Software-Based Self-Test (SBST) approaches have shown to be an effective solution to detect permanent faults, both at the end of the production process, and during the operational phase. However, when Very Long Instruction Word (VLIW) processors are addressed these techniques require some optimization steps in order to properly exploit the parallelism intrinsic in these architectures. In this paper we present a new method that, starting from previously known algorithms, automatically generates an effective test program able to still reach high fault coverage on the VLIW processor under test, while reducing the test duration and the test code size. The method consists of three parametric phases and can deal with different VLIW processor models. The main goal of the proposed method is to automatically obtain a test program able to effectively reduce the test time and the required resources. Experimental results gathered on a case study show the effectiveness of the proposed approach.
On the optimized generation of Software-Based Self-Test programs for VLIW processors / Sabena, Davide; SONZA REORDA, Matteo; Sterpone, Luca. - ELETTRONICO. - (2012), pp. 129-134. (Intervento presentato al convegno VLSI and System-on-Chip (VLSI-SoC), 2012 IEEE/IFIP 20th International Conference on tenutosi a Santa Cruz, CA, USA nel 7-10 October 2012) [10.1109/VLSI-SoC.2012.6379018].
On the optimized generation of Software-Based Self-Test programs for VLIW processors
SABENA, DAVIDE;SONZA REORDA, Matteo;STERPONE, Luca
2012
Abstract
Software-Based Self-Test (SBST) approaches have shown to be an effective solution to detect permanent faults, both at the end of the production process, and during the operational phase. However, when Very Long Instruction Word (VLIW) processors are addressed these techniques require some optimization steps in order to properly exploit the parallelism intrinsic in these architectures. In this paper we present a new method that, starting from previously known algorithms, automatically generates an effective test program able to still reach high fault coverage on the VLIW processor under test, while reducing the test duration and the test code size. The method consists of three parametric phases and can deal with different VLIW processor models. The main goal of the proposed method is to automatically obtain a test program able to effectively reduce the test time and the required resources. Experimental results gathered on a case study show the effectiveness of the proposed approach.Pubblicazioni consigliate
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https://hdl.handle.net/11583/2503107
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