In the opening keynote, Samsung emphasized the company’s vision to lead hyper-intelligent, hyper-connected and hyper-data technologies in the Fourth Industrial Revolution era with its comprehensive logic solutions uniquely tailored for various industries.

“Generative AI has quickly emerged as perhaps the most significant trend of the year, demanding more powerful foundational technologies to process data and bring AI to life,” said Yong-In Park, President and Head of System LSI Business at Samsung Electronics. “We are paving the path toward a new era of proactive AI, leveraging our Samsung System LSI Humanoid platform, which seamlessly converges our capabilities across a broad spectrum of logic semiconductors, from powerful computational IPs, connectivity solutions to sensors emulating the main five human senses.”

First Glimpse of Exynos 2400 Mobile Processor and Zoom Anyplace Image Sensor Technology

One of the event’s highlights was the preview of Samsung’s next-generation flagship mobile processor, the Exynos 2400 with Xclipse 940 GPU based on the latest AMD RDNA 3 architecture. A live demo showcased the processor’s substantially enhanced ray tracing capability, promising improved realism and immersion in gaming through a range of optical effects including global illumination, reflection and shadow rendering.

Achieving significant advancements in computing performance, the Exynos 2400 processor features a 1.7x increase in CPU performance and a remarkable 14.7x boost in AI performance compared to the previous Exynos 2200 product. Additionally, Samsung introduced a new AI tool designed for upcoming smartphones, demonstrating text-to-image AI generation using its Exynos 2400 reference board.

Also revealed for the first time was Samsung’s Zoom Anyplace technology based on its 200-million pixel image sensor. This sensor innovation will enable an entirely new camera zoom experience, allowing mobile users to take up to 4x close-ups of moving objects without any image degradation. AI-based tracking technology automatically follows and captures objects, all while recordings are made in full screen simultaneously, ensuring that no moment or detail is left uncaptured.

Other debuts at the event were Narrowband Internet of Things (NB-IoT) non-terrestrial networks (NTN) ready next-generation 5G modem; a new vision sensor brand, the ISOCELL Vizion; and a Smart Health processor.

Samsung’s latest automotive processor slated for mass production in 2025, the Exynos Auto V920, was displayed running several applications across multiple displays. Meanwhile, a video of the ISOCELL Auto 1H1 image sensor highlighted its 120Hz high dynamic range (HDR) and superior LED flicker mitigation (LFM) performance that ensure safer driving.

Demonstrating its capability in cellular and connectivity technologies, Samsung featured a video demo of NB- IoT NTN satellite communication in collaboration with Skylo Technologies, an NTN service provider, using Samsung’s next-gen modem reference device. A live demo of wireless lighting control through its ultra-wideband (UWB) solution, the Exynos Connect U100, was also shared.

Additional logic innovations on display include the 200-megapixel (MP) ultra-high-resolution image sensor, the ISOCELL HP2; an advanced driver assistance (ADAS) and autonomous driving (AD) camera solution, the ISOCELL Auto 1H1; quantum-dot (QD) OLED display driver IC (DDI); IoT security solutions; and wireless-charging power management IC (PMIC).

Deep-Dive Into AI With Academic Experts

During the afternoon panel discussion session, Sukhwan Lim, head of the U.S. System LSI R&D Center, joined with academic experts — Professor Jae-sun Seo of Cornell Tech, Professor Yakun Sophia Shao of UC Berkeley and Professor Thierry Tambe of Stanford University — to discuss the implications on compute platforms from recent trends in generative AI and large language models.

“This milestone builds on our rich legacy in wireless communications technologies, following the introduction of the industry’s first commercial 4G LTE modem in 2009 and the industry’s first 5G modem in 2018,” said Min Goo Kim, Executive Vice President of CP (Communication Processor) Development at Samsung Electronics. “Samsung aims to take the lead in advancing hybrid terrestrial-NTN communications ecosystems around the world in preparation for the arrival of 6G.”

NTN is a communications technology that uses satellites and other non-terrestrial vehicles to bring connectivity to regions that were previously unreachable by terrestrial networks, whether over mountains, across deserts or in the middle of the ocean. It will also be critical in assuring operability in disaster areas and powering future urban air mobility (UAM) such as unmanned aircraft and flying cars.

By meeting the latest 5G NTN standards defined by the 3rd Generation Partnership Project (3GPP Release 17), Samsung’s NTN technology will help ensure interoperability and scalability among services offered by global telecom carriers, mobile device makers and chip companies.

For highly reliable NTN communication with low Earth orbit (LEO) satellites, Samsung has developed and simulated 5G NTN standard-based satellite technology using its Exynos Modem 5300 reference platform to accurately predict satellite locations and minimize frequency offsets caused by the Doppler shift. Based on this technology, Samsung’s future Exynos modems will support two-way text messaging as well as high-definition image and video sharing.

Additionally, Samsung plans to secure a standardized NB-IoT NTN technology for use in its next-generation modem platforms. With integrated satellite connectivity, Samsung’s NB-IoT solutions will eliminate the need for a separate high-power wireless antenna chip inside smartphones, providing mobile device makers with much greater design flexibility.

This year’s event, attended by more than 800 customers and partners, featured presentations from Samsung’s Memory and System LSI business leaders — including Jung-bae Lee, President and Head of Memory Business; Yong-In Park, President and Head of System LSI Business; and Jaeheon Jeong, Executive Vice President and Head of Device Solutions (DS) Americas Office — on the company’s latest advancements and its vision for the future.

System LSI Business Highlights

In the morning session of this year’s Tech Day, the System LSI Business emphasized its goal of becoming a ‘total solution fabless’ through maximizing the synergy between its unique and wide-range product lineup. As Samsung Electronics’ fabless IC design house, the System LSI Business currently offers around 900 products, which include SoC (System on Chip), image sensor, modem, display driver IC (DDI), power management IC (PMIC) and security solutions.

The System LSI Business not only makes leading individual products, but is also a total solution provider that can merge the various logic technologies into one platform, in order to deliver optimized solutions to customers.

“In an age that requires machines to learn and think as people do, the importance of logic chips, which play the roles of the brain, heart, nervous system and eyes, is growing to unprecedented levels,” said Yong-In Park, President and Head of System LSI Business at Samsung Electronics. “Samsung will converge and combine its technology embedded in various products like SoC, sensor, DDI and modem, in order to lead the Fourth Industrial Revolution as a total solution provider.”

▲ Yong-In Park, President and Head of System LSI Business, is giving his keynote speech at Samsung Tech Day 2022.

A Vision of Chips With Human-Like Performance

The Fourth Industrial Revolution was a key theme in System LSI’s Tech Day sessions. The System LSI Business’ logic chips are crucial physical foundations of Hyper-Intelligence, Hyper-Connectivity and Hyper-Data, which are the key areas of the Fourth Industrial Revolution. Samsung Electronics aims to enhance the performance of these chips to a level at which they can carry out human tasks just as well as people can.

With this vision in mind, the System LSI Business is focusing on improving the performance of its essential IP like NPU (Neural Processing Unit) and modem, as well as innovating CPU (Central Processing Unit) and GPU (Graphics Processing Unit) technology by collaborating with global industry leading companies.

The System LSI Business is also continuing its work on ultra-high resolution image sensors so that its chips can capture images as the human eye does, and also has plans for sensors that can play the role of all five of the human senses.

Next-Generation Logic Chips Showcased

Samsung Electronics revealed a number of advanced logic chip technology for the first time at the Tech Day booth, including 5G Exynos Modem 5300, Exynos Auto V920 and QD OLED DDI, which are essential parts of various industries such as mobile, home appliance and automotive.

Chips that were newly released or announced this year including the premium mobile processor Exynos 2200 were also on display, along with the 200MP ISOCELL HP3 — the image sensor with the industry’s smallest 0.56-micrometer (μm)-pixels. Built on the most advanced 4-nanometer (nm) EUV (extreme ultraviolet lithography) process and combined with cutting-edge mobile, GPU and NPU technology, the Exynos 2200 provides the finest experience for smartphone users. The ISOCELL HP3, with a 12 percent smaller pixel size than the predecessor’s 0.64μm, can enable an approximately 20 percent reduction in camera module surface area, allowing smartphone manufacturers to keep their premium devices slim.

Samsung showcased its ISOCELL HP3 in action by showing the attendees of Tech Day the picture quality of photographs taken with a 200MP sensor camera, as well as demonstrating the workings of System LSI’s fingerprint security IC for biometric payment cards that combines a fingerprint sensor, Secure Element (SE) and Secure Processor, adding an extra layer of authentication and security in payment cards.

Memory Business Highlights

In a year marking 30 years and 20 years of leadership in DRAM and NAND flash memory respectively, Samsung unveiled its fifth-generation 10nm-class (1b) DRAM as well as eighth- and ninth-generation Vertical NAND (V-NAND), affirming the company’s commitment to continue providing the most powerful combination of memory technologies over the next decade.

Samsung also emphasized how the company will demonstrate greater resilience through collaborative partnerships in the face of new industry challenges.

“One trillion gigabytes is the total amount of memory Samsung has made since its beginning over 40 years ago. About half of that trillion was produced in the last three years alone, indicating just how fast digital transformation is progressing,” said Jung-bae Lee, President and Head of Memory Business at Samsung Electronics. “As advances in memory bandwidth, capacity and power efficiency enable new platforms and these, in turn, stimulate more semiconductor innovations, we will increasingly push for a higher level of integration on the journey toward digital coevolution.”

▲ Jung-bae Lee, President and Head of Memory Business, is giving his keynote speech at Samsung Tech Day 2022.

DRAM Solutions to Advance Data Intelligence

Samsung’s 1b DRAM is currently under development with plans for mass production in 2023. To overcome challenges in DRAM scaling beyond the 10nm range, the company has been developing disruptive solutions in patterning, materials and architecture, with technology like High-K material well underway.

The company then highlighted upcoming DRAM solutions such as 32Gb DDR5 DRAM, 8.5Gbps LPDDR5X DRAM and 36Gbps GDDR7 DRAM that will bring new capabilities to data center, HPC, mobile, gaming and automotive market segments.

Expanding beyond conventional DRAM, Samsung also underscored the importance of tailored DRAM solutions such as HBM-PIM, AXDIMM and CXL that can fuel system-level innovation in better handling the explosive growth of data worldwide.

1,000+ V-NAND Layers by 2030

Since its inception a decade ago, Samsung’s V-NAND technology has progressed through eight generations, bringing 10 times the layer count and 15 times the bit growth. Samsung’s most recent, 512Gb eighth-generation V-NAND features a bit density improvement of 42%, attaining the industry’s highest bit density among 512Gb triple-level cell (TLC) memory products to date. The world’s highest capacity 1Tb TLC V-NAND will be available to customers by the end of the year.

The company also noted that its ninth-generation V-NAND is under development and slated for mass production in 2024. By 2030, Samsung envisions stacking over 1,000 layers to better enable data-intensive technologies of the future.

