HPC Clusters

Breaking the Petaflop Interconnect Barrier

The Challenge 

Scientific computing, climate modeling, and drug discovery require sustained multi-petaflop performance across thousands of nodes. Interconnect latency and bandwidth limitations create computational bottlenecks that prevent linear scaling beyond 1,000 nodes, leaving expensive compute resources underutilized and extending time-to-solution. 

Our Solution 

Direct chip-to-chip optical interconnects with co-packaged integration eliminate electrical-optical conversion bottlenecks while delivering enterprise-grade reliability for mission-critical scientific workloads. 

Key Benefits: 

  • Sub-nanosecond latency enabling near-linear scaling 
  • Aggregate bandwidth exceeding 10 Tbps per processor socket  
  • Energy-proportional scaling efficiency improves with cluster size  
  • Proven reliability in 24/7 mission-critical deployments

Technical Specifications 

  • Latency: <500 ps chip-to-chip 
  • Aggregate Bandwidth: 10+ Tbps per socket
  • MTBF: >1 million hours 
  • Power Efficiency: 3-5 pJ/bit

Validation 

Deployment validation with HPE supercomputing platforms. 

Target Applications 

  • National laboratory supercomputers
  • Climate and weather modeling centers
  • Pharmaceutical computational drug discovery 
  • Financial risk modeling and simulation
  • Materials science and molecular dynamics
  • Fusion energy research computing