Front End | News
C-suite roles in corporate America, a number that has remained unchanged for the second consecutive year. In tech, women earn around 84 cents for every dollar earned by men, which amounts to an annual gap of roughly $15,000. Women represent 26.7% of the global tech workforce, while all-female founding teams received 2.3% of venture capital funding.
The report also points to areas where progress is visible. One of the studies included in Lead Forward found that women now hold 49% of CFO roles globally, reflecting a significant year-on-year increase. Representation has also improved in some technical and AI-related skill categories. At the same time, women remain underrepresented in senior executive roles, retention challenges
in tech continue, and funding outcomes remain uneven.
Looking ahead
For WE United, Lead Forward extends the organisation’s wider work across mentorship, leadership development, community building, and its two annual Leadership Summits. The report adds a data-led dimension to that
work and is intended to become an annual benchmark for tracking how leadership and workforce trends evolve across the technology sector.
The inaugural Lead Forward report is now available through WE United here:
https://weunited.tech/wp-content/ uploads/2026/03/
Forward-March.html
Cumulative physical AI device shipments to reach 145 million units by 2035
T
he global Physical AI market is entering a rapid growth phase as advances in robotics, edge computing, generative AI, vision technologies and sensor technologies increasingly enable machines to interact intelligently with the real world. Cumulative Physical AI device shipments, including for vehicles, robots and drones, will reach 145 million units during 2025-2035, according to Counterpoint Research’s latest Global Physical AI Market Tracker report (https://
counterpointresearch.com/en/reports/ Global-Physical-AI-Device-Market- Tracker-2025).
Talking about the AI market landscape, principal analyst Soumen Mandal said: “Physical AI represents the next major evolution of AI. While the first AI wave focused on digital intelligence – software that understands text, images and data, the next wave brings AI into the physical world, allowing machines to perceive their surroundings and interact autonomously.” Counterpoint’s Physical AI research covers multiple types of autonomous systems embodying spatial sensor-backed AI blended with a digital world. This includes self-driving vehicles, robots, drones and eventually newer form factors such as cameras. Within robotics, the service, industrial and humanoid segments will make up the bulk of the autonomous systems with embodied AI. Service robots will account for the largest shipment volumes in the robotics segment, driven by expanding use cases across logistics, warehouses, hospitality, healthcare, cleaning, security and agriculture. Industrial robots, which currently have more limited deployment, largely concentrated in automotive, electronics and heavy machinery industries, where high system costs and complexity restrict volumes, will see wider adoption driven by broader applications, improving scale, lower costs, and easier deployment models.
www.cieonline.co.uk
While still in the early stages of development, humanoid robots are gaining momentum as companies develop machines capable of performing complex human-like tasks across factories, warehouses and service environments. According to the report, AGIBOT tops the global list of vendors with the highest number of annual humanoid robot installations, followed by Unitree, UBITECH, Leju and Tesla. The humanoid robot segment is expected to be the fastest-growing category in terms of shipments, with cumulative installations of humanoid robots projected to exceed 100,000 units by 2028, growing 7x compared to 2025. Research vice president Neil Shah said: “Humanoid robots represent one of the most exciting long-term opportunities within Physical AI. Advances in generative AI, computer vision systems and motion control are bringing us closer to general- purpose robots that can operate in human environments. While there are advancements in the ‘form’, the ‘mind’ is something that is ripe for innovation. The industry has to cross the chasm from AMI (Autonomous Machine Intelligence) to embodied AGI (Artificial General Intelligence).”
Shah added: “We are closely monitoring the components, whether semiconductors, sensing or software, going into these robots. The rise of Vision-Language Models and Vision-Action Models unifies multimodal perception, language understanding and reasoning, and executable control within a single sequence modelling framework, which will be a critical inflection point. Although commercialization will take time, the long- term impact will be transformational across multiple industries.”
The report added that autonomous vehicles (L4 and above) are expected to see slower volumes initially, but the expansion of robotaxis and autonomous personal vehicles could significantly scale adoption over time, making this segment the largest revenue
contributor from the OEM perspective. Commercial drones (excluding consumer and defence drones) are also expected to see strong cumulative shipment growth due to their relatively lower ASPs and increasingly clear regulatory frameworks in major markets.
Commenting on autonomous vehicles, research vice president Peter Richardson said: “Autonomous vehicles are the foundational layer for the current Physical AI transition, and there are lots of similarities between today’s humanoid robot development and autonomous vehicles. However, autonomous vehicles will remain the most value-driven segment fuelled by advanced autonomy, computing, AI capabilities and real-time connectivity.” Richardson added: “Drones are emerging as the earliest large-scale deployment of Physical AI, with rapid adoption across logistics, surveillance and enterprise use cases driving high-volume growth.” According to the report, as Physical AI systems gain more features and deeper real- world integration, mechanical component costs are likely to decline over time due to scale and maturity. However, the growing need for advanced computing capabilities will drive higher demand for compute and semiconductors, increasing their share of the overall system cost. The approach to this market varies across compute players. Counterpoint’s research explains
that NVIDIA is targeting the Physical AI market with a data centre-to-edge strategy, leveraging its strengths in AI training, simulation, and high-performance compute platforms for robotics and autonomous machines. Qualcomm, meanwhile, is pursuing an ecosystem-first, power-efficient edge AI approach, focusing on integrated AI compute and connectivity platforms for robots, drones and other autonomous systems operating at the edge.
Commenting on opportunities for ecosystem players, research director Marc Einstein said: “Physical AI will create opportunities across the broader ecosystem. Beyond device makers, compute players will benefit by powering the ‘brains’ of these systems. Telecom operators will gain from increased data traffic, connectivity and edge services. Meanwhile, software and services providers will see recurring revenue opportunities through data analytics, lifecycle management, fleet services and cloud infrastructure.”
The report concluded that as Physical AI systems scale across industries, collaboration across the OEM, semiconductor, connectivity and software ecosystems will be critical to unlock their full potential. Companies that can build strong platforms and partnerships across the value chain will be best positioned to capture this emerging opportunity.
https://counterpointresearch.com/en Components in Electronics April 2026 9
Page 1 |
Page 2 |
Page 3 |
Page 4 |
Page 5 |
Page 6 |
Page 7 |
Page 8 |
Page 9 |
Page 10 |
Page 11 |
Page 12 |
Page 13 |
Page 14 |
Page 15 |
Page 16 |
Page 17 |
Page 18 |
Page 19 |
Page 20 |
Page 21 |
Page 22 |
Page 23 |
Page 24 |
Page 25 |
Page 26 |
Page 27 |
Page 28 |
Page 29 |
Page 30 |
Page 31 |
Page 32 |
Page 33 |
Page 34 |
Page 35 |
Page 36 |
Page 37 |
Page 38 |
Page 39 |
Page 40 |
Page 41 |
Page 42 |
Page 43 |
Page 44