As AI and big data applications drive the need for faster and higher-capacity memory, Samsung will continue to leapfrog bit density by accelerating the transition to quad-level cell (QLC), while further enhancing power efficiency in support of more sustainable customer operations worldwide.

More Far-Reaching Solutions Amidst Greater Collaboration

Samsung introduced an extensive portfolio of storage solutions spanning data center, enterprise server, mobile, client, consumer and automotive applications. The company highlighted its high-performance, low-power computational storage optimized for AI and how it can contribute to eco-conscious computing. Samsung also presented a new DRAM-less SSD, the PM9C1a, which supports both PCIe 4.0 and 5.0.

Samsung then shared aggressive plans to lead the industry in intelligent mobility solutions. The company discussed its wide-ranging memory offerings designed for every modern automotive function, from in-vehicle infotainment (IVI), autonomous driving (AD) and advanced driver assisted systems (ADAS), clusters and gateways to telematics. Since entering the automotive memory market in 2015, Samsung has been rapidly growing its market presence with the intent of becoming the largest automotive memory provider by 2025.

Reaffirming its overriding goals of enhancing customer value and pursuing a customer-oriented development philosophy, Samsung stressed its intent to further expand its ecosystem partnerships. To stimulate more widespread open innovation, Samsung revealed a key element of its blueprint for greater customer collaboration. The company will open a Samsung Memory Research Center (SMRC) where customers and partners can test and verify Samsung memory and software solutions in various server environments. Beginning with the opening of its first SMRC in Korea in the fourth quarter of this year, Samsung plans to later launch additional hubs in the U.S. and around the world, in collaboration with ecosystem partners like Red Hat and Google Cloud.

Supporting Fast, Smooth Telecommunication Anywhere: The Ultra-High Performing Modem with AI Technology

The term “modem” encompasses all types, from the dial-up modems used in the 1990s to connect PCs to the Internet, to wired communication modems like digital subscriber line (DSL) and cable, to wireless communication modems for cellular service and Wi-Fi. However, when we talk about modems today in the mobile industry, the term usually refers to cellular modems for wireless communication that support LTE and 5G.

In a smartphone, the terminal modem is in charge of making calls and transmitting and receiving data by exchanging signals with base stations. The reason we can make calls and seamlessly watch videos anywhere is all thanks to high-performing cellular modems. Today, the latest cellular modems support technologies from 2G to 5G. 

Cellular modems were first used for 1G when only phone calls could be made using the analog communication method. In the 2G era, the digital communication method¹ was introduced, and additional services such as the short message service (SMS) became possible. 3G enabled the use of the Internet on mobile phones, laying the foundation for mobile broadband,² and 4G ushered in the true mobile broadband era that made seamlessly watching HD videos possible. The speed of 5G, which Korea was first in the world to commercialize in 2019, now reaches the 10Gbps level, and various applications other than mobile devices are being created using this low-latency and hyper-connectivity technology. 

▲ A comparison of the characteristics of different mobile communication generations.

With the advent of the LTE era, data transmission speeds have become remarkably higher, and mobile phones can now provide functions almost identical to those provided by computers. Having experimented with developing its own modem before the 2000s, Samsung Electronics began developing an LTE modem chip in earnest in 2007 and became the first in the world to succeed in LTE modem commercialization in 2009, after mastering 2G and 3G technologies.

▲ The communication process between a modem and a base station.

In 2012, the Galaxy S series was equipped with Samsung’s LTE modems for the first time. In 2019, the 5G-integrated SoC Exynos, the first ever chip to combine a 5G communication modem and a mobile AP, was developed. Exynos improved energy efficiency by combining two chips with different functions into one as well as the ease of design for smartphone manufacturers by reducing the area taken up by the component. Currently, Exynos’ 5G³ modem supports not only the sub-6GHz band but also extremely high frequency bands (i.e., mmWave), such as 28GHz and 39GHz. Thanks to this, sub-6GHz increases service coverage, and ultra-high-speed communication is offered with mmWave near base stations. 

Today, Samsung is one of the world’s top three 5G modem design companies. “Generally, the process for developing a modem is complicated because it must support new technology like 5G and already commercialized technologies like 3G and LTE. As it also requires a significant investment, there are only a handful of modem chip companies in the world,” said Vice President Jungwon Lee, a signal processing expert who currently leads the Modem Development Team in the System LSI Business after working at Samsung DS America and at Samsung Research America. “It is an area that also requires a lot of development time, from algorithm development to chip design, software development and field testing.”

▲ Vice President Jungwon Lee (right) and PL Huiwon Je (left) of the Modem Development Team strive to improve the development performance of cellular modems.

Samsung is conducting field tests in countries around the world to improve service coverage as much as possible and making various efforts to improve the baseband signal processing method, including the use of artificial intelligence (AI) technology to increase transmission speeds. As a result, the company successfully created a modem that utilizes AI algorithms last year, although it is yet to be commercialized. “Modems with AI technology can promote performance enhancements by minimizing the processing of interference signals or increasing energy efficiency through the use of AI processors,” said Lee.

In addition to 5G, Samsung is currently actively working on the development of 6G technology. “Right now, we are focused on developing the world’s best 5G modem and 5G-Advanced modem, and we are preparing for 6G modem technology research in collaboration with Samsung DS America and Samsung Research for the imminent 6G era,” said Lee. His achievements in modem signal processing technology were recognized when he was selected as a Fellow of the IEEE.⁴

“6G modems are expected to enable 1Tbps-level speeds, support various communication networks including satellite communication, and be widely used in various applications, such as automobiles, IoT and AR/VR — going far beyond smartphones,” he said. “To pave the way for the 6G era, we must have the backing and support of various frequency bands, including the terahertz (THz) band, multi-antenna support for at least hundreds of antennas, advanced AI technology and communication network signal efficiency technology.”

Meanwhile, Lee is leading the way for Samsung as the company aims to create the best modem for Android. “We are expanding our 5G business in the short run while striving to secure a leading position early on in the 6G era in the medium to long-term,” he said. Samsung plans to drastically increase the headcount of the Modem Development Team to improve such performance and to expand related business markets. 

“I am proud to be a part of the development team of a major global company that leads modem technology. On a more personal note, I find it fascinating to see how what I learned from theories can actually be implemented in many cases when applied to products,” said Lee when asked why he was so drawn to modems. “Today, having seamless telephone conversations anytime and anywhere and the high-speed internet experience have become a fundamental part of life. The thing that has allowed us to experience this convenient life is modems, and the Modem Development Team is enthusiastic about continuing to play its role in these developments.”

Making an Extensive Connectivity Environment That Works Quickly and Fluidly

The two main telecommunication standards for mobile wireless communications are cellular networks and connectivity. The cellular network represented by the 3GPP standard⁵ refers to telecommunication standards such as CDMA, LTE and 5G. It provides a wide range of service coverages in certain bandwidths licensed for mobile carriers and does this via the infrastructure of various base stations. Connectivity, on the other hand, is represented by IEEE 802.11(Wi-Fi)/802.15 (Bluetooth, ZigBee, UWB⁶). It utilizes Industry-Science-Medical (ISM) bandwidth that can be used by anyone. Connectivity follows local telecommunication standards for indoors and provides service to all.

▲ The types of Wi-Fi protocols for wireless connection

“Cellular network” is a service with an infrastructure based on mobility and is mainly operated by establishing networks that cover wide areas. On the other hand, “connectivity” provides wireless access among devices within a short distance without using infra-networks established by operators. This allows for the convenience of portability without wires. In particular, Wi-Fi boasts a faster transmission speed more reliably than cellular networks over relatively long distances, especially indoors. This is why Wi-Fi is so widely used for connecting mobile phones, laptops and so on. Just like peer-to-peer (P2P), Wi-Fi is better for selective and intensive telecommunication that can, when necessary, facilitate high transmission speeds. This makes it more appropriate for next-generation IoT devices, such as Augmented Reality (AR) and Virtual Reality (VR) devices.

These days, it is hard to even imagine daily life without Wi-Fi. It is easy to forget that, just 20 years ago, Wi-Fi was not expected to become the most commonplace wireless data telecommunications technology. However, as the industry expanded to smartphone-based technology, the realization grew that Wi-Fi was the most effective method of response to today’s data traffic explosion. Thanks to the lower cost of setting up and operating — when compared to cellular networks — it is a method that is still growing exponentially.

Unlike cellular systems using infra-networks, the data link range of a Wi-Fi network can only be extended up to a few hundred meters, so it is emphatically local. In addition, as it uses unlicensed bandwidth, it can be affected by interference from other telecommunication systems, making it risky for supporting advanced Quality of Service (QoS).⁷ However, as cellular and Wi-Fi convergence technology advances, it continues to provide a huge convenience: an undisrupted user experience. All over the world, Wi-Fi has long gone beyond being seen as a specific technology and is instead treated more like a public infrastructure.

“Back in 2016, a dedicated team was set up to get Wi-Fi technology to the point where it could be integrated into the Exynos processor,” said Joonsuk Kim, Executive Vice President of the Connectivity Development Team. Kim was the team leader when the Connectivity Team was first established when joining Samsung in 2016. “In only about four to five years, we completed the development of the legacy protocols all the way up to the sixth generation of Wi-Fi (Wi-Fi 6) by achieving technological stability and readiness. Although there was not enough investment or talent, our technology caught up in just a short period of time,” he recalled.

▲ Exynos’ Wi-Fi technology nearing the market leader in only six years

After its success in developing and commercializing Wi-Fi 6E, as well as all the previous Wi-Fi protocols, Samsung Electronics is now developing Wi-Fi 7, which is targeted for next generation flagship as a discrete modem. Since Wi-Fi needs to provide connection for all mobile and IoT devices supporting the latest protocol, it is crucial that the performance of all legacy protocols is improved and maintained and that the performance of the most recent protocol is similarly secured. This latest protocol — Wi-Fi 7 — will likely be expanded to the market from 2024. It boasts the Multi-Link Operation (MLO),⁸ a channel bandwidth of 320MHz and 4096QAM.⁹ Through these capabilities, Wi-Fi 7 will have the advantages of faster data transmission speed, increased data transmission volume, improved power efficiency and the ability to support undisrupted wireless connectivity, even in an environment where users abound.

▲ The size of the Wi-Fi market is projected to grow from 4.7 billion in 2022 to 6 billion in 2027.
Source: LANCOM (Survey Digital Policy in Germany), TSR (June 2022)

In order to further enhance the fast transmission speeds of Wi-Fi, the internal processor core needs to become more complex than it currently is, and an internal memory with a large capacity is required.

“To make this happen, we are staying focused on research and development of multi-processor structures, and on securing the intellectual properties necessary for fast transmission,” Kim said. “Until now, companies in other countries have been the main players leading the development of Wi-Fi solutions. But the Wi-Fi technology of Exynos is the only Wi-Fi solution in Korea that is commercialized on a large scale. I’m confident that, when it comes to embedded Wi-Fi solutions for mobile SoC, our technology comes second to none,” Kim said.

