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Intel Reveals New Technology to Boost Chip Performance

FILE PHOTO: U.S. chipmaker Intel Corp's logo is seen on their "smart building" in Petah Tikva, near Tel Aviv, Israel December 15, 2019. Picture taken December 15, 2019. REUTERS/Amir Cohen
FILE PHOTO: U.S. chipmaker Intel Corp's logo is seen on their "smart building" in Petah Tikva, near Tel Aviv, Israel December 15, 2019. Picture taken December 15, 2019. REUTERS/Amir Cohen
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Intel Reveals New Technology to Boost Chip Performance

FILE PHOTO: U.S. chipmaker Intel Corp's logo is seen on their "smart building" in Petah Tikva, near Tel Aviv, Israel December 15, 2019. Picture taken December 15, 2019. REUTERS/Amir Cohen
FILE PHOTO: U.S. chipmaker Intel Corp's logo is seen on their "smart building" in Petah Tikva, near Tel Aviv, Israel December 15, 2019. Picture taken December 15, 2019. REUTERS/Amir Cohen

Intel Corp on Thursday disclosed a new method for making transistors on semiconductors that its chief architect said could boost the performance Intel’s next round of processors by as much as 20%.

The Santa Clara, California-based company is one of the few remaining in the world that both designs and manufactures its own chips.

However, its manufacturing operations have become a concern among investors after Intel last month said that its next-generation chip-making process, called its 7-nanonmeter process node, would be delayed.

Analysts believe the delays could cement the lead that rivals such as Taiwan Semiconductor Manufacturing Co (2330.TW) have gained in making smaller, more power efficient chips. Intel’s shares have fallen nearly 20% since the delays were disclosed, Reuters reported.

On Thursday, Intel sought to buck the notion that the single-number names given to each generation of chip process node tell the entire story by disclosing improvements on its existing 10-nanonmeter process node.

It announced a new way of making what it now calls “SuperFin” transistors, which, along with a new material being used to improve the capacitors on chips, is expected to boost the performance of Intel’s forthcoming processors, despite their still being made on 10-nanonmeter manufacturing lines.

“It is 20%, the largest intra-node jump ever in our history,” Raja Koduri, Intel’s chief architect, said of the performance gain in an interview with Reuters.

“It’s actually same as what you would get with one full Moore’s Law node of performance.”

It will not be possible to test those claims in the real world until Intel’s new chips come out, but its “Tiger Lake” laptop chips slated for release this fall will use the chips.

Even with the new transistor technology, Koduri said Intel has re-worked its chip design process to be able to more easily use either its own chip factories or outside chip factories, whichever is needed to create the best chips.

“Whatever gets us to deliver those products on time, with leadership performance, we have the flexibility and are going to utilize that,” he said.

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Grand Mosque's Mobile Stroke Unit Saves Life of Ugandan Hajj Pilgrim

The Mobile Stroke Unit (MSU) at the Grand Mosque successfully intervened to save a Ugandan Hajj pilgrim who suffered a severe cerebral hemorrhage. (SPA)
The Mobile Stroke Unit (MSU) at the Grand Mosque successfully intervened to save a Ugandan Hajj pilgrim who suffered a severe cerebral hemorrhage. (SPA)
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Grand Mosque's Mobile Stroke Unit Saves Life of Ugandan Hajj Pilgrim

The Mobile Stroke Unit (MSU) at the Grand Mosque successfully intervened to save a Ugandan Hajj pilgrim who suffered a severe cerebral hemorrhage. (SPA)
The Mobile Stroke Unit (MSU) at the Grand Mosque successfully intervened to save a Ugandan Hajj pilgrim who suffered a severe cerebral hemorrhage. (SPA)

The Mobile Stroke Unit (MSU) stationed at the Grand Mosque, affiliated with King Faisal Specialist Hospital and Research Center (KFSHRC), successfully intervened to save a Ugandan Hajj pilgrim who suffered a severe cerebral hemorrhage.

The pilgrim lost consciousness within the Grand Mosque due to the hemorrhage, prompting an immediate response from the specialized unit, reported the Saudi Press Agency on Sunday.

Upon diagnosis at the scene, immediate treatment was initiated before the pilgrim was transferred to King Abdulaziz Hospital, a Makkah Health Cluster member, for further comprehensive medical care.

The MSU, unique in the Middle East, is fully equipped with a specialized medical team including a neurologist, cardiologist, respiratory therapist, emergency nurse, radiologist, and paramedic, along with a CT scanner. This advanced capability significantly enhances the efficiency of on-site diagnosis and treatment.

The Ugandan pilgrim received critical treatment within an impressive 16 minutes, one-sixth of the internationally accepted standard time of 60 minutes for such cases. His condition has since improved, and he is now undergoing medical rehabilitation to complete his Hajj rituals.

This rapid and efficient response exemplifies Saudi Arabia's integrated healthcare system, which aims to boost service quality and accessibility with the highest efficiency.

Such efforts align directly with the objectives of the Health Sector Transformation Program and the Pilgrim Experience Program, key pillars of Saudi Vision 2030, focused on providing advanced healthcare and ensuring pilgrims perform their rituals safely.