Dr. Yuping Huang from Quantum Computing Inc. announced that the company will attend the Lake Street Capital Markets 9th Annual Best Ideas Growth (Big9) Conference on 11 September at the Yale Club in New York City, while also highlighting its focus on accessible and affordable quantum machines and foundry services for the production of photonic chips based on thin‑film lithium niobate (TFLN). These chips operate at room temperature, consume low power, and are priced competitively, positioning Quantum Computing Inc. to deliver high‑performance computing, artificial intelligence, cybersecurity, and remote sensing solutions through its core technologies.
Dr. Yuping Huang, Interim CEO of Quantum Computing Inc. (Nasdaq: QUBT), and Chris Roberts, CFO, will attend the Lake Street Capital Markets 9th Annual Best Ideas Growth (Big9) Conference on 11 September 2025 at the Yale Club, New York City, where they will meet investors and industry partners. The company will showcase its affordable photonic chips fabricated on thin‑film lithium niobate (TFLN) substrates, highlighting that its quantum machines and foundry services are accessible, cost‑effective, consume low power, and are competitively priced relative to other photonic platforms. The presentation will emphasise TFLN’s large electro‑optic coefficient and low propagation loss, which enable high‑speed, low‑energy quantum and classical workloads and demonstrate the firm’s commitment to commercial viability.
Quantum Computing Inc. positions its TFLN photonics platform as a cornerstone for next‑generation low‑power, room‑temperature quantum devices, offering a dedicated foundry that operates at ambient temperature and draws a fraction of the power required by conventional cryogenic systems. This eliminates bulky cryogenic infrastructure, reducing capital and operational costs, and the efficient optical modulation enabled by TFLN lowers the overall power budget, making the technology attractive for mobile and edge‑computing scenarios. QCi’s affordability is expected to accelerate adoption across high‑growth sectors such as high‑performance computing, AI, cybersecurity, and remote sensing, with photonic chips serving as a common substrate for both classical and quantum workloads. The foundry’s rapid prototyping and mass‑production capabilities lower the barrier to entry for start‑ups and established firms, potentially reshaping the competitive landscape of integrated photonics. As a Nasdaq‑listed entity, QCi’s emphasis on scalable, low‑energy quantum technologies aligns with market expectations, and the company envisions quantum‑enabled photonic devices becoming as ubiquitous and cost‑effective as silicon‑based electronics, signalling a significant shift in the trajectory of both quantum and classical computing industries.