Optimizing design through verification, execution, debug, and correction.
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 tools and functionalities that are intentionally designed for design-stage design verification and optimization through four foundational pillars: Verification, Execution, Debug, and Correction. In this technical paper, you’ll discover how the four foundational pillars of IC design verification help you overcome design challenges by providing a shift left approach to IC design in which verification analysis is performed early in the IC design cycle to deliver significant competitive advantages.
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