Corespan Composer Datasheet
Corespan Composer
Corespan Composer is the unified software control plane for the DynamicXcelerator platform and Corespan’s composable, photonic-native infrastructure. It orchestrates system composition and fabric control, managing how disaggregated physical resources are attached to and detached from servers over time. Composer manages shared pools of compute, acceleration, storage, and interconnect exposed by DynamicXcelerator, enabling infrastructure configurations to be adapted as workload requirements change, through both a user interface and programmatic APIs.
Key Features
Unified Control Plane
Single platform, full system control
Dynamic Resource Composition
Attach and detach resources dynamically
Photonic Fabric Control
Deterministic optical connectivity control
Bare-Metal Automation
Automated discovery and provisioning
Use Cases
AI Inference Platforms
GPUs allocated to demand
High-Performance Computing
Workload-specific system composition
Enterprise and Sovereign AI
On-prem control, cloud flexibility
Composable Infrastructure Services
Flexible bare-metal service delivery
Technical Specifications
Benefits
Corespan Composer delivers cloud-like agility for on-prem infrastructure by unifying orchestration, dynamic system composition, and photonic fabric control into a single platform. Its Kubernetes-based microservices architecture scales cleanly and supports resilient operations, while runtime attach/detach capabilities allow GPUs, compute, and storage to be reallocated without downtime as workload demands change. Real-time photonic fabric programming enables deterministic, high-performance connectivity and workload-optimized configurations, and Redfish-compliant REST APIs simplify integration with existing automation and management tools. Composer can be deployed per rack, per POD, or across an entire cluster, making it practical to adopt incrementally and expand over time.
User Benefits
Corespan Composer helps users run AI and advanced computing workloads more efficiently by making infrastructure flexible and easier to operate. Teams can dynamically assemble and reconfigure systems to match workload needs, reallocate GPUs and other resources without downtime, and maintain predictable high-performance connectivity through real-time fabric control. Standard APIs simplify integration with existing tooling and automation, while the cloud-native architecture improves scalability and operational resilience. Composer also supports incremental deployment—starting small and expanding across racks, PODs, or full clusters as requirements grow.
Corespan Composer Use Case Diagram
Illustrates
For More Details
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