Xen is a type-1 Hypervisor defined, maintained and provided to the open source community by the Xen Project. Xilinx actively contributes code to the Xen Project to provide Zynq UltraScale+ MPSoC platform support as well as key enhancements which benefit Xilinx customer use-cases.
Xen allows multiple instances of operating system(s) or bare-metal applications to execute on Zynq UltraScale+ MPSoC. Additional information on the Xen hypervisor can be found at the Xen Project Getting Started page.
Xilinx provides within the PetaLinux Tools and also in our Git tree, core elements and example designs to enable usage of Linux + bare-metal system configurations across the processing cores of Zynq UltraScale+ MPSoC. Key components of these example designs are described below in order to assist our customers to configure, build and deploy these basic configurations and to also identify current functionality gaps which may need to be further addressed within the customer's final system architecture.
One Linux DomU + two Bare-Metal Applications
Linux Dom0 with custom apps + three Bare-Metal Applications
Two Linux DomU + one Bare-Metal Application
Three Linux DomU
Using Advanced Xen Topologies
AMD-Xilinx devices support advanced features on Arm platforms that provide additional performance benefits. The table below lists important system features and the first Xilinx Xen release that makes them available.
First Xen release
Dom0less functionality allows Xen to immediately start up one or more DomU's based on a devicetree-based system topology description. This feature allows Xen-based systems to boot more rapidly and predictably than Dom0-based systems.
Cache Coloring functionality maps hardware cache lines to specific Xen DomU's to prevent cache and memory thrashing. This feature allows Xen-based systems, particularly those sensitive to interrupt latency and bare-metal performance, to operate more efficiently.
Additional Commercial Support and Professional Services
Xilinx recommends our Premier Partner: DornerWorks to customers seeking support beyond the example designs described above. DornerWorks has worked with customers to solve complex system problems including new OS support, frontend drivers, performance optimization, DMA accesses, and inter-OS communications.