Today I’m talking about the gradual convergence of EDA single tools to integrated systems. In the early days of HiFi home entertainment systems, specialist vendors provided separate record (vinyl!) decks, amplifiers and speakers, then left it to the ingenuity of the customer to build their own system – they still do for the serious audiophiles.

Aside from some of the HiFi enthusiasts, after a while those same vendors realized that what the mass market really wanted was an "all-in-one" system and started building integrated systems that looked good and sounded great in the living room. Some people had discovered that replacing apparently insignificant items such as signal and even speaker cables made an audible, but not always measurable, difference to their listening pleasure. What most of them eventually discovered, however, was that selecting matching products from a quality manufacturer gave better results as the vendor had done the groundwork to ensure it all worked as one system.

EDA and HiFi have many similarities;

What is the main driver? The simple answer is speed, but more comprehensively, the relentless advance in the complexity and capability of today’s high performance microcontroller devices, and their interconnect technologies. DDR3, PCIexpress, FPGAs, DSPs and microprocessors with high pin counts and very fast edge rates demand a more sophisticated approach to create, implement, analyze, verify and document a range of design constraints.

Just as HiFi enthusiasts discovered the benefits of integration, design engineers are moving away from individual point tools to integrated systems that provide a single repository for all critical data in the design flow, including constraints. The benefits include:

Fast capture through unification. Libraries of electrical, mechanical, simulation and modeling parts, assembled into proven schematic, and PCB layout circuit blocks form the foundation of all designs. The more complex part of any advanced technology design, however, lies in the requirement to conform to strict electrical rules and constraints imposed by the vendors of the core devices. A unified constraints database, tightly integrated with all tools in the design flow and accessible to all design disciplines, enables fast, efficient capture of even the most complex constraints from the very first stages of development of the design concept, leaving the design engineer more time to create and innovate. Layout engineers and signal integrity analysts are then free to verify and implement the design in the knowledge that all constraints will be accommodated, and that the finished design will conform to the vendor’s guidelines.

The real benefits of integration, however, are measured in cold hard numbers. If you can get product to market on time, on budget, and performing to spec, then an integrated design flow speaks for itself.

CRAIG ARMENTI is senior technical marketing manager for PCB Products at Zuken (zuken.com) and BOB SADOWSKI is an Applications Consultant at Quadra Solutions (quadrasol.co.uk).

 

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