Jin Rong Jie·2026-01-15 03:13Group 1 - The core issue is the increasing electricity consumption of large AI data centers, which is projected to rise from 200 terawatt-hours (TWh) annually to 640 TWh by 2035, equivalent to Germany's total annual electricity usage [1] - There are over 4,000 large data centers in the U.S., with the potential to triple in number over the next four years, leading to significant strain on the aging electrical grid [1] - In Texas, data center electricity requests exceed 10 gigawatts (GW) monthly, but only about 1 GW is approved, resulting in potential increases in residential electricity costs by 25% in clustered data center areas [1] Group 2 - Tech giants are employing various strategies to address power shortages, such as xAI's establishment of a self-sufficient data center with gas turbines and Tesla batteries, and Google's acquisition of a power generation company for $4.8 billion [2] - Meta is investing in nuclear energy to power its AI supercomputing cluster, aiming for 6.6 GW of power by 2035, while Microsoft claims it will not raise electricity costs due to data centers [2] - Despite commitments to renewable energy, major companies still rely on natural gas and nuclear power, with significant portions of their electricity sourced from these non-renewable resources [2] Group 3 - The industry consensus is shifting towards a hybrid energy model combining solar and wind power with large battery storage, natural gas plants as backup, and nuclear power for long-term stability [3] - There is a surge in energy-related hiring among tech companies, with a 34% increase in recruitment for energy procurement and infrastructure roles, indicating a strategic shift in focus [3] - The competition for electricity has led to a reshaping of the energy sector, with companies like General Electric and Siemens seeing stock price increases, while local economies experience mixed impacts from data center developments [3]