An FPGA-accelerated testbed for hardware component development in MIMO wireless communication systems

FPGA-based prototyping is nowadays common practice in the functional verification of hardware components since it allows to cover a large number of test cases in a shorter time compared to HDL simulation. In addition, an FPGA-based emulator significantly accelerates the simulation with respect to bit-true software models. This speed-up is crucial when the statistical properties of a system have to be analyzed by Monte Carlo techniques. In this paper we consider a multiple-input multiple-output (MIMO) wireless communication system and show how integrating an FPGA accelerator in the software simulation framework is key to enable the development of complex hardware components in the receiver, from algorithm all the way to chip testing. In particular, we focus on a MIMO detector implementation based on the depth-first sphere decoding algorithm. The speed-up of up to 3 orders of magnitude achieved by hardware-accelerated simulation compared to a pure software testbed enables an extensive fixed-point exploration. Furthermore, it allows a unique characterization of the system communication performance and the MIMO detector run-time characteristics, which vary for different configuration parameters and operating scenarios and hence require a thorough investigation.