Wednesday , June 23 2021

Intel allegedly marks the CPU & # 39; 10-core "Comet Lake S"



Intel allegedly marks the CPU & # 39; 10-core

Intel allegedly marks the CPU & # 39; 10-core "Comet Lake S"

chipmakers Intel allegedly developing consumer CPU & # 39; 10 key points in the so-called family & # 39; Comet Lake S & # 39 ;.

That's according to a post on the Taiwan forum, claiming that chip & # 39; 10-core under the family Comet S Lake was mentioned during the meeting partners.

The chips & # 39; the Idee Lake-S & # 39; 10 & # 39; Intel will still be based on the node process & # 39; 14nm, according to the office, which is not surprising given the documented struggles of & # 39; chipmaker with process & # 39; 10nm.

Recent rumors have claimed that the firm can & # 39; planning to completely kill its process & # 39; 10nm altogether, but Intel was quick to reject the report, telling INQ"Media reports published today that Intel is complete work on the process & # 39; 10nm are not true," said a kelliemna.

"We are making good progress on 10nm. The improved results are consistent with the calendar shared during our last earnings report."

We do not know much about the CPU Comet Lake S CP rumored, but the online murmurs suggest that is designed for LGA115x platform mainstream desktop and will use dual interconnection & # 39; bus to help with & # 39; thermal xejda; Intel has been criticized for poor thermal performance of Core Core & # 39; eight i9-9900K centers.

According to a report on WCCFTech, CPU x & # 39; likely to buy retail for around $ 500 (about € 390) when it starts next year. However, note that if the supply of & # 39; & # 39 of 14nm; Intel does not return to a normal state until then, you & # 39; to get as much as $ 550- $ 600 (£ 430- £ 470).

Intel has yet to return our request for comment.

While it is interesting to hear & # 39; chatter about developing Intel CPU & # 39; 10 core, faces stiff competition from rival AMD, which is preparing itself to prepare to launch a mainstream CPU-based architecture 7nm Zen 2 μ

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