve all been doing integrated circuit (IC) and system-on-chip (SoC) layout the same way for decades. Designers put together the design, be it intellectual property (IP), block, or full chip, then begin running physical verification. For design rule checking (DRC), this process consists of running all appropriate rule checks for the component on all available layouts. The ... » read more

A Shift Left Strategy Is One Part Of A Holistic Approach To IC Design Verification


The whole is more than the sum of its parts. –Aristotle A machine is nothing more than a collection of nuts, bolts, wheels, gears, wires, pipes, chains, and what have you. And yet, when they are all connected up properly, magic happens. Instead of a pile of parts, you have a car, or a dishwasher, or a nuclear reactor. The connections and interactions between all those parts turns the whole... » read more

What Does Shift Left With Calibre Mean For IC Designers


Driven by the world’s seemingly insatiable demand for electronics that constantly do more faster, integrated circuit (IC) design companies are continuously seeking ways to profitably deliver products with more functionality, reliability, and performance while reducing time-to-market. To accomplish this, a well-planned shift left strategy can free up critical time and resources in delivery sch... » read more

Test Strategies In The Era Of Heterogeneous Integration


Moore’s Law, the observation that the number of transistors on an integrated circuit doubles approximately every two years, is critical to advances in computing technology. For decades, fabs have managed to achieve exponential growth in digital capability and transistor density by making transistors smaller and smaller, but we’ve hit the physical limits of these processes. Today, new proces... » 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

Week In Review: Design, Low Power


Qualcomm, NXP, Infineon, Nordic, and Bosch are jointly investing in a new RISC-V company, to be formed in Germany, that will speed up RISC-V’s adoption in commercial products. The company will be “a single source to enable compatible RISC-V based products, provide reference architectures, and help establish solutions widely used in the industry,” according to a press release. The co... » read more

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