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  • Welcome to the 5G era
    Welcome to the 5G era
    Welcome to the 5G era

    5G is no longer a technology of the future. Advancements in semiconductor technologies are making it a reality. With a comprehensive portfolio of semiconductor solutions, Samsung is leading 5G deployment not just in the mobile and network sectors, but in a variety of fields, including servers, automobiles and IoT. Find out how Samsung’s wide-ranging semiconductor technologies can help businesses master this new era of connectivity.
    5G is no longer a technology of the future. Advancements in semiconductor technologies are making it a reality. With a comprehensive portfolio of semiconductor solutions, Samsung is leading 5G deployment not just in the mobile and network sectors, but in a variety of fields, including servers, automobiles and IoT. Find out how Samsung’s wide-ranging semiconductor technologies can help businesses master this new era of connectivity.
    5G is no longer a technology of the future. Advancements in semiconductor technologies are making it a reality. With a comprehensive portfolio of semiconductor solutions, Samsung is leading 5G deployment not just in the mobile and network sectors, but in a variety of fields, including servers, automobiles and IoT. Find out how Samsung’s wide-ranging semiconductor technologies can help businesses master this new era of connectivity.
    5g img
  • 5G: New era of connectivity

    5G describes the fifth generation (5G) of cellular technology, which is set to enhance wireless networks with faster speeds, lower latency, and massive capacity. Just how fast are we talking? With much greater bandwidth than 4G, some estimates predict that 5G wireless broadband will support data transfers of up to 20 Gbps (Gigabits per second), in addition to virtually eliminating lag altogether. By reducing latency to one millisecond or lower, 5G networks bring near-instantaneous connections, and are fast enough to support services that require real-time feedback. Eventually, 5G networks are revealing entirely new applications for connectivity that will streamline more facets of daily life.

    A visionary illustration of 5G.
  • Seamless mobile connections

    For consumers, some of the most exciting prospects of 5G’s widespread adoption are the Enhanced Mobile Broadband (eMBB) services that are coming with it. 5G’s high bandwidth and exceptional speeds are supercharging services like high-definition (HD) video streaming, virtual reality (VR) and augmented reality (AR), and enabling mobile device users to stay connected like never before. Whereas with 4G, at a speed of 500Mbps (Megabits per second), a 15GB HD movie file would take roughly four minutes to download, with 20Gbps 5G, it would take just six seconds. eMBB will also enable high-traffic venues like airports and stadiums to support seamless HD streaming services, and allow users to enjoy data speeds of at least 100Mbps in areas where cellular signals are weak.

    An illustrative image of a woman using a smartphone.
  • Ultra-reliable services

    5G’s support for ultra-reliable and low latency communications (URLLC) is fast-track innovation in a wide range of fields, including robotics, autonomous vehicles, interactive gaming, and more. 5G networks’ efficient architecture and resource management cut delay times from tens of milliseconds (with 4G) to just one. So whereas when connected to a 4G network, an autonomous vehicle traveling at 100kph would receive an emergency brake order after a 50millisecond delay, which means it would begin to apply the brakes after traveling roughly 1.4meters, with 5G’s one-millisecond delay time, the vehicle would begin to stop immediately – after traveling just 0.028meters.

    An illustrative image of autonomous vehicle with its digital dashboard.
  • The foundation for a smarter future

    The next evolution of NB-IoT and LTE-M technology, Massive Machine-Type Communications (mMTC) will enable 5G networks to create an environment where they can seamlessly connect up to a million homes and devices within a single square kilometer, and by doing so, take consumers’ IoT experiences to the next level. By linking countless devices with continuous, energy-efficient connections, mMTC technology allows us to lay the foundation for smarter, more efficient cities. And it’s not just urban areas that will benefit from mMTC’s connectivity. Services that require high connection density, such as smart agriculture solutions, will also thrive and expand in the 5G era.

    An illustrative image of a city connected with data.

Technologies

Spectrum

An infographic of 5G spectrum, including Sub-6 Ghz and mmWave.

A broader
spectrum

To foster maximum coverage and reliable connections, 5G networks operate on frequencies that fall within three key ranges of the mobile spectrum: Sub-1GHz, 1–6GHz, and above 6GHz.
The Sub-1GHz range supports large-scale IoT services, and offers widespread coverage across urban, suburban and rural areas. The 1–6GHz range, and specifically spectrum that lies between 3.3 and 3.8GHz, offers exciting coverage and capacity benefits, and is expected to provide the basis for initial 5G services. Finally, the above 6GHz range is particularly important for fostering the ultra-high broadband speeds that come with 5G.

