confidential-computing
Safeguard articles tagged "confidential-computing" — guides, analysis, and best practices for software supply chain and application security.
9 articles
Azure Confidential VM Attestation in a Supply Chain Pipeline
Confidential VMs on Azure protect workloads in use, but the attestation flow is where their value gets unlocked. We trace how to wire it into a build and deploy pipeline.
Introduction to confidential computing and hardware-based...
Confidential computing seals data in use inside hardware-encrypted enclaves, closing the last gap in the encrypt-everywhere model. Here's how it works.
How trusted execution environments protect sensitive work...
Trusted execution environments promise hardware-isolated security for sensitive workloads, but real-world attacks show the TEE model has limits Safeguard helps you manage.
Using confidential computing to protect LLM inference and...
How hardware-based secure enclaves keep LLM prompts and weights encrypted even during active inference, and why confidential AI inference is reshaping AI compliance in 2026.
Comparing confidential VM offerings across major cloud pr...
A practical comparison of confidential virtual machines across Azure, AWS Nitro Enclaves, GCP confidential compute, and more -- real strengths, real limitations, no marketing gloss.
Technical comparison of AMD SEV-SNP and Intel TDX securit...
A technical comparison of AMD SEV-SNP vs Intel TDX covering memory encryption, attestation, CVE history, and cloud provider support.
Remote attestation fundamentals for confidential computin...
A practical look at remote attestation for confidential computing: how enclave protocols and hardware verification prove workloads haven't been tampered with.
Confidential Computing in Supply Chain Integration
How Intel TDX, AMD SEV-SNP, and AWS Nitro enclaves plug into build and signing pipelines, with attestation flows and operational tradeoffs.
Confidential Computing: A New Trust Model for Software Supply Chains
Confidential computing protects data in use through hardware-based enclaves. It could fundamentally change how we think about supply chain trust.