BitcoinWorld Revolutionary: Freeform’s $67M Series B Fuels AI-Powered Laser Manufacturing Breakthrough In a significant development for advanced manufacturing, Freeform has secured $67 million in Series B funding to accelerate its groundbreaking AI-driven laser 3D printing technology. The Los Angeles-based startup, founded by former SpaceX engineers, announced the investment on October 13, 2025, marking a major milestone in the evolution of digital manufacturing capabilities. This substantial capital infusion positions Freeform to transform how industries produce metal components at scale, potentially revolutionizing sectors from aerospace to automotive manufacturing. Freeform’s Series B Funding and Strategic Vision The $67 million Series B round represents a crucial validation of Freeform’s innovative approach to metal additive manufacturing. Investors in this funding round include prominent venture capital firms such as Founders Fund, AE Ventures, and NVidia’s NVentures arm. Additionally, Threshold Ventures, Two Sigma Ventures, Linse Capital, and Apandion participated in the financing. While Freeform declined to disclose its post-financing valuation, industry data platform Pitchbook cites the company’s valuation at approximately $179 million. CEO and cofounder Erik Palitsch explained the strategic importance of this funding during an exclusive interview. “This capital enables us to transition from our current GoldenEye printing system to our next-generation Skyfall platform,” Palitsch stated. The GoldenEye system currently employs 18 lasers to fuse metal powders into precision components. However, the Skyfall iteration will utilize hundreds of lasers, dramatically increasing production capacity to thousands of kilograms of metal parts daily. The Manufacturing Technology Revolution Freeform’s technology represents a fundamental shift in how manufacturers approach metal component production. Traditional industrial machines for printing metal components have historically faced significant limitations. These systems typically prove expensive, require extensive calibration, and struggle with mass manufacturing requirements. Freeform’s founders identified these challenges firsthand while developing rocket engines at SpaceX, where they experienced the constraints of existing manufacturing technologies. The company’s platform addresses these limitations through several innovative approaches: Multi-laser architecture: Unlike conventional single-laser systems, Freeform’s technology employs multiple lasers working in concert AI-native design: The system integrates artificial intelligence throughout the manufacturing workflow Real-time simulation: Advanced physics-based simulations optimize production parameters continuously Sensor integration: Comprehensive data collection enables rapid process improvement From SpaceX Roots to Manufacturing Innovation Freeform’s origins trace back to 2018 when co-founders Erik Palitsch and Thomas Ronacher identified a critical gap in manufacturing technology. Their experience at SpaceX revealed how existing metal 3D printing systems failed to meet the demands of high-volume production. Consequently, they established Freeform with a clear mission: to build a manufacturing platform from the ground up that prioritizes throughput, flexibility, and intelligent software controls. “We recognized that manufacturing needed the same rapid iteration capabilities that software development enjoys,” Palitsch explained. This insight drove their development of what they term an “AI-native” manufacturing platform. The company’s partnership with NVIDIA provides access to advanced GPU clusters, including H200 systems installed directly within Freeform’s manufacturing facilities. AI Integration and Data Advantage Freeform’s distinctive approach centers on deep artificial intelligence integration throughout its manufacturing process. The company operates what Palitsch describes as “the only manufacturing company with H200 clusters in a data center on site.” These powerful computing resources enable real-time physics-based simulations that continuously optimize the entire manufacturing workflow. Cameron Kay, Freeform’s head of talent, emphasized their data advantage: “We have more meaningful data on the physics of the metal-printing process than any company in the world.” This extensive data collection occurs through sensors embedded throughout their manufacturing platform and during simulation processes. Consequently, Freeform can rapidly improve both production quality and quantity through machine learning algorithms. The table below illustrates Freeform’s technological evolution: System Laser Count Production Capacity Key Features GoldenEye (Current) 18 lasers Prototype scale Foundation for AI integration Skyfall (Next-gen) Hundreds of lasers Thousands of kg/day Mass production capability Market Context and Competitive Landscape Freeform operates within the rapidly expanding manufacturing-as-a-service (MaaS) category. Venture investors have increasingly focused on this sector as they recognize the growing importance of advanced manufacturing for emerging technologies. The category includes companies building vehicles, robots, and energy production systems that require sophisticated