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 their role in improving development efficiency and reducing hardware and software failure risks [1]. Group 1: HAV Technology Overview - HAV technology is essential for SoC system verification, and teams must carefully select HAV tools and methods early in the design process to enhance efficiency and mitigate risks [1]. - 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]. Group 2: Veloce™ CS System Features - Strato CS and Primo CS operate on a unified architecture, sharing the same operating system and applications, which allows for seamless switching and significantly enhances verification efficiency, achieving up to 3 times improvement and reducing total ownership costs by approximately 6 times [3]. - The Veloce proFPGA CS system features a modular design that allows users to customize configurations, ranging from a single FPGA with 80 million gates to a capacity of 14.4 billion gates using 180 FPGAs [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 [6]. Group 4: Engagement and Interaction - The events will feature interactive sessions, customer case studies, and discussions on industry trends, providing opportunities for participants to engage and share insights on cutting-edge hardware-software co-verification strategies [7][9].

Group 1 - The core viewpoint is that EDA (Electronic Design Automation) is a crucial technological pillar for the entire integrated circuit process, characterized by high technology, talent, and ecological barriers, with the global market dominated by three major players: Synopsys, Cadence, and Siemens EDA, which together hold over 70% market share [1] - In response to the U.S. demand for these EDA companies to cut off core tools to China by May 2025, the acceleration of domestic alternatives is expected, with the domestic EDA market's localization rate increasing from 6.24% in 2018 to 11.48% in 2020, and a projected compound annual growth rate (CAGR) of over 14% from 2021 to 2025 [1] - Domestic EDA companies are driving growth through a dual approach of "self-research + mergers and acquisitions," with firms like Huada Jiutian and Kailun Electronics achieving breakthroughs in niche areas supporting 5nm/4nm processes [1] - Policy support and collaboration within the industry chain are facilitating the replacement of EDA tools, with technology evolving towards AI intelligence and cloud-based solutions, leading to continuous expansion of the industry scale [1] Group 2 - The Consumer Electronics ETF (code: 561310) tracks the Consumer Electronics Index (code: 931494), which is compiled by China Securities Index Co., Ltd., selecting listed companies in the A-share market that are involved in the manufacturing and services of consumer electronic products, covering industries such as smartphones, home appliances, and wearable devices [1] - The Consumer Electronics Index reflects the overall performance of the consumer electronics industry in the A-share market, demonstrating significant industry representativeness and growth characteristics [1]