According to the latest report from IC Insights, a well-known market research institution, the total installed capacity of global semiconductors will reach 263.6 million 8-inch equivalent wafers this year, a year-on-year increase of 8.7% and a record high. The increase in semiconductor production capacity this year is mainly due to the new large-scale memory factories of SK Hynix and Winbond, as well as the active expansion of TSMC, including the capacity growth of two advanced 5nm and 3nm processes, and the expansion of 28nm process capacity in Nanjing. TSMC is forecasting capital expenditures of more than $40 billion this year. In the past five years, the annual growth rate of global semiconductor production capacity has increased from 4.0% in 2016 to 8.5% in 2021. Despite inflationary pressures, ongoing supply chain issues and other economic difficulties, semiconductor demand is strong, with shipments set to grow 9.2% year over year this year. Even with 10 new fabs coming into use this year, capacity utilization could reach a high of 93% this year, slightly lower than 93.8% in 2021. The historical statistics of IC Insights show that the growth rate of semiconductor production capacity shows a certain periodicity, with the first negative growth in 2002, and a relatively large negative growth of -6% in 2009; then it entered a boom period, which has continued to this day. The first two negative growths were the end of the dot-com bubble crisis and the global financial crisis. Hecho Technology provides various non-standard Customized Optical Fiber and light sources, such as AOI Line Lights, LDI Laser Direct Imaging Fiber Bundle, wafer cutting, automation and other fields widely used in the semiconductor industry, to help the development of the semiconductor industry.

Optical fibers have wide-ranging applications in biomedical healthcare. Some common applications include: Fiber Optic Spectroscopy: Fiber optic spectroscopy is a technique used to analyze sample information by studying the wavelength and intensity of light signals. Optical fibers are used for transmission and collection of light signals, working in conjunction with spectrometers and other devices to analyze and diagnose biomarkers, chemical composition, and other characteristics of samples. Fiber Optic Sensors: Fiber optic sensors utilize the transmission properties of light to detect and measure physical parameters, chemical substances, and more. These sensors can monitor and measure parameters such as temperature, pH value, pressure in samples, as well as biological parameters like cell growth and metabolic rate, providing accurate diagnostic and monitoring data. Fiber Optic Endoscopy: Fiber optic endoscopy is a medical technique that uses optical fibers to transmit images for observation and diagnosis inside the body. Fiber optic endoscopes are used to inspect and diagnose abnormalities and conditions in organs such as the gastrointestinal tract, respiratory system, providing doctors with visual imagery and diagnostic insights. Optical Coherence Tomography (OCT): OCT is a high-resolution imaging technique that uses measurement of light reflection and scattering to obtain tissue images. Optical fibers can be used as transmission media in OCT devices, enabling real-time observation and diagnosis of abnormalities and conditions in tissue structures such as the retina, skin, blood vessels, and more. Optical fibers play a crucial role in the advancement of biomedical healthcare. With years of experience in specialty optical fiber manufacturing, Nanjing Hecho provides reliable technological solutions to numerous customers in the field of diagnostics and testing, driving progress and innovation in biomedical applications.