Researchers led by Dr. Changmin Ahn and Prof. Jungwon Kim at KAIST, in collaboration with Prof. Hansuek Lee, have demonstrated a chip-scale photonic approach for generating ultralow-noise and highly ...

Understanding how near-zero latency, deterministic timing and smart network design redefine the way everything from robots to ...

Researchers use microcomb-based photonic chips to generate ultralow-noise microwave and millimeter-wave signals with record ...

Traditional simulations lack an understanding of clocking requirements and cannot handle the complete clock network of a ...

Diodes Incorporated (NasdaqGS:DIOD) has introduced the PI3EQX32904Q automotive ReDriver, targeting high-speed data links in AI-focused vehicles. The company has also released the PI6CG33A06 ultra-low ...

Researchers at KAIST have demonstrated a chip-scale photonic approach for generating ultralow-noise and highly stable microwave and millimeter-wave ...

In practice, projects rarely fail because a high-speed core fails in isolation; they fail when foundational I/O interfaces—such as LVDS—are taken for granted and become vulnerable to the parasitic ...

AI servers and data centers may soon run faster & more efficiently with a new timing technology designed for high-speed computing.

Diodes Incorporated (Diodes) (Nasdaq: DIOD) introduces the PI6CG33A06, a six-output, ultra-low jitter clock generator designed to meet the demands of PCI Express® (PCIe®) 7.0 specification while ...

Researchers at KAIST have demonstrated a chip-scale photonic approach for generating ultralow-noise and highly stable ...

Diodes has introduced a new clock generator designed to support next-generation PCI Express (PCIe) 7.0 systems, targeting ...