Small Cell

An infographic of small cell. Small cells are designed to offer coverage for small geographical areas with obstacles.

Small cells,
big speeds

Small cells are essentially low-power, short-range mobile base stations designed to offer coverage for small geographical areas or indoor/outdoor applications. They combine all the basic functionality of conventional base stations into a package that can be mounted unobtrusively to buildings or fixtures. They’re also capable of handling high data rates, and they’re sure to play an important role in spreading high-speed mobile broadband.
Small cells are divided into three categories based on the amount of coverage and users they support. Femtocells are miniature base stations that can provide cellular service for homes and small enterprises. Pico cells offer a level of coverage that’s suitable for large office buildings and similar environments, while microcells are ideal for locations with a large number of users, like dense urban areas.

Beamforming

An infographic of beamforming. Beamforming produce a strong, concentrated signal and covers more distance with less interference.

Strengthening signals

Beamforming is a technique that enables an array of antennas to be focused in the same direction to produce a strong, concentrated signal. This technology is important for 5G deployment because it enables more efficient data transmission.
Beamforming ensures that signals are directed only where they’re needed – rather than broadcasted in all directions – and enables mmWave (millimeter-wave) frequencies to cover more distance with less interference from other signals. The more antennas in the array, the narrower the beam, and the more concentrated the signal will be.

Massive MIMO

An infographic of Massive MIMO, including 4x4, 8x8, 16x16.

Comprehensive connections

Massive MIMO (multi-input, multi-output) technology works by grouping antennas together in a way that allows multiple data signals to be transmitted and received simultaneously, over the same wireless channel. For users, that means greater spectrum efficiency and better throughput.
One of the current limitations of 4G MIMO technology is that it utilizes one-dimensional antenna arrangements that restrict beamforming to the horizontal plane. 5G Massive MIMO addresses this issue by utilizing two-dimensional antenna arrays that offer coverage both horizontally and vertically, and allow more users to connect simultaneously.

Network Slicing

An infographic of 5G network slicing technology. It creates virtual data pipelines for individual service.

A simpler
approach to
service
management

With 4G, data services such as over-the-top (OTT) media streaming, browsing the web and GPS navigation are facilitated through the same pipeline. This makes it impossible for carriers to distinguish between these services, and means that quality of service (QoS) cannot be guaranteed.
5G network slicing technology addresses this issue by letting carriers create virtual data pipelines within a network’s architecture that are dedicated to each individual service. Network slicing not only maximizes 5G networks’ flexibility and opens the door for the implementation of more dynamic services, it also enables QoS to be assured for each and every service, and helps ensure the quality of time-sensitive, mission-critical services like connected cars.

NSA and SA

An infographic of NSA and SA. NAS architecture supports both LTE and 5G. SA architecture only supports 5G.

The two tracks
to 5G
implementation

Service providers transitioning from 4G to 5G can choose to deploy their new network using either an NSA (non-standalone) or SA (standalone) architecture.
Opting for an NSA architecture would enable a carrier to utilize its existing LTE network’s assets as a base for rolling out 5G coverage. A SA architecture, on the other hand, would be purpose-built for 5G utilization and not dependent upon an existing 4G network. While the first wave of 5G deployments will likely be NSA networks, once coverage has been established, standalone networks that unlock 5G’s true power will begin to roll out and start powering incredible services and experiences.

Applications

Next-level streaming and gaming

5G is set to revolutionize mobile entertainment as we know it. 5G networks allow mobile device users to stream ultra high-quality videos when using OTT (over-the-top) services, and enable creators to produce content in crystal clear 4K and 8K. Virtual-, augmented- and mixed-reality content will also be enhanced, and leverage 5G’s reduced latency and high capacity to deliver a more immersive experience. Gaming, too, will be taken to the next level, as users will be able to access and play high-performance games straight from the cloud

An image of smartphone in portrait mode.

