Cadence Design Systems
Cadence Design Systems is the world's leading EDA technologies and engineering services company.
- 408.943.1234
- 408.428.5001
- info@cadence.com
- 2655 Seely Avenue
San Jose, CA 95134
United States
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Advanced Node Solution
A major new challenge at 20nm/14nm is the requirement for extra masks (double patterning technology, or DPT) to make existing lithography work at this advanced node. Read 20 questions on 20nm - a Q&A document.
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Verification Suite
Cadence is committed to providing industry-leading bare metal compute, the fastest verification engines, and the smartest verification applications so you can find and fix the most bugs per dollar compute per day.
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Parallel Simulation Engine
RocketSim
Complementing compiled-code simulators, Cadence® RocketSim™ parallel simulation engine eliminates functional verification bottlenecks by speeding up simulation using commonly available multi-core servers.
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Electrical DFM analysis and optimization
LDE Electrical Analyzer
The Cadence LDE Electrical Analyzer helps designers identify, analyze, and minimize the effect of parametric issues associated with manufacturing variability to improve design performance.
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Cloud-Ready Physical Verification Signoff Solution
Pegasus Verification System
The Cadence® Pegasus® Verification System is a cloud-ready physical verification signoff solution, which enables engineers to deliver advanced-node integrated circuits (ICs) to market faster. The groundbreaking technology delivers up to 10X improved performance on DRC runs and reduces turnaround time from days to hours.
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3D-IC Solution
Consumer demand for increased bandwidth and low power in smaller form factor has forced design teams to pursue design and manufacturing alternatives to single system-on-chip (SoC) approaches. Moving to advanced geometries like 20nm/14nm is a natural progression; however, it has its own cost, yield, manufacturing, and IP reuse challenges.
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Low-Power Solution
Power consumption affects the designer's ability to differentiate a product based on features, cost, performance, time to market, and even reliability. For mobile equipment, the explosion of applications leads to skyrocketing performance demands, in turn requiring innovative energy management. For data centers, where cooling represents a large proportion of overhead, power density management is critical to reduce cooling costs and increase reliability. Finally, at advanced process nodes, leakage is a critical issue, turning nearly all designs into advanced low-power designs.
