Chinese telecom giant Huawei announced Monday a new way of designing chips that improves their capabilities, despite U.S.

By Che Pan, Eduardo Baptista and Casey Hall SHANGHAI/BEIJING, May 25 (Reuters) - Huawei Technologies said on Monday it will ...

Huawei Technologies Co. said it has come up with a new pathway to shorten its gap with industry leader Taiwan Semiconductor ...

SHANGHAI—Huawei Technologies said it has developed a workaround that will allow it to make chips on par with leading products manufactured by Intel and other top global companies by 2031, the latest ...

Huawei Technologies said that its high-end chips will have transistor density equivalent to 1.4-nanometer processes by 2031, marking China's efforts ‌to overcome U.S. sanctions that have made it ...

By Che Pan and Eduardo Baptista SHANGHAI/BEIJING, May 25 (Reuters) - When He Tingbo was put in charge of Huawei's chip development in 2003, the young engineer was handed an annual budget of $400 ...

Huawei has announced a major semiconductor research breakthrough involving a new “LogicFolding” chip architecture, which the company says could eventually enable transistor densities comparable to ...

He Tingbo used a Shanghai keynote to argue that cutting signal-propagation time, not shrinking transistors, is the new frontier, and that Huawei has been quietly building chips around the idea for six ...

Huawei Technologies Co expects its premium chips to achieve transistor density equivalent to 1.4-nanometer processes by 2031 under a new semiconductor development framework, the company announced on ...

Huawei targets 1.4nm-equivalent chips by 2031 with its Tau Scaling Law and LogicFolding architecture, despite U.S.

SHANGHAI - Chinese tech giant Huawei said on Monday it had developed a new way of making semiconductors that could get around its US-enforced lack of access to the most advanced chipmaking equipment.

Huawei is proposing a new way to keep the semiconductor industry moving forward at a time when making smaller and smaller chips is becoming increasingly difficult. At the International Circuit Systems ...