Title :
Characterization and parameterized generation of synthetic combinational benchmark circuits
Author :
Hutton, Michael D. ; Rose, Jonathan ; Grossman, J.P. ; Corneil, Derek G.
Author_Institution :
Altera Corp., San Jose, CA, USA
fDate :
10/1/1998 12:00:00 AM
Abstract :
The development of new field-programmed, mask-programmed, and laser-programmed gate-array architectures is hampered by the lack of realistic test circuits that exercise both the architectures and their automatic placement and routing algorithms. In this paper, we present a method and a tool for generating parameterized and realistic synthetic circuits. To obtain the realism, we propose a set of graph-theoretic characteristics that describe a physical netlist, and have built a tool that can measure these characteristics on existing circuits. The generation tool uses the characteristics as constraints in the synthetic circuit generation. To validate the quality of the generated netlists, parameters that are not specified in the generation are compared with those of real circuits and with those of more “random” graphs
Keywords :
combinational circuits; field programmable gate arrays; graph theory; logic CAD; automatic placement algorithm; automatic routing algorithm; field programming; gate array architecture; graph theory; laser programming; mask programming; netlist; parameterized generation; synthetic combinational benchmark circuit; Automatic testing; Benchmark testing; Character generation; Circuit testing; Delay; Design automation; Field programmable gate arrays; Logic arrays; Packaging; Routing;
Journal_Title :
Computer-Aided Design of Integrated Circuits and Systems, IEEE Transactions on
