All categories
Featured selections
Trade Assurance
Buyer Central
Help Center
Get the app
Become a supplier
(2833 products available)
Ready to Ship
Ready to ShipARM 64-bit processors have different types, each made for various uses. These types focus on boosting performance and efficiency in many devices, from mobile gadgets to big servers.
The Cortex-A series aims for high performance in smartphones, tablets, and embedded systems. For example, the Cortex-A72 can handle complex apps and multitasking, making it great for high-end mobile devices and wearables.
The Cortex-R series is built for safety and reliability in areas like car systems or medical gear. For example, the Cortex-R8 works well where errors can't happen and instant responses are vital. This helps keep everything safe and running well in critical areas.
The Cortex-M series is targeted at low-power, small embedded systems, like sensors and medical tools. The Cortex-M7, for example, handles tasks in low-cost, small devices where battery life and space matter most.
The Neoverse series is built for the cloud and network systems. It helps companies with big data tasks in servers and telecom gear. The Neoverse N1 core, for instance, can handle heavy workloads and keep going for a long time.
Many businesses also make their own 64-bit ARM processors. Companies like Apple and Tesla adjust ARM designs to better fit their needs. These custom cores often boost performance even more for specific tasks.
ARM 64-bit processors are widely used because of their many functions. They offer different features that enable them to perform exceptionally in various uses from mobile to server settings.
This setup pairs powerful cores with efficient ones. It lets the device use the best cores when running heavy tasks. It then switches to the smaller, efficient ones for lighter work. This saves battery and keeps the device cool without losing speed.
Neon is ARM's way to speed up media processing. It handles tasks like video editing and gaming graphics much faster. Cores with Neon can run HD movies or complex apps while using less power than other CPUs.
The VFP unit handles tough math tasks easily. It makes things like scientific calculations and 3D graphics simple and fast. This is crucial for high-end apps in fields like engineering and gaming.
TrustZone creates a safe area inside the processor. It protects sensitive data like passwords and personal info from threats. TrustZone keeps users' confidential data safe and boosts overall device security. This is especially needed in banking or secure communication apps.
The 64-bit design allows the processor to handle more memory and bigger tasks. This makes it ideal for use in complex servers and high-performance computers. Cloud computing and data-center devices need the scalable performance that ARM offers.
ARM 64-bit cores use less power but still give strong performance. This is great for mobile devices that need long battery life. The efficient design also helps servers stay cool even when working hard.
ARM 64-bit processors are very popular due to their many uses. Their efficiency and flexibility bring great value in today's market. They are essential for the growth of mobile computing and high-performance systems alike.
The Cortex-A series is a big part of the mobile phone boom. Almost all smartphones and tablets use ARM chips. These chips are small, strong, and good at managing power. Because of this, they are perfect for mobile devices that need to last all day on a single charge.
64-bit ARM processors are now making a name for themselves in servers and data centers. Traditionally, this space was just for x86 chips. But with Neoverse and other cores, ARM is now great for cloud tasks. These processors can manage huge amounts of data while using less energy and cutting costs.
The rise of IoT has boosted demand for 64-bit ARM chips. Many gadgets, like smart sensors, wearables, and industrial tools, now use ARM. Their small size and low power make them perfect for connected devices. ARM chips help push the IoT market forward, reaching millions of new users.
ARM gives firms the freedom to design their own chips. This lets them create tailored solutions for unique markets. Companies like Apple, Tesla, and Amazon have made custom ARM chips that outperform standard Intel models. This has driven demand for ARM in sectors beyond mobile, like personal computers and servers.
ARM 64-bit processors are now used in cars and industry too. They power advanced safety features, infotainment systems, and smart factory controllers. Their ability to run complex software and manage multiple tasks makes them ideal for these uses.
ARM chips tend to cost less than x86 processors in volume. This has made them popular in low-cost markets, like budget laptops and embedded systems. Their efficient design also lowers energy costs for users across many sectors.
Selecting the perfect 64-bit ARM processor requires carefully looking at many factors. Those factors will determine how well the processor performs for the specific task at hand.
First, what will the system do? Mobile devices need a strong processor for gaming and video. The Cortex-A series offers great performance for these uses. On the flip side, embedded systems run simple tasks. They can work well with the power-efficient Cortex-M series.
How much processing power is needed? For basic computing, a quad-core processor at 1GHz is enough. These will handle simple tasks with ease. Heavy users need more power. They should choose a multicore processor like the Cortex-A78. It handles intense tasks without slowing down.
Energy saving is vital for mobile and IoT devices. Look for processors with big.LITTLE tech. It switches between powerful and energy-saving cores based on the task. This feature greatly boosts battery life while keeping good performance.
Check which operating systems and software the processor supports. For mobile devices, pick a processor that runs Android or iOS smoothly. Embedded devices need processors with strong support for their niche OS like real-time operating systems.
The cost of the processor matters too. Higher-end models like Cortex-X2 offer cutting-edge performance. These cost more, though. If the device does basic tasks like web browsing or document editing, a lower-tier processor will do. It will also be cheaper.
A1: It can process more data at once. It also handles large amounts of memory. This makes it good for complex tasks in servers and high-performance devices. It also enables smooth performance on mobile devices.
A2: ARM focuses on using less power. This makes it great for mobile devices. Meanwhile, x86 offers more power for desktops and servers. That is why many people consider them for cloud computing. They have different strengths depending on the use.
A3: It pairs powerful cores with simpler ones. This lets the device switch based on what is needed. It saves power when less performance is needed. It then switches to the big core for heavy tasks. This keeps the device quick and efficient all the time.
A4: They are the go-to for smartphones and tablets. Companies like Apple and Samsung use them for their efficiency. They also power many IoT devices. Their small size and low heat make them ideal for these gadgets.
A5: Yes, they can run both types of instructions. This gives older 32-bit apps better support. It lets users smoothly transition to 64-bit programs as they become more common.