This is important, because, when it comes to Wi-Fi, only the best is good enough for customers. Although most people, in general, do not realize how much of an advanced technology Wi-Fi truly is, they do expect to be able to access fast, uninterrupted Wi-Fi almost wherever they are.

“Many users recognize revolutions in cellular networks, such as the LTE and 5G, as advanced technologies, thanks to their advertisement as major features of phones in mobile carriers’ active marketing,” said Kim. “However, by contrast, people do not quite seem to recognize how quickly Wi-Fi technology is evolving.”

▲EVP Joonsuk Kim has been working on connectivity technology for 20 years.

However, when asked if he thinks the role of Wi-Fi will still be important in the future, Kim was resolute.

“The data transmitted through Wi-Fi these days makes up 70 to 80%¹⁰ of overall wireless data traffic,” he said. “Cellular networks and connectivity technology pursue different usage scenarios and this is not likely to change any time soon. Wi-Fi technology and cellular technology should advance together by complementing each other. As the role of information technology (IT) becomes more important in our lives, the ability to minimize dead-zones and provide stable connections and fast data services indoors will become very important for Wi-Fi technology.”

To fully tap into future technologies like augmented reality (AR), virtual reality (VR) and the metaverse, fast speed and low latency are crucial.

“Wi-Fi uses low-frequency bandwidth, such as 2.4GHz, 5GHz and 6GHz,” Kim explained. “So the diffraction is relatively higher, and this enables the fast, stable transmission of data.”

As 320MHz frequency became usable with the availability of 6GHz bandwidth, connections between devices with ultra-fast and low-latency could be achieved even faster than originally expected. Kim emphasized the role of Wi-Fi advancement in this process. At the same time, the Connectivity Development Team developed and completed the commercialization of the latest specification (BT5.2), Bluetooth and GNSS that successfully entered the Flagship by applying L5 satellite and sensor correction technology for high-performance positioning, and recently indoor positioning with accuracy within several centimeters. Kim explained that if UWB technology, which has been developed for measurement and is in preparation for its first commercial use, can be combined, it can exert strong power in many high-spec IoT services and applications in the future.

“To help our latest products lead the market standard, to secure competitiveness and sustainability in the future and to make sure stability and compatibility are achieved well in advance, I personally hope that we implement wireless access points¹¹ and enter the relevant product market to do so,” Kim said.

Protecting Your Privacy on Smartphone: Security That Strengthens a Separate Security Operation Environment (iSE)

Smartphones play a lot of roles these days. Two particularly significant such roles are identification cards and wallets. Take biometrics, mobile identification (eID) and Samsung Pay, for example. These services often require users to verify their identity, and there is always the possibility that hacking can occur in the process of user verification. As such, a level of security that goes beyond the software level is called for, which means it is required on the hardware level and even in semiconductors.

The semiconductor that provides security in smartphones is called the Secure Element (SE) semiconductor. There is a separate embedded Secure Element (eSE) located outside the SoC, but, with Exynos 2020, an integrated Secure Element (iSE) is embedded in the security block inside the SoC.

“The name we have given to the project that focuses on iSE embedded in Exynos is ‘STRONG,’ which is an abbreviation of Secure Tamper-Resistant of Next Generation,” said Jongwoo Lee, Vice President of the Design Platform Development Team. “The iSE is a separate environment within the SoC that operates security programs. The iSE plays not only the role of the eSE — which can be separately embedded on the outside — but it can control the security of the SoC as well. Advanced processing means it boasts high performance, and it also enables safe expansion to external memory, such as DRAM and Flash. These many roles can be taken even further and protect the SoC in the active security module.”

▲ (From left) Keunyoung Park from the AP S/W Development Team, VP Jongwoo Lee, PL Bogyeong Kang and Sunghyun Kim from the Design Platform Development Team are doing their utmost to strengthen the security environment in mobile devices.

The iSE is used for device security and security services. Device security is focused on strengthening the security of the device itself, and security services are focused on the information of users that is held within mobile devices, like mobile identification, payment and car keys.

“At the beginning of this year, we finished the PoC (Proof of Concept) and succeeded in developing the iSIM,¹² the most applicable service using iSE,” Lee said. “This was a result of close cooperation between Samsung Research, which is in charge of the iSE Secure OS (Camelia), and the digital security company Thales, which is in charge of developing the iSIM Secure Application.”

The iSIM is an upgraded version of the embedded SIM (eSIM) and it integrates the function of the SIM within the SoC. This provides convenience for users because it allows them to change their mobile carrier without changing their SIM card, have more than two phone numbers at once and make use of various mobile carrier services on one device. From the perspective of smartphone manufacturers, the iSIM provides advantages as well, because it lets them remove the SIM card slot and reduce the space needed for parts: iSIM can be operated within the SoC without a separate semiconductor, as is the case with discrete eSIM.

▲uSIM, eSIM and iSIM size comparison

What makes the development of the iSIM so significant is the extreme difficulty developers encounter in meeting the technological environment requirements for embedding iSIM.

“The iSIM needs to meet Global System for Mobile Communications (GSMA) requirements,” said Lee. “That means embedding the iSIM over the OS software and hardware above a certain security level, a level called CC EAL4+.¹³ However, we have hardware that operates one level higher than this guideline: CC EAL5+. We also have secure external memory where large SIM profiles can be embedded.”

“We are the only company that can provide both the eSE and iSE, which are the basis for the eSIM and iSIM,” Lee continued. “So we can provide solutions that smartphone manufacturers can easily and flexibly adopt. Personally, I believe there is no such thing as ‘perfect’ in the area of security, but we are working hard to get as close to perfect as is technologically possible. Our teams will continue to make constant effort in providing a high-level security operation environment that can accommodate the many different security features different platforms provide.”

¹ Digital communication: A method of converting an analog signal into a digital signal, transmitting it to the other party and converting it back into an analog signal that can be recognized by humans. High-quality and large-capacity communication are possible compared to analog communication.

² Mobile broadband: A technology that provides high-speed multimedia Internet services to mobile devices such as smartphones and tablet PCs.

³ New Radio (NR): A 5^th generation mobile communication technology. Consists of sub-6 GHz and mmWave (millimeter wave, high frequency band of 24-100 GHz band). Although mmWave has the advantages of ultra-high speed, ultra-low latency and super-connectivity, it has the disadvantage of poor diffraction.

⁴ Institute of Electrical and Electronics Engineers (IEEE): An American association of electrical and electronic engineers and the world’s largest technical organization.

⁵ 3^rd Generation Partnership Project (3GPP): A mobile communication standardization technology cooperation organization founded in December 1998 to establish international standards related to wireless communication, such as GSM, WCDMA, GPRS and LTE.

⁶ Ultra-Wideband (UWB): A technique that lowers maximum transmit power to less than -41.3 dBm/MHz so as not to interrupt other wireless. However, it uses wide bandwidth (500MHz) to achieve comparably high data rates.

⁷ Quality of Service (QoS): This refers to the guarantee of communication service quality, delay time or data loss rate below a certain level on the network. It also refers to a communication service level agreed or defined in advance. In other words, it is a generic term for various technologies that intelligently match the transmission demand of various applications to a given network resource by allocating network resources such as bandwidth and priority in order to send data to a destination quickly, at a constant speed and reliably.

⁸ Multi-Link Operation (MLO): The technology that operates various channels of different frequency bandwidths at the same time.

⁹ 4096 QAM (Quadrature Amplitude Modulation): A modulation method for transmitting data by shifting and adjusting the amplitude and phase of the in-phase carrier signal and quadrature-phase carrier signal. It is advantageous when a large amount of data needs to be transmitted in a narrow transmission bandwidth. 12bits per symbol in a 4096QAM

¹⁰ Source: February 22, 2019

¹¹ Wireless Access Point: The low-power wireless device that plays the role of a base station in wireless LAN. It is also referred to as a Wi-Fi extender, Wi-Fi amplifier or wireless extender.

¹² iSIM (integrated SIM): A built-in subscriber identification module. Also called ieUICC (integrated embedded universal integrated circuit card)

¹³ Common Criteria Evaluation Assurance Level (CC EAL): Common Criteria (CC) is an international standard for evaluating the security of IT products and certain websites. Evaluation Assurance Level (EAL) is a grade that is assigned to evaluation assurance.

Equipped With a Brain That Surpasses Computers: Strengthening Cooperation With for CPU

In this second series installment, Samsung Newsroom sat down with two project leaders at Samsung Electronics to better understand the role of CPU and NPU in mobile devices. A computer’s central processing unit (CPU) is often compared to the human cerebrum, the largest part of your brain that handles many responsibilities. Similarly, the CPU is the most important unit that deals with a computer’s four main functions, which are memory, decoding, operation and control. CPU is the factor that determines the overall performance of a PC. Likewise, a mobile CPU runs all software on an operating system (OS) and controls other hardware peripherals, helping a smartphone perform at its optimal level.

CPU performance is determined by a variety of factors, including the clock speed,¹ IPC² and the number of cores.³ The phones of the past were powered by a single-core CPI with a simple pipeline structure. Consequently, there were limits in handling parallel processing, and the maximum frequency only amounted to a few hundred MHz. However, the CPU in smartphones today has a superscalar⁴ structure, allowing it to execute parallel processing for various commands or instructions. Additionally, it can run at 3 GHz speed, or 3 billion cycles per second, and have eight or more multi-core structures. Mobile CPUs now have a microarchitecture that pushes the performance beyond desktop CPUs.

Exynos’ CPU has evolved from a big core to a big-little and then a big-mid-little structure to keep its size small and power consumption low. Big-little structure is a processing architecture concept that dynamically switches between two types of cores — a big and a little — to maximize performance or maximize power efficiency, depending on the task. For example, the CPU performance needed for texting versus playing a 3D game is different. Therefore, when sending a text, the process uses a smaller, power-efficient core instead of a high-performing core.

▲ Project Leader Wookyeong Jeong has worked in the CPU field for more than 20 years since joining Samsung.

“CPU determines the competitiveness of all systems, including the SoC. It’s an influential area and the top priority when it comes to developing advanced semiconductor technology,” said Wookyeong Jeong, the SoC Design Team 2’s project leader who is in charge of all tasks related to the Exynos’ CPU. Jeong has worked in the CPU field for more than 20 years since joining Samsung.

“Achieving a high performance with a limited power budget is key,” said Jeong. “It is important to operate different types of CPU cores, including big, mid and little in appropriate combinations to achieve maximum efficiency in various situations.” Exynos’ CPU optimizes a combination of activated cores to deliver users the best experience in situations requiring high performance, such as playing a game or using a camera on mobile devices.

▲ CPU Core Structure of Exynos 2200

Based on the IP of semiconductor design company Arm, Samsung Electronics is taking the performance of CPUs up a notch. When Jeong was asked about the specific tasks of the team’s developers, he explained the team’s role and responsibilities.

