The future of computing is encrypted
Belfort processes sensitive data without ever decrypting it. At speed. At scale. Without compromise.
Belfort makes encrypted compute real by accelerating it to practical performance
Performance without compromise
What once took hours now takes minutes. Belfort brings encrypted compute within reach.
Seamless adoption
Purpose-built hardware integrates effortlessly, unlocking instant gains in speed and scalability.
Security as a foundation
Data remains protected throughout every operation; confidentiality is inherent, not optional.
Encrypted compute across high-stakes domains
From defense to genomics, Belfort makes encrypted data usable at scale — without ever compromising privacy or trust.
National security & Government
Exposed intelligence or citizen data undermines trust and safety. Belfort ensures confidentiality and integrity across missions and state systems.
Finance
Institutions can detect fraud, assess credit, manage risk, and ensure compliance in real time while client data stays encrypted.
Healthcare
Keeping patient and genomic data encrypted allows hospitals, pharma, and researchers to collaborate, run diagnostics, and analyze outcomes without exposing sensitive information.
Crypto & Blockchain
With Belfort’s acceleration, fully confidential smart contracts, payments, and DeFi protocols finally become practical at scale, unlocking the next wave of crypto adoption.
Inside the architecture
With Belfort’s dedicated hardware and algorithmic improvements, encrypted workloads preserve end-to-end protection while achieving the performance required for production.
The Visionaries Driving Secure Computing Forward
Belfort’s team of leading cryptographers, engineers, and mathematicians has turned encrypted computation from theory into systems, delivering secure, high-performance computing at scale.
Alexander
Viand
Alexander Viand is a senior software developer and compiler expert, helping steer the integration between application-layer systems and hardware-accelerated kernels at Belfort. He is a top contributor to Google’s HEIR project and previously worked at Intel Labs. He combines this work with a postdoctoral position at the University of Cambridge, focusing on making advanced privacy technologies such as FHE, MPC, and ZKPs usable in practice through better systems and abstractions.
Supported by the best
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TRUST IS ALL YOU NEED
Process data securely.