Tesla(US:TSLA) 半导体行业观察·2025-07-30 02:18Core Viewpoint - Tesla's dominance in the intelligent driving sector is attributed to its continuous evolution of self-developed driving chips, which have become a key force in reshaping the industry landscape [1][54]. Group 1: Tesla's Early Development and Partnerships - In 2014, Tesla began its journey into intelligent driving by collaborating with Mobileye, utilizing the EyeQ3 chip for its Autopilot 1.0 system [3][6]. - The initial hardware platform HW1.0 was limited by Mobileye's black-box solutions, which restricted Tesla's ability to customize algorithms and utilize data effectively [8][9]. Group 2: Transition to NVIDIA and HW2.0 - After ending its partnership with Mobileye in 2016, Tesla partnered with NVIDIA to develop the HW2.0 system, significantly increasing processing power from 0.256 TOPS to 12 TOPS [10][11]. - HW2.0 featured a "vision-first" approach, utilizing multiple cameras to create a 360-degree view, enhancing the vehicle's environmental perception [14][15]. Group 3: Advancements with HW3.0 and Self-Development - In 2019, Tesla launched the HW3.0 platform with its self-developed Full Self-Driving (FSD) chip, achieving a processing power of 144 TOPS, marking a significant leap in capabilities [21][23]. - The FSD chip's architecture allowed Tesla to optimize chip design according to its algorithm needs, facilitating rapid iterations of intelligent driving features [25][49]. Group 4: HW4.0 and Enhanced Scene Adaptation - The HW4.0 system, introduced in 2023, aimed to address the limitations of HW3.0 in complex urban environments, featuring a new FSD chip with over three times the processing power [30][31]. - HW4.0 reintroduced millimeter-wave radar to improve safety and reliability, enhancing the system's ability to handle diverse driving scenarios [33][34]. Group 5: Future Developments with AI5 and HW5.0 - Tesla's next-generation AI5 chip, expected to achieve 2000-2500 TOPS, is set to redefine the standards for intelligent driving technology [42][46]. - The HW5.0 system is anticipated to begin small-scale deliveries in mid-2025, with plans for mass production in 2026, further solidifying Tesla's leadership in the autonomous driving market [43][46]. Group 6: Synergy with Shanghai Factory - The Shanghai factory plays a crucial role in Tesla's self-developed chip strategy, providing a cost-effective production environment that supports rapid technological iterations [48][50]. - The factory's high localization rate and production efficiency have significantly reduced costs, allowing Tesla to invest more in R&D for intelligent driving technologies [49][52].