“We decide the performance goal for the CPU of a product, acquire the CPU IP, predict and review the performance, validate and conduct debugging⁵ before mass production and further steps. We take care of the overall development work to enhance CPU performance,” Jeong explained. “The System LSI Business is responsible for taking the RTL CPU design from Arm to create an optimal semiconductor chip,” Jeong said. “The team is also responsible for designing and creating the CPU peripheral circuit, such as an appropriate memory subsystem, for maximizing CPU performance.”

“With the adoption of Arm CPU, we have a vision of becoming the mobile industry’s best CPU manufacturer by optimizing software not only on a chip level but also on a device level. We aim to become an E2E⁶ total solution provider,” said Jeong when asked about the future development direction of the company. “To achieve this goal, the CPU developers have been working very closely with Arm, device manufacturers, Samsung Foundry and others as one team since the early development stages. In addition, they’re seeking various ways to enhance performance, such as advanced packaging technology that enhances performance further,” Jeong explained.

“With the emergence of AR and the metaverse, appropriately utilizing all processors, such as CPU, GPU and NPU for comprehensive machine learning processing on a SoC level would give us an important, competitive edge. We’re going to focus on increasing our competitiveness by strengthening the CPU’s performance in machine learning processing as well,” Jeong added.

Real, Imaginative Technology: The Advancement of NPU Based on Proprietary Technology Throughout Six Generations

An NPU is a processor optimized for deep learning⁷ algorithm arithmetic. It can process a large amount of data as fast and efficiently as the human neural network. For such reason, it is mainly used for AI arithmetic and computation. While it may seem complicated, it is already commonly used in devices. For example, thanks to NPU, a smartphone’s camera can recognize and focus based on the objects, environment and people in the frame. It can automatically switch on the food filter mode for food photography or even remove unwanted subjects in the picture.

▲ AI Remover function within new smartphone improved as NPU developed.

In the past, when NPU did not exist, GPU mainly performed AI computation. However, the computation efficiency⁸ was low due to the hardware’s structural differences. These days, the NPU is mainly in charge of AI computation, and it can process data more efficiently in mobile devices as well. It’s optimized for parallel data computing so that AI-based applications can run faster on low power.

▲ Project Leader Suknam Kwon, who has been working on the NPU since its second generation, now leads the NPU developers.

Exynos’ NPU development began in 2016. The first SoC equipped with the NPU was Exynos 9820, which was embedded in the Galaxy S10 that was released in 2019. “When the first task force was formed six years ago, we had only about 20 people, but now our team has grown tenfold if we include the members from our overseas research institutes,” said project leader Suknam Kwon. Kwon used to design the hardware of the SoC and has been working on the NPU since its second generation. “The NPU is an area of high interest these days, but back then, it was so unfamiliar and new that we had to learn from videos and university lectures overseas.”

In the past, there were few applications for the NPU, including detecting objects based on images. However, in the era of AI, market demand for high-performing IP requiring a large amount of computation is increasing. This can be used to perform tasks such as improving camera picture quality, voice services and more. In addition, since size and power consumption increase as IP performance is enhanced, determining the most efficient architecture is key.

▲ AI using cloud servers compared to On-device AI

As NPU gets more powerful, it offers improvements in object recognition speed or photo enhancement. The performance of the NPU equipped in the latest Exynos is two times more enhanced compared to previous generation. By independently developing the NPU for six product generations, the SoC Design team’s expertise and know-how in NPU technology is second to none. “With advantages in benchmark such as the ML Per, power efficiency, size, etc., Exynos’ NPU is a highly competitive IP solution,” Kwon said. “Through optimization of architecture for performance and improvements in power efficiency, the NPU adds competitive value for Exynos processor,” he said.

Going forward, the technologies that utilize NPU will continue to evolve. “I think the on-device AI, which performs AI computation in one’s smartphone rather than going through a server, will become more widely used because there is less risk of having sensitive personal information leaked,” Kwon said. “Because of this, mobile NPU performance needs to be even more enhanced. These days, one NPU is used for many computations, but I predict that there will be more demands for operating specialized AI algorithms for each application program. So, developing an NPU that is specialized for each domain will be important as well,” he added.

When asked about autonomous driving, Kwon discussed the role that NPU will play in the industry. “In the near future, the advanced driver-assistance system (ADAS) will become a reality,” Kwon said. “It requires hardware that can perform autonomous driving algorithms using a massive amount of data in real time. To accomplish this, a higher-performing NPU is needed, and Samsung is preparing an NPU with powerful capabilities for autonomous driving devices that meet the market’s demands.”

At the end of the interview, Kwon explained the most meaningful moment that occurred during development. “Each year, Exynos comes with a higher-performing NPU that is increasingly enhanced, which is very meaningful,” he said. “It will continue to become a key IP for future markets. I take a lot of pride in the fact that developing NPU has led to the growth of both myself and the company — and even contributes to the country’s overall competitiveness,” he said. “It’s the best field where it makes the things in one’s imagination come true.”

* All images shown are provided for illustrative purposes only and may not be an exact representation of the product or images captured with the product. All images are digitally edited, modified or enhanced.

¹ Clock: Continuously generates electric oscillation of 0 or 1 for computation. It’s expressed in Hz, and a higher clock figure means a faster processing speed.

² IPC (Instructions per Cycle): Instructions processed per clock. It measures the clock needed to process one command or instruction. IPC is the unit that assesses how efficiently a CPU is operating.

³ Core: The key part in the physical processing circuit within the CPU. The more cores there are, the easier it is to perform multiple actions at the same time. Single-core means there’s one core, dual-core means there are two, quad-core means there are four and so on.

⁴ Superscalar: An architecture that combines the advantages of pipeline and parallel processing and enables instructions from multiple pipelines to be processed in parallel. The processing speed is fast because multiple instructions can be executed at the same time without having to go through waiting status first. 

⁵ Debugging: A process of checking whether the designed program is accurate, identifying program errors and fixing them.

⁶ End to End

⁷ Deep Learning: Technology that enables a machine to learn, infer and reason like human beings using data.

⁸ In mobile SoC, efficiency means it uses less power or has faster speeds.

Exynos: The Technology Intensive System Semiconductor

In the first installment of this series, Samsung Newsroom shares the importance of the graphics processing unit (GPU) and image signal processor (ISP) in the Exynos mobile processor (SoC). Before meeting with the seven IP development leaders, Samsung Newsroom first met with the SoC Development Head and Senior Vice President Mingoo Kim, who oversees system-on-chip (SoC) design in the System LSI Business.

Kim first explained the fundamental reason behind the concept of SoC, in which various features are all incorporated into a single chip. “When chips are divided, it becomes difficult to manage their power consumption completely,” Kim said. “When each feature consumes power separately, the battery efficiency also decreases. In addition, the bandwidth limit and transfer time latency will affect data transmission between chips, which can lead to reduction in performance.” Consuming minimal power is very important for smartphones because, unlike desktop computers, smartphones are not continuously supplied with power.

“SoC has high efficiency due to comprehensive power control. And as a single chip, it also takes up less space within a smartphone,” Kim explained. “When all functions are performed by a single chip, performance is significantly improved.” Modern mobile phones go beyond simply sending and receiving calls and texts and have evolved to perform a multitude of advanced functions, including taking videos, mobile gaming and accessing financial services. The SoC, which is smaller than a thumb nail, has played a big role in making this possible.

As the SoC is the epitome of all main types of information technology that exist today, Kim described it as the “flower of system semiconductors.” “SoC is not an easy field to work in, but it’s an optimistic field that any engineer would aspire to become a part of,” Kim said. “The role of SoC will be limitless in future industries, such as the metaverse, autonomous driving and 6G.”

Samsung will continue to focus on developing proprietary IP, including GPUs, NPUs, ISPs, modems, RF and more. Samsung strives to take another step forward in chip design to become a platform solution company. “With our competitiveness in SoC, we aim to see Exynos recognized as the best mobile processor brand available,” Kim said. “Through this feature series, we hope the role and importance of SoC, the characteristics and advantages of Exynos as well as its developmental direction will be shared with more people.”

Expanding the Possibilities of Mobile Gaming: GPU for More Enhanced Graphics

In general, graphics processing requires large-scale computation, and it is faster and more efficient if processed in parallel (parallel processing). However, the structure of a central processing unit (CPU) is specialized for fast, serial processing. As such, graphics processing with a CPU would cause important computations to be delayed due to this constant computational performance by CPU. One example of this can be seen when playing a game. It’s possible that your character may not be able to avoid an enemy due to the touch input being delayed while graphics are being rendered on the display.

To address these issues, GPU was developed. Before there were GPUs, CPUs took care of everything. However, GPU was conceived to increase efficiency as a separate accelerator for similar computations that are frequently used. In short, CPU is like a general-purpose calculator while GPU is a large-scale parallel calculator specializing in graphics processing. This is how GPU came to be, and it is one of the key components in graphics processing. It receives commands from CPU and displays an object’s shape, location, color and texture on the monitor.

The Xclipse 920 equipped in the Exynos 2200 is the first mobile GPU Samsung jointly developed with AMD, a U.S. based global company that specializes in semiconductor products like GPU for PC and consoles. The name ‘Xclipse’ is a combination of the ‘X’ from Exynos and the word ‘eclipse.’ The name represents Samsung’s goal to go beyond the limits of mobile gaming and carry out performance on the level of console games, ushering in a new era of gaming.

▲Vice President Sungboem Park, a mobile processor design expert who oversees GPU development

In line with this, Samsung collaborated with AMD to develop a power efficient, console-level GPU for mobile devices. AMD’s GPUs are designed specifically for PCs or consoles, meaning they had to be redesigned to fit the mobile environment. Specifically, it was redesigned to accommodate the memory bandwidth of mobile, which is relatively limited, in addition to managing heat dissipation. “Based on our rich knowledge of low-power design, acquired from developing mobile SoCs, we were able to successfully achieve power efficiency and miniaturization in the first-generation product,” said Vice President Sungboem Park, a mobile processor design expert who oversees GPU development. “We focused heavily on minimizing heat, because mobile devices do not have fans like gaming consoles, while also maintaining performance so that the frames do not lag.”

The main role of the GPU in Exynos is to display objects in a 3D virtual space on a 2D smartphone screen, a role that is especially important when playing graphically demanding games on mobile devices. In particular, the Xclipse 920 is the first mobile GPU to support hardware-accelerated ray tracing (RT). Ray tracing is a technology which produces realistic lighting effects by simulating light rays reflected from 3D objects. By being accelerated by hardware rather than software, Xclipse 920 is able to perform real-time computations faster. In addition, variable rate shading (VRS) technology adjusts the amount of GPU computation depending on changes in color, shade, movement and other variables of the objects on screen to reduce GPU overload.

▲The Xclipse 920 has its own hardware support for ray tracing (RT) technology, which produces realistic lighting effects by simulating light rays reflected from 3D objects.

