Homomorphic Encryption Abstraction Layer
Patented tensor-based execution interface for hardware-agnostic FHE optimization
HEAL (Homomorphic Encryption Abstraction Layer) is LatticaAI's patented tensor-based execution interface that defines the software-hardware execution contract for encrypted compute. It enables hardware-agnostic FHE optimization and future-proofs performance as new accelerators emerge.
Performance tracks the best available accelerators. As new hardware emerges, HEAL ensures your encrypted workloads automatically benefit.
Hardware deployments pull Lattica's execution layer with them. When enterprises adopt new FHE accelerators, Lattica is already compatible.
HEAL defines the software-hardware execution contract, giving Lattica control over how encrypted compute interfaces with acceleration hardware.
HEAL enables Lattica to work with a wide range of acceleration hardware, ensuring your encrypted workloads run on the best available technology.
NVIDIA GPUs and other GPU accelerators for high-performance encrypted compute
Tensor Processing Units optimized for encrypted tensor operations
Field-programmable gate arrays for customizable encrypted compute acceleration
Application-specific integrated circuits designed for FHE operations
Lattica collaborates with leading hardware companies to optimize HEAL for their accelerators:
Encrypted workloads (vector DB, ML inference, custom applications)
Tensor-based execution contract defining encrypted compute operations
PatentedGPU / TPU / FPGA / ASIC accelerators
Same encrypted programs run across different hardware platforms
HEAL optimizes encrypted operations for each hardware type
New hardware integrations leverage the same HEAL interface
FHE accelerators target Lattica as their execution interface. HEAL makes it straightforward for hardware vendors to integrate with Lattica's platform.
Develops FHE accelerator (ASIC, FPGA, etc.)
Implements HEAL interface for encrypted compute operations
Automatically orchestrates encrypted execution on new hardware
Explore how HEAL enables production-grade encrypted compute