Electronic System-Level (ESL) Design
Agilent provides the most accurate communications system design tools which accelerate PHY development and verification time by reducing cross domain iterations. With Agilent, you'll be able bring real-world effects higher in the design validation process.
ESL Design Challenges
- Analog/RF and baseband/DSP/embedded teams often work in relative isolation in the design or HW validation phases, increasing the risk of time consuming and expensive iterations.
- Traditional single domain “point tools” have poor to no interaction with the real world and rely on mathematical models to capture real-world effects.
- Validating hardware after systems achieve hardware integration may mask critical design flaws and require complicated physical test benches for verification of final designs.
What's New
- Introducing the ESL Design Notebook: a new blog for Electronic-System Level designers
- Agilent to Demonstrate Latest RF Circuit, System and 3-D EM Design & Simulation Solutions at WAMICON
- Enabling Simulation and Test of Custom OFDM Signals
- Agilent's Newest SystemVue Software Release Accelerates MIMO Radar and Wireless/4G Design
- Learn how to achive faster validation with design and test integration
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Defining the 4G PHY Architecture Design Challenges
EE Times design article (Part 1) on defining the 4G PHY architecture design challenges.
Journal 2011-12-05 |
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ESL Design Notebook Blog
The blog home of Electronic System-Level Design at Agilent highlighting applications, news, and opinions from a cross-discipline, system-level approach to design and verification in communications and defense.
Journal 2013-04-02 |
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Using SystemVue to Overcome 4G Challenges
EE Times design article (Part 2) on using SystemVue to overcome 4G challenges.
Journal 2011-12-04 |
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