As the number of game users grows and graphics become more detailed, the development direction of GPU is becoming increasingly more important. This includes increasing the performance level to that of high-performance consoles while lowering battery consumption. By improving these two crucial areas, users are able to experience high fidelity graphics on mobile devices similarly to how they are experienced on consoles. “In general, mobile tends to lag around five years or so behind consoles when it comes to graphics technology, however, we were able to incorporate the latest console technologies in the Exynos 2200 mobile processor quickly through our collaboration with AMD. The SoC is applied to the Galaxy S22,” Park said. “We plan to continue to implement other features in the RDNA series by working closely with AMD going forward.”

“As the performance of smartphones has become enhanced overall, it’s true that it’s not easy to create a performance edge that is significant enough for consumers to notice,” Park answered when asked about the future direction of mobile GPUs. “From now on, the reason for flagship smartphone users to purchase the latest smartphones will most likely be dependent on gaming performance,” he said. This means that the possibility of the further advancement of GPUs, which determines a smartphone’s gaming performance, is high.

He also predicted that mobile GPUs will become even more important in the fields of AR and VR as well. “For AR, GPUs will need to be equipped in lightweight devices, such as glasses, so a low-power design is very important,” Park said. “Performance requirements are much more demanding in the field of VR, as the entire visible virtual world needs to be rendered instantly. As such, we need to satisfy various development requirements while also generating more realistic images at a much faster rate than we currently can. So, the advancement of mobile GPU is crucial going ahead and will have limitless applications,” he emphasized.

Elevating the Level of Satisfaction in Camera Performance: ISP for More Natural and Vivid Images

An ISP corrects raw data transferred from an image sensor and creates a photo or video to a form preferred by the user. ISP also corrects the potential physical limitations of a camera module — comprised of an optical system and an image sensor — interpolates red, green and blue (R/G/B) and removes noise. In addition, it carries out post processing, such as adjusting the brightness of a video and emphasizing detailed areas. Simply put, through fine tuning and post processing, ISP generates the picture or video that is most desirable by the users.

▲ Whole process of ISP in Mobile Camera

In earlier smartphone models, ISP was equipped as a separate chip. However, due to market demand, embedded ISP soon became the norm. “At first, we cooperated with research institutes overseas to develop a high-performing ISP that can be used for digital cameras,” said Jongseong Choi, a project leader (PL) in the Multimedia Development Team who has been working in the video processing field for more than 20 years. “As a result, our first embedded ISP solution was utilized in the Galaxy S4’s main camera.” Since 2012, the Exynos mobile processor has been contributing to a substantial advancement in smartphone cameras’ video image quality through the internalization of ISP, enabling performance at the level of digital single-lens reflex (DSLR) cameras.

▲Jongseong Choi, Project Leader of the Multimedia Development Team, has been working in the video processing field for more than 20 years.

With a high-performing ISP, consumers are able to enjoy higher video image quality as well as faster processing speeds. “It’s difficult to explain in specific numbers how great a photo is because photography is subjective, but we are conducting various research studies such as video evaluation using deep learning and ISP tuning technique to create natural and sharp photos and videos,” Choi explained. In addition, ISP also determines the speed of the burst rate in continuous shooting and is responsible for the fast-processing of high-resolution photos and videos.

The high-performing ISP equipped in the latest Exynos can process up to 200 million pixels. Up to seven image sensors are supported, and videos and images from up to four image sensors can be processed simultaneously. Also included is the ability to apply different parameters per each element, such as sky, bushes, skin and so on by incorporating semantic segmentation technology that recognizes the scenes being captured with the help of NPU. The AI feature detects and marks a person’s face and adjusts the brightness, focus and color of the video based on the face’s coordinates.

▲ Example of contents aware image processing using semantic segmentation

When asked about the future direction of ISP, Choi answered that development will be focused on maintaining low-power usage and improving video image quality. “The data transferred from the image sensor is processed in real-time by ISP, but the amount of data is increasing exponentially,” Choi said. “So, a significant amount of power is consumed in writing the data into memory and then in retrieving it later. ISP in Exynos, however, is designed to save data in memory only once, thereby minimizing power consumption,” he emphasized.

“The era of videos has arrived faster than expected and, because of this, we’re focusing on improving the video image quality,” Choi said. “In particular, we’re making efforts to increase our competitiveness by improving the video image quality, even those taken in dark, low-light environments.”

* All images shown are provided for illustrative purposes only and may not be an exact representation of the product or images captured with the product. All images are digitally edited, modified or enhanced.

“Built on the most advanced 4-nanometer (nm) EUV (extreme ultraviolet lithography) process, and combined with cutting-edge mobile, GPU and NPU technology, Samsung has crafted the Exynos 2200 to provide the finest experience for smartphone users. With the Xclipse, our new mobile GPU built with RDNA 2 graphics technology from the industry leader AMD, the Exynos 2200 will redefine mobile gaming experience, aided by enhanced graphics and AI performance,” said Yongin Park, President of System LSI Business at Samsung Electronics. “As well as bringing the best mobile experience to the users, Samsung will continue its efforts to lead the journey in logic chip innovation.”

The Industry’s First Hardware-Accelerated Ray Tracing on Mobile for the Ultimate Gaming Experience

The Xclipse GPU is a one-of-a-kind hybrid graphic processor that is positioned between the console and the mobile graphic processor. Xclipse is the combination of ‘X’ that represents Exynos, and the word ‘eclipse’. Like an eclipse, the Xclipse GPU will bring an end to the old era of mobile gaming and mark the start of an exciting new chapter.

With the high-performance AMD RDNA 2 architecture as its backbone, the Xclipse inherits advanced graphic features such as hardware accelerated ray tracing (RT) and variable rate shading (VRS) that were previously only available on PCs, laptops and consoles.

Ray tracing is a revolutionary technology that closely simulates how light physically behaves in the real world. By calculating the movement and the color characteristic of light rays as they bounce off the surface, ray tracing produces realistic lighting effects for graphically rendered scenes. To offer the most immersive graphics and user experiences even on mobile, Samsung has collaborated with AMD to realize the industry’s first ever hardware-accelerated ray tracing on mobile GPU.

Variable rate shading is a technique that optimizes GPU workload by allowing developers to apply lower shading rate in areas where overall quality will not be affected. This gives GPU more room to work on areas that matter most to the gamers and improve frame-rate for smoother gameplay.

In addition, the Xclipse GPU comes with various technologies such as advanced multi-IP governor (AMIGO) that enhance overall performance and efficiency.

“AMD RDNA 2 graphics architecture extends power-efficient, advanced graphics solutions to PCs, laptops, consoles, automobiles and now to mobile phones. Samsung’s Xclipse GPU is the first result of multiple planned generations of AMD RDNA graphics in Exynos SoCs,” said David Wang, Senior Vice President of Radeon Technologies Group at AMD. “We can’t wait for mobile phone customers to experience the great gaming experiences based on our technology collaboration.”

Enhanced 5G Connectivity and Ironclad Security Features

The Exynos 2200 is one of the first in the market to integrate Arm’s latest Armv9 CPU cores which offer a substantial improvement over Armv8 in terms of security and performance, the two areas that are becoming critically important in today’s mobile communications devices.

The octa-core CPU of Exynos 2200 is designed in a tri-cluster structure made up of a single powerful Arm Cortex^®-X2 flagship-core, three performance and efficiency balanced Cortex-A710 big-cores and four power-efficient Cortex-A510 little-cores.

“The digital experiences of tomorrow require new levels of performance, security and efficiency,” said Rene Haas, President of IP Products Group (IPG) at Arm. “As one of the first processors to incorporate the new Armv9 CPU cores, Samsung’s Exynos 2200 takes advantage of Arm’s Total Compute strategy and key security features, like Memory Tagging Extension (MTE), to deliver the purpose-built compute and specialized processing needed to power future mobile experiences.”

The Exynos 2200 offers more powerful on-device artificial intelligence (AI) with an upgraded NPU. The NPU’s performance has doubled compared to its predecessor, allowing more calculations in parallel and enhancing the AI performance. The NPU now offers much higher precision with FP16 (16bit floating point) support in addition to power efficient INT8 (8bit integer) and INT16.

Also, the Exynos 2200 integrates a fast 3GPP Release 16 5G modem supporting both sub-6GHz and mmWave (millimeter Wave) spectrum bands. With E-UTRAN New Radio – Dual Connectivity (EN-DC), which utilizes both 4G LTE and 5G NR signals, the modem can boost the speed up to 10Gbps.

For safekeeping, the Exynos 2200 comes with Integrated Secure Element (iSE) to store private cryptographic keys as well as to play a role as RoT (Root of Trust). Also, an inline encryption HW for UFS and DRAM has been reinforced to have user data encryption safely shared only within the secure domain.

Providing Enhanced Visual Experience and Professional-Level Quality Images

The Exynos 2200’s image signal processor (ISP) architecture has been redesigned to support the latest image sensors for ultra-high resolution of up to 200 megapixel (MP). At 30 frames-per-second (fps), the ISP supports up to 108 MP in single camera mode, and 64+36 MP in dual camera mode. It can also connect up to seven individual image sensors and drive four concurrently for advanced multi-camera setups. For video recording, the ISP supports up to 4K HDR (or 8K) resolution.

Together with the NPU, the ISP utilizes an advanced content-aware AI camera for more refined and realistic results. When taking a photograph, the machine learning based AI camera recognizes multiple objects, the environment and faces within the scene. It then applies optimal settings for color, white balance, exposure, dynamic range and more to produce professional-level quality images.

With 8K resolution support, the Exynos 2200’s advanced multi-format codec (MFC) makes videos truly come to life. It decodes videos up to 4K at 240fps or 8K at 60fps and encodes up to 4K at 120fps or 8K at 30fps. In addition, the MFC integrates power efficient AV1 decoder enabling longer playback time. The advanced display solution features HDR10+ adding more dynamic range and depth to the picture and offers refresh rates of up to 144Hz for a more responsive and smoother transitioning experience when scrolling or playing games.

The Exynos 2200 is currently in mass production. Click here to learn more about the Exynos 2200.

For more information about Samsung’s Exynos products, please visit http://www.samsung.com/exynos.

^* Actual performance may vary depending on device and user environment.

Chang Wan Kim, a project manager at Samsung Electronics, said his inspiration for making the film could be summed up by one word: ‘Together’.

“We wanted to create a short film that expressed our gratitude to the fans who have always supported us and have stayed ‘together’ during the pandemic,” said Chang Wan Kim.

Inspired by the power of that word, Dong Chul Kim, the director of the film, set out to tell a story that captured the spirit of how we are all going through the same pandemic and meeting the same challenges. He also felt the power of the Exynos team’s message of consolation and gratitude, and saw how it could bring people closer together and remind them that they’re not alone, even when they’re apart.

The result is a heartbreakingly beautiful story that symbolizes our will to overcome this pandemic together, with characters specially created to symbolize the challenges we’re all facing.

“The boss character from the battle scene with our two heroes represents the coronavirus,” related Dong Chul Kim. “I wanted to visualize how we are getting through the pandemic ‘together’. This was achieved by creating a story in which the two worlds mirror each other, so that if the priest revived the warrior in the game world, our gamer would then go help someone else in the real world.”

