Design for hierarchical testability of RTL circuits obtained by behavioral synthesis

Abstract

Most behavioral synthesis and design for testability techniques target subsequent gate-level sequential test generation, which is frequently incapable of handling complex controller/data path circuits with large data path bit-widths. Hierarchical testing attempts to counter the complexity of test generation by exploiting information from multiple levels of the design hierarchy. We present techniques that add minimal test hardware to the given register-transfer level (RTL) design obtained through behavioral synthesis in order to ensure that all the embedded modules in the circuit are hierarchically testable. An important by-product of our DFT procedure is a system-level test set that is guaranteed to deliver pre-computed module test sets to each module in the RTL circuit. This eliminates the need to apply gate-level sequential test generation to the controller/data path. We performed extensive experiments with several complex data path/controller circuits synthesized by two different high level synthesis systems which do not target testability.