Driving innovation

5G is greatly accelerating the development of autonomous driving solutions that make the driving experience safer and more comfortable.
5G networks’ low latency and maximized throughput will enable cellular vehicle-to-everything (C-V2X) technology – essential for autonomous transportation – to become safer and more reliable, and allow connected vehicles to share and analyze rich data in real time. Connections will be consistent even in fast-moving cars, and enable in-vehicle infotainment systems to offer seamless access to cloud-based apps, as well as services like high-resolution video streaming and immersive virtual and mixed reality.

An image of autonomous vehicle.

Building smarter homes, offices and cities

5G’s premium speeds, capacity and reliability allow us to unite a wide variety of IoT devices in ways that streamline work and daily life.
Such seamless connectivity enables smart devices to provide us with more personalized and convenient experiences at home and at work. Offices work smarter by leveraging next-generation technologies like augmented reality, and by taking advantage of 5G’s improved bandwidth. Cities, too, are becoming smarter by utilizing 5G to connect large numbers of IoT devices and collect data that can be used to improve things like crime, energy distribution and parking.

An image of AI speaker.

Streamlining
networks
and servers

The push for 5G deployment has brought about a shift in thinking when it comes to mobile network design. This evolution in architecture reflects a need for networks to deliver the level of bandwidth, latency and efficiency necessary to support things like IoT, artificial intelligence and cloud computing.
Servers, too, must be capable of processing data faster in order to enable businesses and individuals to take advantage of 5G’s increased throughput. This requires server frameworks to be optimized for both traditional and hybrid cloud applications, and configured in a way that’s both cost effective and flexible

An image of servers.

Innovation

Leading the way toward
a connected and convenient future

With a wide-ranging portfolio of 5G solutions spanning processors, mobile devices, IoT, servers and more,
Samsung is leading the charge for 5G deployment and ushering in a future that will redefine connectivity as we know it.
Samsung’s 5G modems of Exynos processors enable mobile devices to offer fast and reliable connections, while mobile processors provide the power and performance necessary to deliver the next-generation mobile experiences that consumers have been waiting for. Like its latest enterprise SSDs, Samsung’s RDIMM and LRDIMM servers were designed to meet and exceed the demands of computing in the 5G era. The company is also driving innovation in fields like autonomous driving and IoT with semiconductor solutions that are paving the way for smoother and safer rides, and strengthening connections between intelligent devices. Key among these is Samsung’s groundbreaking LPDDR5X, the industry’s first 16gigabit (Gb) Low Power DRAM. Combining lightning-fast transfer speeds (up to 8.5Gbps) with an energy-efficient design, the LPDDR5X represents a major step forward for low-power memory solutions – one that will be key to creating a more connected future.

An image of 5G solutions including Exynos processors, enterprise SSDs, LPDDR5 and RDIMM.

Memory Products

DDR

삼성 DDR 제품 이미지

Trusted reliability

Designed to be used in high-performance servers, desktops, laptops and more, Samsung's DDR (Double Data Rate) solutions double down on performance, combining high bandwidth with likewise high energy efficiency.

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LPDDR

Product images of Samsung LPDDR5, LPDDR4X, LPDDR4, LPDDR3.

A powerful combination

Samsung's LPDDR (Low-Power Double Data Rate) solutions support speedy, high-bandwidth data transfers without compromising energy efficiency.

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Module

Product images of Samsung Memory modules.

Memory modules for extensive use

Samsung’s memory modules are designed for a wide range of applications to deliver the best performance with low power requirements.

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Enterprise SSD

A product image of Samsung PM1725b.

Innovating
enterprise storage

Samsung’s all-flash solutions for heavy workloads deliver unrivaled performance, reliability and capacity without bottlenecks.

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UFS

A product image of Samsung UFS.

Powering the future
of mobile storage

This is flash storage engineered to keep up with the growing demands of 5G.

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Processor Products

Mobile Processor

A product image of Samsung Exynos.

Mobile performance redefined

Designed for mobile innovation, Exynos enables richer user experiences with intelligent performance, greater efficiency and seamless connectivity.

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Modem

A product image of Samsung Exynos Modem.

Tailored for
the 5G era

Providing incredibly fast data transfers and rapid data processing, Exynos Modems deliver elevated performance with improved power efficiency and smaller chip sizes.

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RF

A product image of Samsung Exynos RF.

Unlock better
connectivity

Supporting a broader range of bands and modules, Exynos RF provides next-level download speeds and facilitates high performance solutions and better connectivity.

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  • All product images shown are for illustration purposes only and may not be an exact representation of the product.
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