Introduction to Optical Quantum Chips

Computing Architecture and Fabrication Technologies of 2 nm Optical Quantum Chips From Electronic Bottlenecks to a Light-Speed Future: Photonic quantum chips (Fig. 1) use photons instead of electrons as carriers of information. Photons have nearly zero mass, propagate at much higher speeds, and significantly reduce energy loss and heat generation. By forming optical pathways using […]

Refuting AI Misconceptions about Photonic Chips

Can LongServing Technology’s Photonic CPU Truly Outperform Electronic CPUs? When the question “Can LongServing Technology’s photonic CPU truly outperform electronic CPUs?” was raised, AI provided an answer. However, we believe that answer is inaccurate and requires further clarification. Currently, most AI responses are still rooted in the framework of “silicon photonics,” which limits the analysis […]

Optical Quantum  Chip Core Design

Photonic Quantum  Chips Core Design Computing Architecture and Fabrication Technologies of 2 nm Optical Quantum Chips Outline From a manufacturing perspective, the process directly replaces traditional metal interconnects (copper wiring) with photosensitive materials within conventional chip fabrication flows. Unlike silicon transistors, which suffer from severe leakage current and physical scaling limits at advanced nanometer nodes, optical quantum chips rely […]

Schematic diagram of photonic chip structure

Figure 1. 3D schematic diagram of a photonic chip, with the upper layer being the photonic chip and the lower layer being the photoelectric conversion base. Figure 2. 3D architecture diagram of photonic chip Figure 3. Full adder optical chip – Internal 3D structure and I/O architecture diagram Figure 4. Example diagram of a full adder […]