Title :
SAGA: Systeme acceleration on GPU architectures
Author :
Vinco, Sara ; Chatterjee, Debapriya ; Bertacco, Valeria ; Fummi, Franco
Author_Institution :
Dipt. Inf., Univ. di Verona, Verona, Italy
Abstract :
SystemC is a widespread language for HW/SW system simulation and design exploration, and thus a key development platform in embedded system design. However, the growing complexity of SoC designs is having an impact on simulation performance, leading to limited SoC exploration potential, which in turns affects development and verification schedules and time-to-market for new designs. Previous efforts have attempted to parallelize SystemC simulation, targeting both multiprocessors and GPUs. However, for practical designs, those approaches fall far short of satisfactory performance. This paper proposes SAGA, a novel simulation approach that fully exploits the intrinsic parallelism of RTL SystemC descriptions, targeting GPU platforms. By limiting synchronization events with ad-hoc static scheduling and separate independent dataflows, we shows that we can simulate complex SystemC descriptions up to 16 times faster than traditional simulators.
Keywords :
C++ language; circuit complexity; graphics processing units; hardware-software codesign; integrated circuit design; system-on-chip; GPU architectures; HW-SW system design exploration; HW-SW system simulation; RTL SystemC descriptions; SAGA; SoC design complexity; SystemC acceleration; SystemC simulation; ad-hoc static scheduling; development schedules; embedded system design; limited SoC exploration potential; multiprocessors; separate independent dataflows; verification schedules; Computer architecture; Concurrent computing; Graphics processing unit; Instruction sets; Kernel; Schedules; Synchronization; CUDA simulation acceleration; Parallel SystemC;
Conference_Titel :
Design Automation Conference (DAC), 2012 49th ACM/EDAC/IEEE
Conference_Location :
San Francisco, CA
Print_ISBN :
978-1-4503-1199-1
