The Trump administration has asked gaming companies to provide information about their data-security protocols.
The Trump administration has asked gaming companies to provide information about their data-security protocols involving Chinese technology giant Tencent Holdings, people familiar with the matter said.
The Committee on Foreign Investment in the US (CFIUS), which is chaired by the Treasury Department, has sent letters to companies, including Epic Games, Riot Games and others, to inquire about their security protocols in handling Americans’ personal data, said the people, who asked not to be named because the discussions are private.
Tencent, the world’s largest gaming company, owns Los Angeles-based Riot and has a 40 per cent stake in Epic, which is the maker of the popular video game Fortnite. Representatives for the companies declined to comment or didn’t immediately respond.
The Treasury Department declined to comment. Tencent’s American Depositary Receipts fell 2.4 per cent to US$66.66 after the report.
CFIUS investigates foreign acquisitions of American businesses for national security risks. It has authority to examine full acquisitions as well as non-controlling investments and recommend that the president block or unwind deals. It can also scrutinise deals that were not voluntarily reported.
Congress in 2018 increased the committee’s jurisdiction to review transactions by foreign companies retroactively for non-
controlling investments if the companies involved maintain or collect sensitive personal data of US citizens.
The latest move is part of heightened scrutiny on Chinese companies and their ties to US firms by the Trump administration.
In August, President Donald Trump ordered a ban on Tencent’s WeChat app. The scope of those restrictions are expected to be announced by the Commerce Department around September 20.
Trump has escalated his fight with Beijing in recent months as the November presidential elections approach and has blamed China for the Covid-19 pandemic.
The article is originally published at SCMP