But the production process was anything but smooth. COVID-19 brought unforeseen difficulties, forcing the team to finish producing the film from home. And to make matters worse, some members of the production team actually contracted COVID-19 during the production process.

“I realized while working on this film how much I miss the times when we would just meet up, share ideas and act out the scenes together,” said the film’s producer, So Young Park.

Despite the setbacks, the team didn’t give up on creating a story and set of characters that would comfort and inspire people.

“We wanted to give the impression that maybe the priest who disappeared from the game could actually be the doctor the boy meets in real life,” said Seo Ki Lee, the film’s art director. “So, we tried to capture the delicate feeling of compassion and the desire to give support that two people feel toward one another. We think younger generations are probably feeling a sense of deprivation while living in this pandemic, but we hope that they’ll get through this tough period and still grow into wonderful adults.”

The film finishes with a hopeful prediction for the future. As the story wraps up, the pandemic has ended, people are returning to their daily lives, and we see new possibilities emerge when the main character gets a smartphone as a gift. But the real gift portrayed by the story is that everyone is reuniting with their loved ones and returning to normal life.

“Maybe that’s the gift everyone really wants this holiday season,” said Dong Chul Kim.

While this brief story ends on a hopeful note for the future, it may leave some viewers asking why Samsung chose to base the story on gaming. Gaming fans, meanwhile, have probably already caught on to the hidden meaning behind the film’s ending.

“We are always working hard to wow our gaming fans,” said Chang Wan Kim. “So, we started out by designing our main character as a gamer. Through this young gamer character, we tried to reflect the current gaming trend of the shift from console to mobile.”

And the Exynos team has revealed that they’re preparing another small gift for fans who love gaming. Early next year, fans can look forward to unwrapping another small but powerful gift from Exynos.

“Smarter and more connected automotive technologies for enriched in-vehicle experiences including entertainment, safety and comfort are becoming critical features on the road,” said Jaehong Park, Executive Vice President of System LSI Custom SOC Business at Samsung Electronics. “With an advanced 5G modem, an AI-enhanced multi-core processor and a market-proven PMIC solution, Samsung is transfusing its expertise in mobile solutions into its automotive lineup and is positioned to expand its presence within the field.”

Exynos Auto T5123: The Industry’s First 5G Connectivity Solution for Automobiles

The Exynos Auto T5123 is a 3GPP Release 15 telematics control unit specifically designed to bring fast and seamless 5G connectivity in both standalone (SA) and non-standalone (NSA) mode to the next generation of connected cars. It delivers essential information to the vehicle in real-time via high-speed download of up to 5.1 gigabits per second (Gbps) and allows passengers to enjoy a host of new services such as high-definition content streaming and video calls on the go.

To efficiently process large amounts of data transmitted and received through the 5G modem, the Exynos Auto T5123 supports a high speed PCIe (PCI Express) interface and a low-power high-performance LPDDR4x mobile DRAM. In addition, the unit comes with two Cortex-A55 CPU cores and a built-in Global Navigation Satellite System (GNSS) to minimize the use of external ICs and help reduce product development time. The T5123 meets stringent requirements for automotive components and is Automotive Electronics Council-Q100 (AEC-Q100) qualified.

The Exynos Auto T5123 is currently in mass production and is delivering 5G-based vehicle communication capabilities for the first time in the industry.

Exynos Auto V7: A Powerful Processor for IVI Systems in Mid to High-End Vehicles

The Exynos Auto V7 is the newest addition to Samsung’s automotive-brand processor lineup and is designed for in-vehicle infotainment systems. For powerful processing performance, the V7 integrates eight 1.5-gigahertz (GHz) Arm Cortex-A76 CPU cores and 11 Arm Mali G76 GPU cores. The GPU comes in two separate groups, with three cores in the ‘small’ domain for cluster display and AR-HUD, and eight in the ‘big’ domain for central information display (CID) and others. Such physical separation allows the GPU to support multiple systems simultaneously and brings safer operation as it keeps one domain from interfering with another. In addition to its powerful CPU and GPU, the V7 is equipped with an NPU for convenient services such as virtual assistance that can process visual and audio data for face, speech or gesture recognition features.

For a safer and more enjoyable driving experience, the Exynos Auto V7 supports up to four displays and 12 camera inputs that provide information to assist drivers and passengers. The V7’s imaging system provides bad pixel correction, dynamic range compression and geometric distortion correction to provide noiseless and distortion-free images for features like surround view and parking assistance. For immersive in-car entertainment, the chip comes with three HiFi 4 audio processors that deliver excellent audio quality for songs, movies and even games on the go. To run all these features as smoothly as possible, the V7 has up to 32 gigabytes (GB) of LPDDR4x memory capacity that offers high bandwidth of up to 68.3 gigabytes per second (GB/s).

The Exynos Auto V7 also offers strong data protection through an isolated security processor for crypto operation and provides a hardware key using a one-time programmable (OTP) or physical unclonable function (PUF). Furthermore, for critical functional safety, the Exynos Auto V7 complies with ASIL-B requirements of safety support for a digital cluster and an embedded safety island that detect and manage faults to maintain a safe state with a fault management unit (FMU).

The Exynos Auto V7 is currently in mass production and is being used in Volkswagen’s latest In-Car Application-Server (ICAS) 3.1, developed by LG Electronics’ VS (Vehicle component Solutions) division, to power their next-generation in-vehicle infotainment system.

S2VPS01 – An ASIL-B Certified Power Management IC for the Exynos Auto V Series

The S2VPS01 is a PMIC specifically designed and developed for the Exynos Auto V9 and V7. It is Samsung’s first automotive solution produced under the ISO 26262 functional safety process certification that was acquired in 2019, and it also achieved an ASIL-B certification in 2021.

An Automotive Safety Integrity Level (ASIL), specified under ISO 26262, ranges from A to D, with D being the highest level. The Level is assigned by analyzing and assessing the severity, exposure and controllability of vehicle operations in a number of environments. To ensure the safety of vehicle systems, ASIL-B compliance is becoming a key requirement for automotive OEMs and their Tier 1 suppliers when selecting partners and solutions. 

The S2VPS01 regulates and rectifies the flow of electrical power, allowing reliable and robust in-vehicle infotainment system performance. It is comprised of highly efficient triple/dual-phase buck converters, and integrates a low-dropout regulator (LDO) and real-time clock (RTC) within the package. For protection from harsh thermal and electrical conditions, the power IC comes with various protection functions including over voltage protection (OVP), under voltage protection (UVP), short circuit protection (SCP), over current protection (OCP), thermal shut down (TSD), clock monitoring and output stuck checks.

For more information about Samsung’s Exynos products, please visit http://www.samsung.com/exynos.

Samsung Electronics, a world leader in advanced semiconductor technology, today announced its new wearable processor, the Exynos W920. The new processor integrates an LTE modem and is the first in the industry to be built with an advanced 5-nanometer (nm) extreme ultra-violet (EUV) process node, offering powerful yet efficient performance demanded by next-generation wearable devices.

“Wearables like smartwatches are no longer just a cool gadget to have. They’re now a growing part of our lifestyles to keep you fit, safe and alert,” said Harry Cho, vice president of System LSI marketing at Samsung Electronics. “With the Exynos W920, future wearables will be able to run applications with visually appealing user interfaces and more responsive user experiences while keeping you connected on the go with fast LTE.”

The Exynos W920 packs two Arm^® Cortex^®-A55 cores for high-performing yet power-efficient processing and an Arm Mali-G68 GPU that boasts improved CPU performance around 20-percent and ten times better graphics performance than its predecessor. With upgraded cores and improved performance, the Exynos W920 enables faster application launches and more interactive eye-catching 3D graphical user interface (GUI) on a device’s qHD (960×540) display.

Even with the latest features and enhancements, the Exynos W920 comes in the smallest package currently available in the market for wearables with Fan-Out Panel Level Packaging (FO-PLP). The technology incorporates the Exynos W920, power management IC (PMIC), LPDDR4 and embedded multimedia card (eMMC) in the same package using System-in-Package-embedded Package on Package (SiP-ePoP) configuration. The processor’s compact size allows smartwatches to house larger batteries or don sleeker designs.

Always-on-display (AOD) for wearables, especially for smartwatches, is a widely adopted feature as it makes it effortless to take a quick look at the time, notifications, missed calls and more without the need to wake the watch up from sleep mode. Rather than powering up the main CPU, the W920 activates a dedicated low-power display processor, the Cortex-M55, reducing display power consumption under AOD mode compared to its previous Exynos model.

For seamless connected experiences on the go, the Exynos W920 is embedded with a 4G LTE Cat.4 modem as well as a Global Navigation Satellite System (GNSS) L1 for tracking speed, distance and elevation during outdoor activities.

The Exynos W920 supports a new unified wearable platform Samsung built jointly with Google, and will be first applied to the upcoming Galaxy Watch model.

For more information about Samsung’s Exynos products, please visit http://www.samsung.com/exynos.

* Editor’s Note: Actual performance may vary depending on device and user environment.

The video follows one man’s journey of reflection as he befriends a magical character from his smartphone and rediscovers a long-forgotten dream. Check out the video in full below.

Just like the spirit within us that drives us to overcome adversity and pursue our dreams, mobile processors drive mobile innovation and push the mobile experience to its limits. In the era of 5G and AI, the versatility and performance of the mobile processor has become more important than ever.

Exynos processors, combined with 5G modems, deliver seamless, lightning-fast connectivity experiences to users. Featuring an integrated neural processing unit (NPU) for on-device AI, the latest Exynos chips allow for cutting-edge mobile experiences including AI-powered cameras, virtual assistants and augmented reality. The chips’ powerful octa-core CPUs enable seamless multitasking and faster app loading, while their advanced graphics processing units (GPU) bring users lifelike visuals and immersive gaming.

Stay tuned for more news about Exynos processors as Samsung continues to develop next-generation products and technologies that deliver cutting-edge mobile experiences to users.

Based on a power-efficient 28-nanometer (nm) process technology, the Exynos i T100 is optimized to be used with short-range IoT devices that automate and control environments within homes or businesses. The vast array of applications for such devices would include smart lighting, home security and monitoring, temperature control, fire and gas detectors, and fitness wearables.

“Low-power short-range IoT solutions that connect various products in our homes or buildings can make our lives easier and safer,” said Ben Hur, senior vice president of System LSI marketing at Samsung Electronics. “The Exynos i T100, engineered with multiple communication protocols along with strong security capabilities, will help further extend IoT services in areas where they could benefit our everyday lives.”

The Exynos i T100 supports popular short-range communication protocols, Bluetooth Low Energy (BLE) 5.0 and Zigbee 3.0, and also integrates the processor with memory in a small single-chip package, all to enhance flexibility in the product development process of device manufacturers.

