The System Designer's Guide to VHDL-AMS: Analog, Mixed-Signal, and Mixed-Technology Modeling (Volume TBD) (Systems on Silicon, Volume TBD)

Product ID : 32521382

Product Rating

4 out of 5 stars

---

  Share   Tweet

share more:

---

Galleon Product ID 32521382

Shipping Weight 3.84 lbs
I think this is wrong?

Model

Manufacturer Morgan Kaufmann

Shipping Dimension 9.25 x 7.36 x 1.73 inches
I think this is wrong?

See more product information!

-

₱ 10,749

Price Tracker

+ ₱ 1,680
International Shipping

via AIR

Get it between 2025-07-25 to 2025-08-01. Additional 3 business days for provincial shipping.

---

BUY NOW!

*Price and Stocks may change without prior notice
*Packaging of actual item may differ from photo shown

---

• Electrical items MAY be 110 volts.
• 7 Day Return Policy
• All products are genuine and original
• Cash On Delivery/Cash Upon Pickup Available

Pay with

The System Designer's Guide to Features

• New

• Mint Condition

• Dispatch same day for order received before 12 noon

• Guaranteed packaging

• No quibbles returns

About The System Designer's Guide To

The demand is exploding for complete, integrated systems that sense, process, manipulate, and control complex entities such as sound, images, text, motion, and environmental conditions. These systems, from hand-held devices to automotive sub-systems to aerospace vehicles, employ electronics to manage and adapt to a world that is, predominantly, neither digital nor electronic. To respond to this design challenge, the industry has developed and standardized VHDL-AMS, a unified design language for modeling digital, analog, mixed-signal, and mixed-technology systems. VHDL-AMS extends VHDL to bring the successful HDL modeling methodology of digital electronic systems design to these new design disciplines. Gregory Peterson and Darrell Teegarden join best-selling author Peter Ashenden in teaching designers how to use VHDL-AMS to model these complex systems. This comprehensive tutorial and reference provides detailed descriptions of both the syntax and semantics of the language and of successful modeling techniques. It assumes no previous knowledge of VHDL, but instead teaches VHDL and VHDL-AMS in an integrated fashion, just as it would be used by designers of these complex, integrated systems. Explores the design of an electric-powered, unmanned aerial vehicle system (UAV) in five separate case studies to illustrate mixed-signal, mixed-technology, power systems, communication systems, and full system modeling.