Hierarchy plays a significant role in the design of digital and analog circuits. At each level of the hierarchy it becomes essential to evaluate if a sub-block design is feasible and if so which design style is the best candidate for the particular problem. This paper proposes a general methodology for evaluating the feasibility and the performance of sub-blocks at all levels of the hierarchy. A vertical binary search technique is used to generate the feasibility macromodel and a layered volume-slicing methodology with radial basis functions is used to generate the performance macromodel. Macromodels have been developed and verified for both analog and digital blocks. Analog macromodels have been developed at three different levels of hierarchy (current mirror, opamp, and A/D converter). The impact of different fabrication processes on the performance of analog circuits have also been explored. Though the modeling technique has been fine tuned to handle analog circuits the approach is ...

Hierarchy plays a significant role in the design of digital and analog circuits. At each level of the hierarchy it becomes essential to evaluate if a sub-block design is feasible and if so which design style is the best candidate for the particular problem. This paper proposes a general methodology for evaluating the feasibility and the performance of sub-blocks at all levels of the hierarchy. A modified simplicial approximation technique is used to generate the feasibility macromodel and a layered volume-slicing methodology with radial basis functions is used to generate the performance macromodel. However, due to lack of space, only details of the performance macromodeling techniques are included. Macromodels are developed and verified for analog blocks at three different levels of hierarchy (current mirror, opamp, and A/D converter). 1. INTRODUCTION As feature sizes shrink even further, an increasing percentage of IC's will have analog circuit designs in them, stressing the need f...

During hierarchical design, it becomes essential at each level of the hierarchy to evaluate if a sub-block design is feasible and if so which design style is the best candidate for the particular problem. We propose a general methodology for evaluating the feasibility and the performance of sub-blocks at all levels of the hierarchy. In this paper we concentrate on techniques to model the feasibility region. The methodology is general and can be used for both analog and digital circuits. Macromodels are developed and verified for analog blocks at different levels of hierarchy. 1 Hierarchical Circuit Design An increasing percentage of IC's have analog circuit designs in them. These and other requirements stress the need for automatic synthesis tools for analog circuits. Hierarchy plays a significant role in the design of digital and analog circuits. A large design can be broken up into smaller sub-blocks at the different levels of a hierarchy. An example hierarchy for an A/D converter ...

Towards predictable deep-submicron manufacturing