Strong security features that protect against potential hacking and other threats is a must when it comes to wireless IoT devices that automate and control their environment. The Exynos i T100 comes with a separate Security Sub-System (SSS) hardware block for data encryption and a Physical Unclonable Function (PUF) that creates a unique identity for each chipset. 

This new IoT solution also adds to reliability in that it can endure extreme temperatures as low as -40°C and up to 125°C.

The Exynos i T100 is currently sampling.

For more information about Samsung’s Exynos products, please visit http://www.samsung.com/exynos.

The Exynos i T100 enhances the security and reliability of devices designed for short-range communications, and has been developed to be used in smart home or business environment ecosystems – from smart lighting and temperature control to home security and monitoring and fire and gas detectors. Created with multiple communication protocols, strong security capabilities and an integrated processor and memory chip package, the Exynos i T100, along with the Exynos i T200 and Exynos i S111, provides comprehensive connectivity for today’s IoT devices.

Check out the infographic below for more information on the full line-up of Samsung’s IoT solutions and capabilities.

Samsung Electronics, a world leader in advanced semiconductor technology, today announced that its 5G communication solutions are in mass production for the latest premium mobile devices. The 5G multi-mode chipsets include the previously-introduced Exynos Modem 5100 as well as a new single-chip radio frequency transceiver, the Exynos RF 5500, and supply modulator solution, the Exynos SM 5800, all supporting 5G New Radio (5G-NR) sub-6-gigahertz (GHz) spectrum and legacy radio access technologies that provide mobile device manufacturers with optimum network communication solutions for the 5G era.

“Samsung has been an innovator in mobile communication technologies with a strong portfolio of market-proven solutions, and we are well-prepared to extend our leadership into 5G,” said Inyup Kang, president of System LSI Business at Samsung Electronics. “Our multi-mode solutions, the Exynos Modem 5100, Exynos RF 5500 and Exynos SM 5800 will together enable powerful yet energy-efficient 5G performance along with the network versatility that allows users to stay connected wherever they are.”

Exynos Modem 5100 is Samsung’s first 5G modem solution that had completed preparations for commercialization in August, 2018, with a successful over-the-air (OTA) 5G-NR data call test. The modem supports virtually all networks from 5G’s sub-6GHz and mmWave spectrums to 2G GSM/CDMA, 3G WCDMA, TD-SCDMA, HSPA and 4G LTE networks in a single chip.

For reliable and power-efficient performance, the modem is paired with RF and supply modulator solutions, Exynos RF 5500 and Exynos SM 5800 respectively.

Samsung’s Exynos RF 5500 supports legacy networks and 5G-NR sub-6GHz networks in a single chip, offering added flexibility in smartphone designs, especially for today’s premium mobile devices. RF transceivers are key components that allow smartphones to transmit and receive data over the cellular network. When transmitting voice or data from a smartphone to a carrier, the RF up-converts the modem’s baseband signal to high GHz-range cellular frequencies so that data can be sent swiftly over the connected network. Vice versa, when receiving, the signal is down-converted by the RF to baseband frequencies for it to be processed by the modem. The Exynos RF 5500 has 14 receiver paths for download, and supports 4×4 MIMO (Multiple-Input, Multiple-Output) and higher-order 256 QAM (Quadrature Amplitude Modulation) scheme to maximize the data transfer rate over the 5G network.

The Exynos SM 5800 is a low-power supply modulator solution for 2G to 5G-NR sub-6GHz that supports up to 100MHz envelope-tracking (ET) bandwidths. As the possibilities for richer content with higher data rates open up with the arrival of 5G, maintaining a highly efficient RF has become more critical in ensuring a longer battery life in a mobile device. The Exynos SM 5800 demonstrates up to a 30-percent power reduction by dynamically adjusting the supply voltage according to the modem’s RF input signal. With an advanced power optimizing ET solution for RF, data can be transmitted more efficiently and reliably over the incredibly fast 5G network.

Both the Exynos RF 5500 and SM 5800’s technological breakthroughs have been recognized by the International Solid-State Circuits Conference (ISSCC) committee and were presented at ISSCC 2019 held at San Francisco last February.

As the industry moves forward to unfold and discover the full benefits of 5G, Samsung plans to continue pushing for innovation in mobile communication technologies, including RF transceiver and phased array solutions for mmWave along with 5G-embedded mobile processors, that will further drive the proliferation of new applications in mobile devices and emerging industries.

The Exynos 9820 has an integrated neural processing unit (NPU) to deliver deep learning capabilities whilst using less power. With the NPU, Exynos 9820 can perform AI-related functions seven times faster than its predecessor based on TOPS (Tera Operations Per Second).¹

This allows the processor to implement AI anywhere, anytime through its on-device artificial intelligence. With on-device AI, a mobile device can perform artificial intelligent activities with lower latency, better power efficiency, and stronger security than when utilizing the cloud. It enables the mobile device to offer new and improved artificial intelligence features such as personal assistant services, augmented reality and enhanced camera functions.

A desktop-like experience on a mobile device is now reality thanks to next-generation mobile processors that can achieve exceptional computing power. The Exynos 9820 features tri-cluster octa-core CPU architecture consisting of two Samsung custom cores for running heavy computational tasks, two Arm^® Cortex^®-A75 cores for optimal performance, and four Cortex-A55 cores for everyday tasks, thus heightening processing power. Samsung’s fourth-generation custom CPU is implemented with enhanced memory access capability and advanced architecture design, improving the single core performance by up to 20 percent over its predecessor.¹  Furthermore, tri-cluster architecture features an intelligent task scheduler to optimize the balance between performance and efficiency for longer lasting battery life.

The Exynos 9820 integrates an LTE-Advanced Pro modem for lightning-fast mobile broadband speeds. To achieve fast downloads, seamless video streaming, and smooth online gameplay, the modem supports LTE category 20 with 8x carrier aggregation enabling downlink speed of up to 2.0Gbps.²

The modem also enhances stability and speed even further through diverse advanced modem technologies including 4×4 Multiple-Input, Multiple-Output (MIMO), 256-QAM (Quadrature Amplitude Modulation), and Enhanced Licensed-Assisted Access (eLAA). Furthermore, the Exynos Modem 5100, Samsung’s 5G cellular modem, can be paired with the Exynos 9820 to support the 5G network.

For an immersive gaming experience on the go, the Exynos 9820 comes with a high-performance Mali-G76 MP12 graphic processing unit (GPU). Featuring wider execution engines – with double the number of lanes than its predecessor – alongside cutting-edge graphics compression techniques and advanced APIs support, the Exynos 9820 provides dramatic uplifts in both performance and efficiency for complex graphics. The Exynos 9820 offers up to 40 percent improvement in performance or 35 percent enhancement in power efficiency.¹

The Exynos 9820 is engineered to capture clear images at any time of the day. With its advanced image signal processor (ISP) for multi-camera solutions, the Exynos 9820 supports diverse cutting-edge photography functions which are further enhanced by AI-capabilities. The Exynos 9820’s ISP has increased the maximum number of sensors it can support from four to five, facilitating flexible multi-camera solutions on a mobile device with diverse functionalities such as optical zoom and bokeh effect. This means that, when a user clicks the shutter button within the camera app, billions of arithmetic operations are performed by the advanced ISP to generate better focus, accurate exposure and white balance, vivid color and less noise, producing amazing photographs.

The Exynos 9820 is also built to transform those special moments into spectacular videos. As recording a video in high-resolution can occupy a large space within a limited storage capacity, a processor must compress the video with a video codec in order to store and transfer it efficiently. The advanced Multi-Format Codec (MFC) in the Exynos 9820 processor can encode and compress 8K video into a smaller file size thanks to its 10-bit HEVC codec, which delivers highly efficient video compression with 10-bit color support. This means users need not worry about running out of storage space – even when recording videos in high resolution. Furthermore, the 10-bit HEVC codec can generate 1,024 different tones for each primary color, which translates into 1.07 billion color combinations.

The advanced display subsystem is built to present high quality multimedia content on an HDR display. The HDR display reproduces lifelike colors with a high level of accuracy. Notably, the Exynos 9820 supports HDR10+, a new open standard for HDR video which employs dynamic tone mapping allowing scenes to be optimized individually. With this powerful display subsystem, the Exynos 9820 can support a 4K UHD display on a mobile device, offering mesmerizing multimedia experiences.

Now these advanced benefits allow people to run daily errands and perform personal tasks using their mobile device alone and they must be accompanied by strong security. The Exynos 9820 features a physically unclonable function (PUF), also known as a digital fingerprint, to manage personal data in perfect isolation, making for more reliable security. PUF generates an unclonable key for data encryption by using the unique physical characteristics of each chip. While the PUF creates a unique digital fingerprint, the security subsystem is a secure key manager that supports other security protocols, such as key generation, storage and derivation.

The Exynos 9820 is built on an advanced FinFET process with a low power design scheme, meaning all of this can be done while consuming less power. The 8nm LPP (Low Power Plus) FinFET process reduces power consumption by up to 10 percent compared to 10nm LPP process.³ The Exynos 9820 also optimizes the power consumptions of the CPU and the GPU through reductions in idle and leakage power and operating voltage.

¹ Tested internally on the Exynos 9820 and the Exynos 9810

² Actual speed may differ by country and carrier.

³ Tested internally on Samsung’s 8nm LPP and 10nm LPP

※ Arm, Cortex and Mali are registered trademarks or trademarks of Arm Limited (or its subsidiaries) in the US and/or elsewhere.

※ All functionality, features, specifications and other product information provided in this document including, but not limited to, the benefits, components, performance, availability, and capabilities of the product are subject to change without notice or obligation.

Samsung Electronics today announced how the company’s investment and leadership in AI, IoT, and 5G technologies will serve as the building blocks for its vision for Connected Living. The company also unveiled its future AI-powered robotics platforms, which can be used to manage activities of daily living, such as helping an aging population independently manage their health routine.

“2019 is Samsung Electronics 50^th anniversary, and for the last five decades, we’ve been committed to bringing meaningful innovations to consumers everywhere,” said HS Kim, President and CEO of Consumer Electronics Division, Samsung Electronics. “In 2019, we’re taking things to the next level, and leveraging our industry leadership to make our vision of Connected Living a reality.”

HS Kim, President and CEO of Consumer Electronics Division, Samsung Electronics gives his opening remarks, welcoming guests to Samsung Electronics’ CES 2019 Press Conference.

Accelerating the Intelligence of Things with IoT, 5G, and AI  

Driving Samsung’s Connected Living philosophy is the Intelligence of Things – IoT, 5G, and AI working together across devices, to create seamless experiences. At its CES press conference in Las Vegas today, the company explained how its work in these core technologies is enabling innovation throughout its product portfolio.

Since unifying the SmartThings app and introducing the SmartThings Cloud, the SmartThings ecosystem has grown significantly. The number of registered SmartThings users has grown 220 percent and app installs have increased 61 percent. The number of partners participating in this ecosystem has also grown by 44 percent. Today, consumers can enjoy SmartThings experiences with devices from top global brands like Amazon, Google, Bose, Sylvania, and Plume.

