Arvon: A Heterogeneous SiP Integrating a 14nm FPGA and Two 22nm 1.8TFLOPS/W DSPs with 1.7Tbps/mm2 AIB 2.0 Interface to Provide Versatile Workload Acceleration

Arvon is a heterogeneous system in a package (SiP) that integrates a 14nm FPGA chiplet with two dense and efficient 22nm DSP chiplets through Embedded Multi-die Interconnect Bridges (EMIBs) as illustrated in Fig. 1. The chiplets communicate via a 1.536Tbps Advanced Interface Bus (AIB) 1.0 interface and a 7.68Tbps AIB 2.0 interface. We demonstrate the first-ever AIB 2.0 I/O prototype using $36 \mu \mathrm{m}$-pitch microbumps, achieving 4Gbps/pin at 0.10pJ/b (0.46pJ/b including adapter), and a bandwidth density of 1.024Tbps/mm-shoreline and 1.705Tbps/mm ² -area. Arvon is programmable, supporting workloads from neural network (NN) to communication processing (comm) and providing a peak performance of 4.14TFLOPS (FP16, half-precision floating-point) by each DSP chiplet at 1.8TFLOPS/W. A compilation flow is developed to map workloads across FPGA and DSPs to optimize performance and utilization.