Title :
Scan Test Power Simulation on GPGPUs
Author :
Holst, Stefan ; Schneider, Eric ; Wunderlich, Hans-Joachim
Author_Institution :
Univ. of Stuttgart, Stuttgart, Germany
Abstract :
The precise estimation of dynamic power consumption, power droop and temperature development during scan test require a very large number of time-aware gate-level logic simulations. Until now, such characterizations have been feasible only for rather small designs or with reduced precision due to the high computational demands. We propose a new, throughput-optimized timing simulator on running on GPGPUs to accelerate these tasks by more than two orders of magnitude and thus providing for the first time precise and comprehensive toggle data for industrial-sized designs and over long scan test operations. Hazards and pulse-filtering are supported for the first time in a GPGPU accelerated simulator, and the system can easily be extended to even more sophisticated delay and power models.
Keywords :
electron device testing; graphics processing units; logic simulation; logic testing; power consumption; power electronics; GPGPU accelerated simulator; comprehensive toggle data; dynamic power consumption; hazards; industrial sized design; long scan test operation; power droop; power model; pulse filtering; scan test power simulation; sophisticated delay; temperature development; throughput optimized timing simulator; time aware gate level logic simulation; Calibration; Computational modeling; Data models; Delay; Instruction sets; Integrated circuit modeling; Logic gates; Data-Parallelism; GPGPU; Hazards; Power; Pulse-Filtering; Scan-Test; Time-Simulation;
Conference_Titel :
Test Symposium (ATS), 2012 IEEE 21st Asian
Conference_Location :
Niigata
Print_ISBN :
978-1-4673-4555-2
Electronic_ISBN :
1081-7735
DOI :
10.1109/ATS.2012.23
