Cesare Garlati's starred repositories
commons-math
Apache Commons Math
multizone-sdk
MultiZone® Security TEE is the quick and safe way to add security and separation to any RISC-V processors. The RISC-V standard ISA doesn't define TrustZone-like primitives to provide hardware separation. To shield critical functionality from untrusted third-party components, MultiZone provides hardware-enforced, software-defined separation of multi
multizone-fpga
This repository contains the hardware design source files of the Hex Five X300 RISC-V SoC. The X300 is Hex Five's official reference HW platform for its MultiZone Trusted Execution Environment and MultiZone Trusted Firmware. The X300 is an enhanced secure version of the SiFive's Freedom E300 built around the Rocket chip developed at U.C. Berkeley.
multizone-iot-sdk
MultiZone® Trusted Firmware is the quick and safe way to build secure IoT applications with any RISC-V processor. It provides secure access to commercial and private IoT clouds, real-time monitoring, secure boot, and remote firmware updates. The built-in Trusted Execution Environment provides hardware-enforced separation ...
multizone-linux
MultiZone® Security Enclave for Linux
multizone-api
MultiZone free and open API definition
multizone-sdk-arm
MultiZone® Security TEE for Arm® Cortex®-M is the quick and safe way to add security and separation to any Cortex-M based device. MultiZone® software can retrofit existing designs. If you don’t have TrustZone®, or if you require finer granularity than one secure world, you can take advantage of high security separation without the need for hardware and software redesign, eliminating the complexity associated with managing a hybrid hardware/software security scheme.
multizone-sdk-andes
MultiZone® Security TEE for Andes N22/AE250 is the quick and safe way to add security and separation to any RISC-V processors. The RISC-V standard ISA doesn't define TrustZone-like primitives to provide hardware separation. To shield critical functionality from untrusted third-party components, MultiZone provides hardware-enforced, software-defined separation of multiple equally secure worlds. Unlike antiquated hypervisor-like solutions, MultiZone is self-contained, presents an extremely small attack surface, and it is policy driven, meaning that no coding is required – and in fact even allowed. MultiZone works with any 32-bit or 64-bit RISC-V processors with standard Physical Memory Protection unit (PMP) and “U” mode.
multizone-sdk-pfsc
MultiZone® Security TEE is the quick and safe way to add security and separation to any RISC-V processors. The RISC-V standard ISA doesn't define TrustZone-like primitives to provide hardware separation. To shield critical functionality from untrusted third-party components, MultiZone provides hardware-enforced, software-defined separation of multiple equally secure worlds. Unlike antiquated hypervisor-like solutions, MultiZone is self-contained, presents an extremely small attack surface, and it is policy driven, meaning that no coding is required – and in fact even allowed. MultiZone works with any 32-bit or 64-bit RISC-V processors with standard Physical Memory Protection unit (PMP) and “U” mode.
multizone-iot-sdk-pfsc
MultiZone® Trusted Firmware is the quick and safe way to build secure IoT applications with any RISC-V processor. It provides secure access to commercial and private IoT clouds, real-time monitoring, secure boot, and remote firmware updates. The built-in Trusted Execution Environment provides hardware-enforced separation to shield the execution of
multizone-sdk-imx8
MultiZone Security SDK for i.MX8