TY  - JOUR
T1  - On the Analysis of Software-Defined Radio with RISC-V Vector Architecture
AU  - Moon, Seungsik 
AU  - Lee, Hyeongtaek 
JO  - The Journal of Korean Institute of Communications and Information Sciences
PY  - 2025
DA  - 2025/1/1
DO  - 10.7840/kics.2025.50.11.1780
KW  - Software-defined radio
KW  - RISC-V
KW  - vector extension
KW  - maximum-ratio transmission
AB  - Software-defined radio (SDR) architecture is a baseband architecture based on general-purpose processors, offering greater flexibility than the conventional baseband architecture by allowing various algorithms to be processed in software-level. While SDRs provide a flexible alternative to traditional baseband architectures, most of them are built on conventional x86 or ARM-based processors and thus lack the customizability needed for optimal performance in wireless communication. This paper analyzes the performance of an SDR architecture implemented on a vector-extended RISC-V core architecture. We designed a vector-extended RISC-V core architecture by adding various vector-level operators to the open-source RISC-V core architecture.
Furthermore, we developed an optimized computing kernel for the maximum-ratio transmission (MRT) precoding function using the vector-level instructions. Simulation results showed that the vector-extended SDR architecture can achieve up to 17.1 times higher throughput than the conventional SDR architecture, validating the viability and feasibility of the SDR architecture with the vector-extended RISC-V core architecture.