manufacturing capabilities. Several notable companies have emerged as competitors or parallel innovators in metal additive manufacturing: Hadrian: Recently achieved a $1.6 billion valuation for automated defense manufacturing VulcanForms: Has raised hundreds of millions for metal-printing services Divergent: Another significant player in advanced manufacturing technologies Despite this competitive landscape, Freeform distinguishes itself through its intensive AI integration and multi-laser architecture. The company has already begun delivering “mission-critical” parts to customers, though specific client names remain confidential. Currently, Freeform plans to expand its workforce by approximately 100 employees and enlarge its manufacturing facility to address its growing contract backlog. The Broader Manufacturing Transformation Freeform’s progress reflects a broader transformation occurring across the manufacturing sector. Traditional manufacturing methods increasingly struggle to meet demands for customization, speed, and complexity. Meanwhile, digital manufacturing technologies promise to address these challenges through software-driven approaches. This shift mirrors earlier transformations in industries like publishing and entertainment, where digital technologies disrupted established production methods. The manufacturing sector’s evolution follows a clear trajectory toward greater automation, data integration, and flexibility. Companies like Freeform represent the vanguard of this transformation, developing technologies that could fundamentally reshape how physical goods are designed and produced. Their approach potentially enables manufacturers to respond more rapidly to market changes, customize products more easily, and reduce waste through optimized production processes. Future Implications and Industry Impact Freeform’s technology development carries significant implications for multiple industries. The aerospace sector, where the founders gained their initial experience, stands to benefit substantially from improved manufacturing capabilities. Similarly, automotive, medical device, and energy industries could experience transformation through more efficient component production. The ability to manufacture thousands of kilograms of precision metal parts daily could disrupt traditional supply chains and production methods. The company’s expansion plans indicate confidence in market demand for their technology. With the Series B funding secured, Freeform can accelerate development of its Skyfall platform while scaling its operations to meet customer needs. This progression from prototype-scale production to mass manufacturing capability represents a critical milestone for the company and the broader additive manufacturing industry. Conclusion Freeform’s $67 million Series B funding represents a pivotal moment in advanced manufacturing technology development. The company’s AI-powered laser 3D printing approach addresses fundamental limitations in traditional metal additive manufacturing. Through its innovative multi-laser architecture, real-time simulations, and comprehensive data collection, Freeform aims to make manufacturing as iterative and responsive as software development. As the company transitions from its GoldenEye system to the Skyfall platform, it moves closer to realizing its vision of mass-producing precision metal components with unprecedented speed and flexibility. This technological advancement could ultimately transform how industries approach manufacturing, potentially reshaping global production capabilities across multiple sectors. FAQs Q1: What is Freeform’s core technology? Freeform develops AI-powered laser 3D printing systems for metal components. Their technology uses multiple lasers working in concert, integrated with artificial intelligence that optimizes the manufacturing process through real-time simulations and data analysis. Q2: How much funding did Freeform raise in its Series B round? The company raised $67 million in Series B funding from investors including Founders Fund, NVidia’s NVentures, AE Ventures, Threshold Ventures, Two Sigma Ventures, Linse Capital, and Apandion. Q3: What distinguishes Freeform from other metal 3D printing companies? Freeform’s distinctive approach includes its multi-laser architecture, deep AI integration throughout the manufacturing workflow, on-site H200 GPU clusters for real-time simulation, and a focus on mass production rather than just prototyping. Q4: What are Freeform’s current and future manufacturing systems? The company currently operates its GoldenEye system with 18 lasers, while developing its next-generation Skyfall platform that will utilize hundreds of lasers to produce thousands of kilograms of metal parts daily. Q5: What industries could benefit from Freeform’s technology? Multiple industries stand to benefit, including aerospace (where the founders previously worked at SpaceX), automotive, medical devices, defense, and energy production. Any sector requiring precision metal components at scale could potentially utilize Freeform’s manufacturing capabilities. This post Revolutionary: Freeform’s $67M Series B Fuels AI-Powered Laser Manufacturing Breakthrough first appeared on BitcoinWorld .