A Fast, Inexpensive And Scalable Hardware Acceleration Technique For Functional Simulation

We introduce a novel approach to accelerating functional simulation. The key attributes of our approach are high-performance, low-cost, scalability and low turn-around-time (TAT). We achieve speedups between 25 and 2000x over zero delay event-driven simulation and between 75 and 1000x over cycle-based simulation on benchmark and industrial circuits while maintaining the cost, scalability and TAT advantages of simulation. Owing to these attributes, we believe that such an approach has potential for very wide deployment as replacement or enhancement for existing simulators. Our technology relies on a VLIW-like virtual simulation processor (SimPLE) mapped to a single FPGA on an off-the-shelf PCI-board. Primarily responsible for the speed are (i) parallelism in the processor architecture (ii) high pin count on the FPGA enabling large instruction bandwidth and (iii) high speed (124 MHz on Xilinx Virtex-II) single-FPGA implementation of the processor with regularity driven efficient place, and route. Companion to the processor is the very fast SimPLE compiler which achieves compilation rates of 4 million gates/hour. In order to simulate the netlist, the compiled instructions are streamed through the FPGA, along with the simulation vectors. This architecture plugs in naturally into any existing HDL simulation environment. We have a working prototype based on a commercially available PCI-based FPGA board.