Development an efficient AXI-interconnect unit between set of customized peripheral devices and an implemented dual-core RISC-V processor

Abstract

AbstractRISC-V set architecture is playing an increasingly important role in processor technology due to its open instructions which allow researchers to build and improve computing systems. However, many RISC-V architectures exist in multi-core architecture with complex designs, large area, and high-power consumption. This paper studies an open-source multi-core RISC-V processor in a simple design with less power consumption. The processor depends on an open-source single RISC-V core processor, Taiga. Two cores of Taiga are integrated on a single chip while addressing issues related to cache coherence, interconnect, and memory design. A solution has been developed to achieve data coherence between implemented caches and the main memory; its architecture depends on the snoopy protocol. A hardware-customized peripheral unit has been implemented to achieve the management process among operated cores’ tasks. For more consistent and highly controlled memory storage, the main memory unit has been designed in dual-port based on a specific protocol in the interface, and 8192 lines and word addressable unit. As the UART is common in several devices and processors for communication, the UART as a peripheral customized device has been appended for communication with other devices. The processor has been implemented in System Verilog HDL and extensively tested on various testbenches to ensure correct functionality. Hence, the system performance has been evaluated using the CoreMark benchmark, and achieved 4.605 CoreMark/MHz on Zedboard (FPGA Xilinx family) with a maximum operating frequency 98 MHz. The results indicate that the processor performs comparably to state-of-the-art multi-core processors, while offering a simpler and more power-efficient design. Overall, the research demonstrates the potentialof RISC-V architecture in creating a simple and power-efficient multi-core RISC-V processor.