Difference between revisions of "Automotive Whitepapers"

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* [[:File:Co-processor_management_under_xen.pdf|Managing co­processors for Linux PV domains by running a Xen hypervisor on ARM platforms]] by Andrii Tseglytskyi ''2015-01-14, GlobalLogic''
 
* [[:File:Co-processor_management_under_xen.pdf|Managing co­processors for Linux PV domains by running a Xen hypervisor on ARM platforms]] by Andrii Tseglytskyi ''2015-01-14, GlobalLogic''
 
{{Quote|As modern ARM SoCs become faster and faster, they are now capable of performing the same high­load tasks that desktop PCs were performing a few years ago, such as HD video playback and high­speed graphic rendering. The structure of an ARM SoC is also now quite complicated. In addition to containing a CPU module or modules, it also includes several peripheral modules (e.g., UARTs, Wireless, HDMI ports, etc.) and co­processors that are designed to help with high­load tasks like Graphic Processor Unit (GPU) or Video Processor Unit (VPU) are assembled together with the main CPU on almost all modern ARM SoCs that are designed for mobile and automotive markets. The article will cover few aspects of sharing such coprocessors when running Xen on embedded SoC.}}
 
{{Quote|As modern ARM SoCs become faster and faster, they are now capable of performing the same high­load tasks that desktop PCs were performing a few years ago, such as HD video playback and high­speed graphic rendering. The structure of an ARM SoC is also now quite complicated. In addition to containing a CPU module or modules, it also includes several peripheral modules (e.g., UARTs, Wireless, HDMI ports, etc.) and co­processors that are designed to help with high­load tasks like Graphic Processor Unit (GPU) or Video Processor Unit (VPU) are assembled together with the main CPU on almost all modern ARM SoCs that are designed for mobile and automotive markets. The article will cover few aspects of sharing such coprocessors when running Xen on embedded SoC.}}
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[[Category:Embedded and Automotive PV Drivers]]

Revision as of 13:05, 19 January 2015

As modern ARM SoCs become faster and faster, they are now capable of performing the same high­load tasks that desktop PCs were performing a few years ago, such as HD video playback and high­speed graphic rendering. The structure of an ARM SoC is also now quite complicated. In addition to containing a CPU module or modules, it also includes several peripheral modules (e.g., UARTs, Wireless, HDMI ports, etc.) and co­processors that are designed to help with high­load tasks like Graphic Processor Unit (GPU) or Video Processor Unit (VPU) are assembled together with the main CPU on almost all modern ARM SoCs that are designed for mobile and automotive markets. The article will cover few aspects of sharing such coprocessors when running Xen on embedded SoC.