Title :
Automatic design validation framework for HDL descriptions via RTL ATPG
Author :
Zhang, Liang ; Hsiao, Michael ; Ghosh, Indradeep
Author_Institution :
Dept. of ECE, Virginia Tech, Blacksburg, VA, USA
Abstract :
We present a framework for high-level design validation using an efficient register-transfer level (RTL) automatic test pattern generator (ATPG). The RTL ATPG generates the test environments for validation targets, which include variable assignments, conditional statements, and arithmetic expressions in the HDL description. A test environment is a set of conditions that allow for full controllability and observability of the validation target. Each test environment is then translated to validation vectors by filling in the unspecified values in the environment. Since the observability of error effect is naturally handled by our ATPG, our approach is superior to methods that only focus on the excitation of HDL descriptions. The experimental results on ITC99 benchmark circuits and an industrial circuit demonstrate that very high design error coverage can be obtained in a small CPU times.
Keywords :
automatic test pattern generation; hardware description languages; high level synthesis; logic testing; observability; HDL description; ITC99 benchmark circuits; RTL ATPG; VHDL; Verilog; arithmetic expressions; automatic design validation framework; conditional statements; controllability; design error coverage; high-level design validation; industrial circuit; observability; variable assignments; Arithmetic; Automatic test pattern generation; Benchmark testing; Central Processing Unit; Circuit testing; Controllability; Filling; Hardware design languages; High-level synthesis; Logic circuit testing; Observability; Test pattern generators;
Conference_Titel :
Test Symposium, 2003. ATS 2003. 12th Asian
Print_ISBN :
0-7695-1951-2
DOI :
10.1109/ATS.2003.1250800
