TY - BOOK ID - 37782403 TI - A computer-aided design and synthesis environment for analog integrated circuits AU - Van der Plas, Geert AU - Gielen, Georges AU - Sansen, Willy M. C. PY - 2002 SN - 0306479133 0792376978 PB - New York : Kluwer Academic Publishers, DB - UniCat KW - Linear integrated circuits KW - Integrated circuits KW - Computer-aided design. KW - Computer engineering. KW - Computer aided design. KW - Electrical Engineering. KW - Computer-Aided Engineering (CAD, CAE) and Design. KW - Information Systems Applications (incl. Internet). KW - Electrical engineering. KW - Computer-aided engineering. KW - Application software. KW - Application computer programs KW - Application computer software KW - Applications software KW - Apps (Computer software) KW - Computer software KW - CAE KW - Engineering KW - Electric engineering KW - Data processing KW - Linear ICs KW - Analog integrated circuits KW - 621.3.049.77 KW - 621.3.049.77 Microelectronics. Integrated circuits KW - Microelectronics. Integrated circuits UR - https://www.unicat.be/uniCat?func=search&query=sysid:37782403 AB - In the first part the AMGIE analog synthesis system is described. AMGIE is the first analog synthesis system that automates the full design process from specifications down to verified layout. It is targeted to the design of moderate-complexity circuits. It relies on design and circuit knowledge stored in the tool's libraries and can be used by both novice and experienced analog designers as well as system-level designers. The inner workings are explained in detail, with (practical) examples to demonstrate how the implemented algorithms and techniques work. Experimental results obtained with the AMGIE system are reported, including actual fabricated and measured circuits. The second approach, i.e. the systematic design of high-performance analog circuits, is discussed in the second part of the book. This approach is supported by tools to boost the productivity of the designer. An example of such a tool is Mondriaan, that is targeted towards the automatic layout generation of highly regular analog blocks. The proposed systematic design methodology is then applied to the design of high-accuracy current-steering digital to analog converters (DACs). The full design path is discussed in detail. Both complementary approaches increase analog design productivity. Design times of the different design experiments undertaken are reported throughout the book to demonstrate this. ER -