Core Insights - The article emphasizes the importance of "Hardware-Assisted Verification" (HAV) and "Shift-Left Verification" strategies in the development of complex System-on-Chip (SoC) systems, highlighting that these approaches are essential for improving development efficiency and reducing hardware and software failure risks [1]. Group 1: HAV Technology Overview - Siemens has launched the Veloce™ CS system, which includes three core platforms: Veloce™ Strato CS (hardware emulation platform), Veloce™ Primo CS (enterprise-level prototyping platform), and Veloce™ proFPGA CS (software prototyping platform) [3]. - Strato CS and Primo CS operate on a highly consistent architecture, sharing the same operating system (Veloce OS) and applications (Veloce Apps), enabling seamless switching between the two and significantly enhancing verification efficiency, with a potential increase of up to 3 times and a reduction in total ownership costs by approximately 6 times [3]. Group 2: Modular Design and Scalability - The Veloce proFPGA CS hardware system features a modular design that allows users to combine various components, ranging from a single FPGA with 80 million gates to a configuration of 180 FPGAs with a total capacity of 14.4 billion gates [4]. - proFPGA CS shares front-end tools and some VirtuaLAB resources with Strato CS and Primo CS, facilitating easy transitions between different platforms for users [4]. Group 3: Upcoming Events and Presentations - A series of HAV technology seminars are scheduled, including sessions on improving SoC and system design verification efficiency using the Veloce CS ecosystem, enhancing hardware prototyping methodologies with proFPGA CS, and accelerating high-performance RISC-V SoC verification [5][6]. - The seminars will also cover the role of Strato CS in supporting efficient hardware-software co-verification for Arm Neoverse CSS and introduce the next-generation virtual platform, Innexis, which empowers SoC design verification [6].

其中Strato CS和Primo CS运行在高度一致 的架构上,共享同一操作系统 (Veloce OS)、 解决方案与应用(Veloce Apps)，这使得 Strato CS 与 Primo CS 能实现无缝切换,大 幅提升验证效率,缩短学习与迁移成本。此 外,这种统一架构还能加速调试与任务部署 ――验证效率提升多达 3倍,总拥有成本可 降低约6倍。 在现代系统复杂性的不断上升的当下,"软 硬件协同验证"与"验证左移"(Shift-Left Verification)已成为推动复杂SoC系统开 发的关键策略。Hardware-Assisted Verification(HAV)技术,尤其是在 SoC 系 统验证中,已成为不可或缺的核心工具。任 何 SoC 开发团队都必须在设计初期就慎重 选择 HAV 工具和方法,以提高开发效率并降 低后期软硬件故障风险。 立即报名 /eloce CS >>>>> =位一体、统一架构的 HAV 方案 西门子最新推出的 Veloce™ CS 系统 包括三大核心平台: | ◆ Veloce™ Strato CS | 硬件仿真平台 | | --- | --- | | ◆ Velo ...

在现代系统复杂性的不断上升的当下,"软 硬件协同验证"与"验证左移"(Shift-Left Verification)已成为推动复杂SoC系统开 发的关键策略。Hardware-Assisted Verification(HAV)技术,尤其是在 SoC 系 统验证中,已成为不可或缺的核心工具。任 何 SoC 开发团队都必须在设计初期就慎重 选择 HAV 工具和方法,以提高开发效率并降 低后期软硬件故障风险。 立即报名 /eloce CS >>>>> =位一体、统一架构的 HAV 方案 西门子最新推出的 Veloce™ CS 系统 包括三大核心平台: | ◆ Veloce™ Strato CS | 硬件仿真平台 | | --- | --- | | ◆ Veloce™ Primo CS | 企业级原型平台 | | ◆ Veloce™ proFPGA CS | 软件原型平台 | 其中Strato CS和Primo CS运行在高度一致 的架构上,共享同一操作系统 (Veloce OS)、 解决方案与应用(Veloce Apps)，这使得 Strato CS 与 Primo CS 能实现无缝切换,大 幅提升验证效率,缩 ...