Synthesis and Optimization of Digital Circuits
Synthesis and Optimization of Digital Circuits
Digital Control Systems
Analysis and Design of Analog Integrated Circuits
Analysis and Design of Analog Integrated Circuits
Multidisciplinary Collaboration Methodology for Smart Perception System-on-a-Chip (SoC)
Analog Integrated Circuits and Signal Processing
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Unfortunately, the best solution for one mixed-signal design, is not the best solution for all mixed-signal designs. This is especially true in light of today‘s microwave applications that span the range from low-power, low-performance type of devices, through high-power,high-frequency and high-performance applications. Digital designs areautomated through the use of the VHDL hardware description language,while the mixed-signal counterparts are automated using the newly developedVHDL-AMS extension. The essential ingredients for mixed-signal designfall into the methodologies of scalable functionality, robust design andfeedback techniques. Scalable functionality refers to the non-conventionalmethodology of dimensional analysis for establishing magnitude relationshipsbetween mixed-signal system variables. Robust design of a mixed-signal system,involves the blending of the z-domain (digital) and the s-domain(continuous), resulting in the wp-domain. Robust feedback involves theinherit feedback nature of mixed-signal systems, by providing a methodologyof design that emphasizes the use of feedback for achieving the desiredrobust system performance tolerances despite device parameter uncertainty andnoise disturbances.