中瓴智行自主研發的RAITE Hypervisor是基于微內核的高性能強實時Type-1型Hypervisor,可同時運行Linux、Android、FreeRTOS等多個虛擬機系統,可實現CPU、內存、外設等硬件資源在操作系統間的有效隔離。基于Hypervisor系統,可搭建標準化、模塊化的基礎軟件平臺,滿足智能汽車,軌道交通等領域智能設備對多操作系統的系統信息安全和功能安全融合需求。 RAITE Hypervisor independently developed by Zlingsmart is a high-performance, strong real-time Type-1 Hypervisor based on micro kernel. It can simultaneously run multiple virtual machine systems such as Linux, Android, and FreeRTOS, achieving effective isolation of hardware resources such as CPU, memory, and peripherals among operating systems. Based on the Hypervisor system, a standardized and modular fundamental software (the general term of operating systems, databases, middleware, etc.) platform can be built to meet the integration requirements of system information security and functional safety in multiple operating systems for intelligent devices in fields such as intelligent automobiles and rail transit. | ||
RAITE Industrial Grade Linux使您能夠構建和部署健壯、可靠和安全的基于Linux的工業智能設備,減少操作系統開發帶來的相關風險。RAITE Industrial Grade Linux持續保持代碼庫的最新狀態,跟蹤并修復缺陷,應用安全補丁,遵守嚴格的市場規范和認證,滿足您的知識產權和出口合規性要求,并顯著降低開發和量產成本。 RAITE Industrial Grade Linux enables you to build and deploy robust, reliable, and secure Linux-based industrial intelligent devices, reducing the related risks of operating system development. RAITE Industrial Grade Linux keeps the code repository up-to-date, tracks and fixes defects, applies security patches, complies with strict market standards and certifications, meets your intellectual property and compliance requirements, and significantly reduces costs of development and mass production. | ||
中瓴智行自主研發的實時操作系統從軟件生態、可靠性、安全性、關鍵性能等關鍵需求出發,內核使用微內核軟件架構產品方案,從架構上滿足自動駕駛等智能工業裝備場景的關鍵需求。在軟件生態上利用嵌入式Hypervisor引入成熟的應用軟件生態并兼容硬件設備驅動生態環境,保障自動駕駛控制器所需的AI等上層應用生態、芯片及外設廠家等底層軟件生態。 Zlingsmart's self-developed real-time operating system based on customers’ key requirements including software ecology, reliability, security, and critical performance. Using micro-kernel software architecture product and solution to meet key requirements for intelligent industrial equipment scenarios such as autonomous driving at the architectural level. In terms of software ecology, embedded hypervisor is used to introduce a mature application software ecosystem and is compatible with hardware devices to drive the ecosystem, to ensure the upper-layer application ecology such as AI required by autonomous driving controller, as well as the underlying software ecology of chip and peripheral manufacturers.
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芯片OS和驅動定制服務 Chip OS Adaption and Driver Customization Services 嵌入式虛擬化技術 Embedded Virtualization Technology GPU虛擬化技術 GPU Virtualization Technology 操作系統定制與優化服務 Operating System Customization and Optimization Services 快速啟動 Fast Startup |