Bringing brilliant people together to spark the world's potential
Arm designs technology building blocks such as Central Processing Units (CPUs), Graphics Processing Units (GPUs), and Neural Processing Units (NPUs) that semiconductor designers, equipment manufacturers, and others use to create silicon chips and specialized compute systems to power a host of devices, applications, and services across global markets.
Our partners have used our technology to enable the mobile revolution, make vehicles safer, drive down the cost and emissions of data centers, and connect individuals and businesses in new, exciting ways.
With billions of transistors and specialized subsystems operating at extreme speeds, processors remain some of the most complex devices ever produced. By leveraging Arm's proven intellectual property, our partners can get to market quickly and reliably, delivering secure, unique system-on-chip (SoC) products that meet any performance need.
From One, Many: The Arm Cortex-A53 is one of our most popular CPUs. Semiconductor companies such as Qualcomm, Samsung, MediaTek, and NXP have adopted it to create a broad spectrum of entry-level, mid-range, and high-end SoCs.
These SoCs in turn have served as the foundation for smart speakers, computer vision systems for buildings, gaming controllers, a handheld for detecting bacteria in water for emerging nations, a device that lets cars park themselves, and billions of IoT devices and smartphones.
An ecosystem of hundreds of innovative partners has made Arm technology pervasive worldwide. Because of their efforts and ideas, Arm technology can be found in everything from TV remote controls to satellites.
The extended ecosystem includes Fortune 500 companies, cloud native developers, freshly minted startups, national laboratories, and technology distributors across the globe.
Arm also fosters close relationships with semiconductor foundries and EDA developers to help ensure that our designs can be smoothly transitioned to products.
Our Vision: 1. IPCC. 2. World Economic Forum and Exponential Group.
Electricity: 1. IEA: Net Zero by 2050; 2. European Environmental Agency and USGS. 3. Omdia. 4. Renewable Energy World.
Buildings. 1. U.S. EPA and Dept. of Energy. 2. Programme for Energy Efficiency. 3. IEA: The Future of Cooling. 4. Food and Agriculture Organization of the UN, UNEP. 5. Comparitech, IHS (770 million). 6. IDC ($50 billion, 13% CAGR) 7.. Makeuseof.com (2GB). 8. Arm calculations. We assumed the 20 cameras would run 18 hours for an entire year. Dynamic transmission draw for the cloud-centric setup is at 0.018 kw while the draw for the smart edge camera is .000001 kw with identical Wi-Fi hardware: the difference comes in the larger amount of data sent via the cloud case. Device power draw for the cloud-dominant camera is 0.01 kw while the smart camera draw is 0.25 kw. Carbon calculations are based on the U.S. average power mix.
Datacenters: 1. 451/S&P Arm report. 2. Science. 3. Univ. of East Anglia, Univ. of Exeter, Global Carbon Project. 4. Arm calculations. The power draw of the Arm processor is 284.4 watts. The power draw of the competition processors in the calculation is 336 and 388 watts, respectively, based on publicly available documents. The SpecInt ratings are based on Arm benchmark testing. We assumed one instance and 2 CPUs per instance running for a month in similar datacenters. Carbon calculations are based on the U.S. average power mix. 5. Cloudflare. 6. Cloudflare.
Transportation. 1. 451/S&P Arm report. 2. Bloomberg New Energy Finance. 3. BNEF (6TWh) 451/S&P Global Market Intelligence (2090 TWh), Arm estimates. Inrix Global Traffic Scorecard.
