TY - GEN
T1 - Throughput optimization for latency-insensitive system with minimal queue insertion
AU - Huang, Juinn-Dar
AU - Chen, Yi Hang
AU - Ho, Ya Chien
PY - 2011
Y1 - 2011
N2 - As fabrication process exploits even deeper submicron technology, global interconnect delay is becoming one of the most critical performance obstacles in system-on-chip (SoC) designs nowadays. Recent years latency-insensitive system (LIS), which enables multicycle communication to tolerate variant interconnect delay without substantially modifying pre-designed IP cores, has been proposed to conquer this issue. However, imbalanced interconnect latency and communication back-pressure residing in an LIS still degrade system throughput. In this paper, we present a throughput optimization technique with minimal queue insertion. We first model a given LIS as a quantitative graph (QG), which can be further compacted using the proposed techniques, so that much bigger problems can be handled. On top of QG, the optimal solution with minimal queue size can be achieved through integer linear programming based on the proposed constraint formulation in an acceptable runtime. The experimental results show that our approach can deal with moderately large systems in a reasonable runtime and save about 28% of queues compared to the prior art.
AB - As fabrication process exploits even deeper submicron technology, global interconnect delay is becoming one of the most critical performance obstacles in system-on-chip (SoC) designs nowadays. Recent years latency-insensitive system (LIS), which enables multicycle communication to tolerate variant interconnect delay without substantially modifying pre-designed IP cores, has been proposed to conquer this issue. However, imbalanced interconnect latency and communication back-pressure residing in an LIS still degrade system throughput. In this paper, we present a throughput optimization technique with minimal queue insertion. We first model a given LIS as a quantitative graph (QG), which can be further compacted using the proposed techniques, so that much bigger problems can be handled. On top of QG, the optimal solution with minimal queue size can be achieved through integer linear programming based on the proposed constraint formulation in an acceptable runtime. The experimental results show that our approach can deal with moderately large systems in a reasonable runtime and save about 28% of queues compared to the prior art.
UR - http://www.scopus.com/inward/record.url?scp=79952915408&partnerID=8YFLogxK
U2 - 10.1109/ASPDAC.2011.5722257
DO - 10.1109/ASPDAC.2011.5722257
M3 - Conference contribution
AN - SCOPUS:79952915408
SN - 9781424475155
T3 - Proceedings of the Asia and South Pacific Design Automation Conference, ASP-DAC
SP - 585
EP - 590
BT - 2011 16th Asia and South Pacific Design Automation Conference, ASP-DAC 2011
T2 - 2011 16th Asia and South Pacific Design Automation Conference, ASP-DAC 2011
Y2 - 25 January 2011 through 28 January 2011
ER -