The semiconductor shortage has been a major problem for the global economy for the past two years. However, there are signs that the shortage may be starting to ease. In this post, we will take a look at the latest developments in the semiconductor shortage and discuss what it means for the future.
Artificial intelligence (AI) is rapidly changing the military landscape. AI is being used to develop autonomous weapons systems, improve target identification and tracking, and analyze battlefield data.
The expansion of TSMC to Japan and the US is a major event in the global semiconductor industry. It is a sign of the growing demand for semiconductors, and it is a response to the pressure from governments to reduce reliance on foreign chipmakers.
The BS in Electronics program at IIT Madras covers a wide range of topics, including circuit analysis, digital logic, signal processing, and embedded systems. Students will also have the opportunity to take elective courses in areas such as robotics, artificial intelligence, and machine learning.
The DIR-V program is a major initiative to boost India's semiconductor ecosystem. The program aims to create over 10,000 jobs in the next five years and make India a global leader in RISC-V design and manufacturing. The program will focus on three key areas: research and development, education and training, and industry collaboration.
Germany's largest semiconductor manufacturer, Infineon Technologies AG, has announced a jaw-dropping RM25 billion investment in its semiconductor plant in Kulim, Kedah, Malaysia. This is the single largest investment by a foreign company in Malaysia's history.
The news of ChatGPT using NVIDIA GPUs was seen as a validation of NVIDIA's position as a leader in the AI chip market. ChatGPT is one of the most advanced LLMs in the world, and its use of NVIDIA GPUs showed that NVIDIA's chips were capable of handling the complex calculations required to train and run LLMs.
Diamond semiconductors are a promising new class of materials with a wide range of potential applications. However, the difficulty of slicing diamonds into thin wafers has limited their commercialization.
TSMC's expansion into the United States has been a slow and bumpy process. This post provides a timeline of the controversies and delays that have occurred along the way, as well as some of the potential benefits and drawbacks of the company's plans.
The program will be offered online and will cover a range of topics, including chip design and fabrication, advanced packaging, semiconductor materials, and embedded system design.
