PARADE: A cycle-accurate full-system simulation Platform for Accelerator-Rich Architectural Design and Exploration

The power wall and utilization wall in today´s processors have led to a focus on accelerator-rich architecture, which will include a sea of accelerators that can achieve orders-of-magnitude performance and energy gains. The emerging accelerator-rich architecture is still in its early stage, and many design issues, such as the efficient accelerator resource management and communication between accelerators and CPU cores, remain unclear. Therefore, a research platform that can enable those design explorations will be extremely useful. This paper presents the first cycle-accurate full-system simulation Platform for Accelerator-Rich Architectural Design and Exploration (PARADE). PARADE can automatically generate dedicated or composable accelerator simulation modules, simulate the global accelerator management, a coherent cache/scratchpad with shared memory, and a customizable network-on-chip-all at cycle-level. In addition, PARADE provides visualization support to assist architects with design space exploration. Finally, a few case studies are conducted to confirm that PARADE can enable various system-level design space explorations in the accelerator-rich architecture.