Title :
Identifying Non-Robust Untestable RTL Paths in Circuits with Multi-cycle Paths
Author :
Yu, Thomas Edison ; Yoneda, Tomokazu ; Ohtake, Satoshi ; Fujiwara, Hideo
Author_Institution :
Grad. Sch. of Inf. Sci., Nara Inst. of Sci. & Technol., Ikoma
Abstract :
As LSI manufacturing technology improves and the time-to-market for products becomes stricter, more and more circuit designs have multiple clock domains due to concerns such as design re-use, power reduction and temperature control. It is not uncommon for these designs to have multi-cycle paths which are untestable. The rapid identification of these untestable paths reduces test generation time as well as over-testing due to design for testability (DFT). For current and future designs, this has already become impractical at the gate-level. This paper presents a method to identify nonrobust untestable multi-cycle paths at the register transfer level (RTL) and the details in a case study of a benchmark circuit.
Keywords :
design for testability; integrated circuit design; integrated circuit testing; integrated logic circuits; large scale integration; logic design; logic testing; time to market; DFT; LSI manufacturing technology; benchmark circuit; design for testability; multicycle false paths; multiple clock domains; nonrobust untestable RTL paths; register transfer level; time-to-market; Benchmark testing; Circuit synthesis; Circuit testing; Clocks; Design for testability; Large scale integration; Manufacturing; Registers; Temperature control; Time to market; false path identification; multi-cycle path; non-robust test; register transfer level;
Conference_Titel :
Asian Test Symposium, 2008. ATS '08. 17th
Print_ISBN :
978-0-7695-3396-4
DOI :
10.1109/ATS.2008.55
