JANUS: Resilient and Adaptive Data Transmission for Enabling Timely and Efficient Cross-Facility Scientific Workflows

In modern science, the growing complexity of large-scale projects has increased reliance on cross-facility workflows, where institutions share resources and expertise to accelerate discovery. These workflows often involve transferring massive data over wide-area networks. While high-speed networks like ESnet and data transfer services like Globus have improved data mobility, challenges remain. Large data volumes can strain bandwidth, TCP suffers from retransmissions due to packet loss, and traditional fault-tolerance methods like erasure coding introduce significant overhead. This paper presents JANUS, a resilient and adaptive data transmission approach for cross-facility scientific workflows. JANUS uses UDP, integrates erasure coding for fault tolerance, and applies error-bounded lossy compression to reduce overhead. This design enables users to balance transmission time and accuracy based on specific needs. JANUS also adapts coding parameters to real-time network conditions and uses optimization models to determine ideal configurations. Experiments show that JANUS significantly improves data transfer efficiency while preserving fidelity.