Siemens and Nvidia Collaborate to Expand Digital Services

A NVIDIA logo is shown at SIGGRAPH 2017 in Los Angeles, California, US, July 31, 2017. (Reuters)
A NVIDIA logo is shown at SIGGRAPH 2017 in Los Angeles, California, US, July 31, 2017. (Reuters)
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Siemens and Nvidia Collaborate to Expand Digital Services

A NVIDIA logo is shown at SIGGRAPH 2017 in Los Angeles, California, US, July 31, 2017. (Reuters)
A NVIDIA logo is shown at SIGGRAPH 2017 in Los Angeles, California, US, July 31, 2017. (Reuters)

Siemens has signed a partnership agreement with chip designer Nvidia Corp to create an industrial metaverse - an enhanced virtual reality for companies to reduce the costs of running their factories, buildings and speed up new product design.

The deal is a cornerstone of Siemens Xcelerator, a new open digital platform also launched by the German technology and engineering company on Wednesday.

The cloud-based platform, which will feature hardware, software and digital services, is part of Siemens' ambition to grow its digital business by 10% per year from the 5.6 billion euros ($5.89 billion) generated in 2021.

"Siemens Xcelerator will make it easier than ever before for companies to navigate digital transformation - faster and at scale," Siemens Chief Executive Roland Busch said in a statement.

Siemens, which bought Brightly Software for $1.58 billion on Monday, is moving further into the digital space because it offers faster growth rates and higher margins than its traditional business of trains and industrial drives and automation.

Siemens and Nvidia are just two of the companies which are working in the so-called metaverse, which refers broadly to the idea of a shared virtual platform that people can access through different devices and where they can move through digital environments.

Facebook-owner Meta Platforms and Microsoft and others are also looking at metaverse technology can be used in business and leisure.

Siemens's Xcelerator will be the umbrella term for services which will allow customers to visualize yachts or factories, for example, before construction starts.

"We can essentially replace having to build a thing in the real world first," Tony Hemmelgarn, CEO of Siemens Digital Industries Software, told reporters.

The platform would also ensure products "are going to work well, before we commit to building them in the real world when it becomes really expensive and difficult to change," he added.

The services will be offered to customers through Siemens's software as a service (SaaS) subscription model, to make it more affordable for small and medium-sized companies.

As part of the collaboration, Siemens will connect Xcelerator and its own software and digital twin products with Nvidia's Omniverse, a platform for 3D design.



KACST Manufactures 25 Advanced Electronic Chips by Saudi Talents

The chip design process involved researchers from the National Laboratory, alongside students from four Saudi universities. (SPA)
The chip design process involved researchers from the National Laboratory, alongside students from four Saudi universities. (SPA)
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KACST Manufactures 25 Advanced Electronic Chips by Saudi Talents

The chip design process involved researchers from the National Laboratory, alongside students from four Saudi universities. (SPA)
The chip design process involved researchers from the National Laboratory, alongside students from four Saudi universities. (SPA)

Saudi Arabia’s King Abdulaziz City for Science and Technology (KACST) announced on Thursday its successful design and fabrication of 25 advanced electronic chips, developed by Saudi talents in its cleanroom laboratories for purposes of training, research, and development.

The achievement is part of KACST’s ongoing efforts to support and enable the semiconductor ecosystem in the Kingdom.

These chips are distinguished by their versatility and can be used in a range of applications, including electronics, wireless and high-frequency communications, integrated circuits, energy-efficient lighting, micro-sensor systems, as well as industrial and research applications in measurement and testing.

The chip design process involved researchers from the National Laboratory, alongside students from four Saudi universities. This effort was conducted under the initiatives of the Saudi Semiconductors Program (SSP), which aims to build national expertise in this critical field.

The chips can be used in a range of applications. (SPA)

This milestone is part of a series of strategic initiatives led by KACST to support the semiconductor sector in the Kingdom, including the Saudi Semiconductors Program to boost research and development and qualify human talent and the "Ignition" semiconductor incubator program to support startups and entrepreneurs.

Through these initiatives, KACST underscored its commitment to the ambitious goals of Saudi Vision 2030 by localizing strategic technologies, empowering national talent, and achieving technological self-sufficiency in advanced domains.