Silicon interposer re-usage is drawing attention for cost-effective multi-chiplet integrated systems. To address the communication awareness of inter/off-chiplet interconnect, the paper proposes a field-programmable interconnect fabric and develops its corresponding automatic physical integration tool. The tile-based fabric consists of turnout, cross-over boxes and parallel tracks. It features micro-bump-wise connecting flexibility and hardware efficiency. The automation flow performs chiplet location optimization and efficient bump-to-bump routing, supporting multi-lane bus interconnect and miscellaneous external ports. The methodology is validated by 9 different integration scenarios, where the routability is guaranteed when the local resource utilization ratio approaches 94.5%. The data’s maximum interconnect latency is 2.2 ns and the energy consumption is 1.18 pJ/bit at a bitrate of 1 Gbps. The latency consumes $16.5\times \sim ~53.4\times$ fewer clock cycles than the state-of-the-art network-on-package-based reusable interposer architectures.