SixSense Secures $8.5M to Revolutionize Semiconductor Production with AI

August 2, 2025, 9:34 am
GLOBALFOUNDRIES
GLOBALFOUNDRIES
DesignDevelopmentFinTechIndustryInformationManufacturingProductServiceTechnology
Location: United States, California, Santa Clara
Employees: 10001+
Founded date: 2009
SixSense
SixSense
AIAutomationDeepTechManufacturingSemiconductor
Location: Singapore
Employees: 11-50
Founded date: 2018
Total raised: $8.5M
Deep tech startup SixSense secured $8.5 million in a new funding round. Its advanced AI platform transforms semiconductor manufacturing. The system leverages real-time production data, preventing costly chip defects and improving overall efficiency. It moves factories from reactive inspections to proactive process control. This results in faster production cycles, improved chip yields, and drastically reduced manual effort. SixSense technology identifies even minute flaws, ensuring higher quality output. The fresh capital targets strategic expansion into vital semiconductor markets including the US, Taiwan, and Malaysia. It also funds deeper partnerships and crucial research for comprehensive, AI-driven decision-making across entire production lines. This investment marks a significant step in AI's role in complex global chip fabrication.

The global semiconductor industry drives modern technology. Chip manufacturing demands extreme precision. It occurs in environments thousands of times cleaner than surgical rooms. Hundreds of machines collaborate in intricate sequences. Thousands of ultra-sensitive steps define each production run. A single microscopic flaw can compromise an entire batch. Such defects lead to massive losses. Manufacturers constantly seek ways to boost efficiency. They aim to reduce costly errors. Real-time intelligence from vast production data is essential.

Semiconductor factories generate immense data streams. Defect images and equipment signals accumulate continuously. Much of this critical information remains underutilized. This creates a significant challenge. Factories struggle to spot early signs of failure. Issues often escalate into major defects or delays. Traditional quality control methods are reactive. They inspect products after defects occur. This approach is inefficient and expensive. A proactive strategy is desperately needed. It would identify problems before they spiral out of control.

SixSense offers a powerful solution. The Singapore-based deep tech startup developed an AI-powered platform. This system processes raw production data. It transforms data into actionable, real-time insights. The platform analyzes defect images. It interprets equipment signals. Its core function is to identify and predict defects. This capability prevents quality issues. It improves throughput. It increases the yield of functional chips.

The SixSense platform marks a paradigm shift. It moves semiconductor plants from reactive inspection to proactive process control. The AI can detect small, rare, and critical defects. Human inspectors often overlook these subtle flaws. The system also reduces the rejection of functional chips. It anticipates process drifts. This prevents minor deviations from escalating into major failures. Early detection saves significant resources. It ensures higher product quality.

SixSense's technology boasts key differentiators. The platform is hardware agnostic. It integrates seamlessly with existing factory equipment. It is also explainable. Engineers understand its decisions. This fosters trust in the AI system. Crucially, it is built for process engineers, not data scientists. Engineers can fine-tune models directly. They use their own fab data. Deployment takes less than two days. No coding knowledge is required. This ease of use empowers factory teams. It accelerates AI adoption within manufacturing.

The platform's impact is already substantial. Major semiconductor manufacturers utilize SixSense technology. This includes industry leaders like GlobalFoundries and JCET. Customers have processed over 100 million chips using the platform. Reported improvements are impressive. Production cycles accelerate by up to 30 percent. Chip yield improves by one to two percent. Manual effort drops by over 90 percent. These metrics demonstrate significant operational gains. They highlight the AI's value in a high-stakes industry. The platform's compatibility is broad. It works with inspection equipment covering over 60 percent of the market.

SixSense recently secured $8.5 million in funding. Peak XV's Surge led the investment round. Alpha Intelligence Capital and Febe also participated. This capital injection fuels SixSense's ambitious expansion plans. The company targets key semiconductor manufacturing hubs. These include Malaysia, Taiwan, and the United States. Expanding into these regions strengthens its global footprint. It enhances service to a wider client base.

A portion of the funding will strengthen partnerships. SixSense aims to deepen collaborations with AI-focused inspection equipment manufacturers. This improves on-site integration. It ensures the platform works seamlessly within complex factory ecosystems. Investment will also target advanced research and development. The focus shifts towards holistic intelligence layers. The goal is factory-wide, AI-driven decision-making. This means moving beyond isolated inspection tools. The vision is line-level intelligence. Multiple machines will share data. AI will coordinate their efforts in real-time. This holistic approach promises unparalleled efficiency.

The future of semiconductor manufacturing depends on advanced AI. SixSense is at the forefront of this evolution. Its platform addresses critical industry challenges. It enhances chip quality. It boosts production efficiency. It strengthens global supply chains. The investment signifies confidence in SixSense's technology. It underscores AI's growing importance in industrial applications. As chips become more vital, precision manufacturing becomes paramount. SixSense provides the intelligence layer for the modern fab. It builds the foundation for tomorrow's complex technologies. This innovation will shape the future of high-tech production.