Samsung leveraged its telecommunications leadership to make major strides in bringing 5G connectivity to consumers. Samsung is the number one patent holder with ETSI¹, having registered more than 2,000 5G essential patents as of November 2018. And it is the world’s first company to receive FCC approval on its commercial 5G equipment. The company powered the commercialization of home and mobile 5G networks with major U.S. carriers and all three mobile carriers in Korea, with additional trials running in Europe and Asia. Samsung is also committed to putting the power of 5G in consumers’ hands, with a 5G smartphone coming in the first half of 2019.

Samsung believes that AI is most useful when it helps to simplify a complex world. To that end, the company established seven Global AI Centers, and is adopting unique technologies into its products and services. And to ensure that Samsung works with the best and the brightest in the field, Samsung NEXT and the Samsung Strategy and Innovation Center (SSIC) have invested in more than 20 AI-related startups over the last five years.

Bixby, Samsung’s Intelligence Platform, Expands

Bixby started as a smarter way to use your Galaxy phone. Today, it is evolving to become a scalable, open AI platform that will support more and more devices. The company announced that Bixby intelligence will be infused into its 2019 QLED and premium TVs, and smart appliances like refrigerators, washers, as well as air conditioners, mobile devices, AI speakers and more. What’s more, Bixby is expanding to a new Digital Cockpit and robotics platforms.

Uber, Ticketmaster and others are using Bixby to make their services more intelligent. Today, Samsung announced that iHeartRadio joined as a new partner. And, Bixby will continue to grow as more partners, such as Google, join the ecosystem.

Samsung also announced its core AI philosophy: Fairness, Accountability, and Transparency. As it works to advance AI technology, Samsung is committed to ensuring the algorithms it builds are inclusive, the protection of user information and privacy are top priorities, and it’s easy for consumers to understand what the company does with their data and how it is handled.

Next Level Experience of Samsung’s 2019 Portfolio

Samsung also introduced a lineup of new innovations, all of which streamline and simplify day-to-day tasks, and offer a more personalized and unique experience for each user, in a way that only Samsung can.

Entertainment:

Samsung unveiled its 98” QLED 8K – it’s largest yet – adding to its 2019 lineup that features 65”, 75”, 82”, and 85” models. Embedded with the Quantum Processor 8K chip, the 2019 8K line delivers the best in QLED picture quality, design, smart features in more sizes than ever in stunning 8K resolution. Whether a viewer is watching content through a streaming service, set-top box, HDMI, USB or even mobile screen mirroring, Samsung’s proprietary AI-based technology can recognize and upscale any content, regardless of the native resolution, to near pristine 8K quality. This is Samsung’s smartest and most powerful TV yet.

Dave Das, Senior Vice President of Samsung Electronics America, unveils the 98-inch QLED 8K.

In 2019, Samsung Smart TVs offer more ways to search for content and more compatibility with connected devices than ever before. With an improved AI algorithm that leverages a user’s subscription services, favorite content, and TV viewing habits, the Universal Guide makes it easier for users to find the perfect show for them to watch. Users also have more options than ever to quickly and easily find and control their favorite content with just their voice by using new Bixby and the AI Remote as well as even more ways to control their Samsung TVs through Amazon Echo and Google Home.

(From left) Dave Das, Senior Vice President of Samsung Electronics America and Yoon Lee, Senior Vice President of Samsung Electronics America, demonstrate the Universal Guide with new Bixby on a 2019 Samsung Smart TV.

In a move to deliver more entertainment options, value and open platform functionality to Samsung Smart TV users, Samsung announced it will offer iTunes Movies and TV Shows and Apple AirPlay 2 support on 2019 Samsung Smart TV models beginning this spring. Support on 2018 Samsung Smart TVs will be made available via a firmware update. In an industry first, a new iTunes Movies and TV Shows app will debut only on Samsung Smart TVs in more than 100 countries. AirPlay 2 support will be available on Samsung Smart TVs in 190 countries worldwide.

Home:

Family Hub 2019 is more intuitive and intelligent than ever before. The new Family Board offers a completely redesigned screen experience, letting family members communicate and share memories in a creative space on the front of the fridge. Honored with a CES 2019 Innovation Award, Family Hub 2019 with the new Bixby lets users interact in natural language to get answers to complicated questions, preset the oven, search for recipes, and even call an Uber. In addition, Bixby visually shows you information on the screen for a richer experience and displays an array of visual information. These new features will also be available via automatic update for most earlier Family Hub models.

(From left) John Herrington, Senior Vice President, General Manager of Home Appliances, Samsung Electronics America and Yoon Lee, Senior Vice President of Samsung Electronics America, demonstrate Family Hub’s enhanced AI and IoT capabilities during Samsung’s CES 2019 press conference.

The new front load washer, also a 2019 CES Innovation Award winner, can finish a full load in just 30 minutes² with the SuperSpeed feature. With Bixby, users can also control its smart features like getting recommendations for the best wash cycle, scheduling a cycle to be completed at a users’ preferred time, automatically connecting the dryer cycle when the washer is done, or monitoring usage to efficiently manage their laundry appliances.

Work:

Samsung revealed a line of new, innovative products that combine productivity and flexibility to help consumers get things done more conveniently. The redesigned Notebook 9 Pro is engineered for on-the-go modern professionals to help them reach their true creative potential, while the Notebook Odyssey gaming laptop, powered by the new high-end NVIDIA® GeForce RTX 20-series GPU, is ready for both work and play. Samsung Space Monitor leverages its sleek design and functionality to allow users to focus on what’s on the screen and not what’s around it. Its unique built-in space saving solution, a minimalist, fully-integrated clamp stand that grips to the desk, tilting back and forth to free up space for optimal user productivity. Beyond aesthetics, Samsung’s Space Monitor is a feature-rich, high-performance monitor. The 27-inch model offers QHD resolution for incredibly detailed, sharp images, while the 32-inch model presents content in 4K UHD.

Connected Driving:

Samsung also presented its latest development with HARMAN, showcasing its innovation in automotive technology. The Digital Cockpit 2019 offers an enhanced connected car experience focused on connectivity, personalization, and safety.

With the integration of Bixby’s connected car experience, drivers can remotely check how much gas they have before going on a long road trip or set the car temperature before heading out for the day. Using onboard cameras, the new Digital Cockpit recognizes specific drivers and passengers and sets up the car’s personal space accordingly – adjusting the display preferences, seat height, lighting, and queuing up favorite playlists. Passengers can even enjoy personalized screens on the rear seats and connect to In-vehicle Samsung DeX to get work done on-the-go. The Digital Cockpit 2019 also provides a safer driving experience with the mirror replacement vision system and camera-based safety solutions.

All of this is possible thanks to Cellular-V2X technology that incorporates Samsung’s expertise in mobile network solutions with automotive technologies. With Samsung’s C-V2X, cars will be able to receive and analyze information that will make the driving experience safer and more enjoyable.

Device Solutions:

In order to power tomorrow’s AI technologies, Samsung emphasized that today’s AI infrastructure must evolve to handle intelligence at the edge. For this reason, the company is working to launch a comprehensive portfolio of solutions that will shape the future of intelligent devices.

Samsung’s mobile memory and AI-enabled processors, including the recently-announced Exynos Auto line, will allow for faster and more efficient on-device processing. At the same time, its advanced memory solutions will meet the rigorous demands of tomorrow’s datacenters and enterprises as they look to complete more complex AI tasks.

Robotics Platforms for the Future of AI

Samsung offered a peek into the future of Connected Living by demonstrating its latest developments in robotics platforms including the Samsung Bot Care, Samsung Bot Air, Samsung Bot Retail, and Samsung GEMS. Among the robotics platforms, Samsung gave a first public demonstration of Samsung Bot Care, which helps consumers manage their daily health routines. With its advances in AI and robotics, the company is harnessing its best assets to make a positive impact on society and shape a better world.

Geunbae Lee, Head of the Samsung AI Center, joins Yoon Lee on stage to introduce the crowd to Samsung Bots, which combine the company’s latest advancements in robotics platforms, hardware, software and AI technology. The speakers demonstrated how Samsung Bot Care, pictured here, helps users manage their daily health routines.

For more information including photos and videos, please visit news.samsung.com. Samsung’s CES booth #15006 is on Level 1 of Central Hall in the Las Vegas Convention Center and will be open from January 8-11, 2019.

¹ European Telecommunication Standards Institute
² Based on using SuperSpeed on a Normal cycle with an 8lb load.

Building on the standard set by last year’s Digital Cockpit, the 2019 version addresses the needs of drivers and passengers alike, providing a seamless link between devices, vehicle and home, with simple controls for ease of use.

An Experience Tailored for Every Passenger

For 2019, the Digital Cockpit has increased the number of displays from three to six, delivering tailored infotainment options to more of the car’s passenger. In addition to a new, independent Passenger Display, two Rear Seat Displays also have been added, allowing passengers in both the front and rear to enjoy personalized contents that will keep them entertained during their travels. The Driver Monitoring System (DMS) and Occupant Monitoring System (OMS) are able to recognize registered drivers and passengers, adjusting the environment – such as screen settings and seat position – to provide an experience personalized to their tastes.

Three screens in the front of the Digital Cockpit show the driver important information and settings. The Cluster Display, situated in front of the driver, is a screen that highlights crucial driving information, such as the speed and oil gauge, with a layout that changes according to the driver’s preference. Between the driver and the front passenger is the Center Information Display, which shows Bixby and SmartThings services for cars, as well as basic apps, like navigation and music. Below that is the Control Display, a screen that oversees a host of functions, including air conditioning and sound volume, and can also be used to set the functions on the knobs of the Digital Cockpit.

By connecting their smartphone to the appropriate display via In-vehicle Samsung DeX, passengers can enjoy a smartphone experience optimized for their display and give their full attention to documents and emails, even while on the move.

Equipped with two knobs positioned in the front of the car and two in the back, the Digital Cockpit offers intuitive setting controls. The knobs have a circular UX, similar to the Galaxy Watch’s hallmark display, and can be customized to configure settings most frequently used by the driver and passengers, such as temperature and speaker volume.

Connectivity throughout the Car

With new Bixby, the in-car experience is even more convenient. The intuitive, conversational AI platform allows drivers and passengers to control their third-party apps – as well as automotive-optimized functions – hands-free inside the car.

As our world becomes increasingly more connected, the Digital Cockpit is strengthening the bond between car and home. Last year’s features supported car-to-home interactions, allowing you to check what’s inside your fridge or start up the washing machine at home, all from the driver’s seat. In addition to adding more devices that can be controlled from the car, the Digital Cockpit now also facilitates home-to-car interactions. With the help of SmartThings and Galaxy Home, users can access vehicle status and controls from the comfort of their own home. This means that you can check fuel levels, start up the engine, and cool down or warm up the inside temperature by turning on the AC before jumping into your car.

Smarter Safety

New features have been implemented to further enhance car safety. Incorporating Samsung Electronics’ Exynos semiconductor, the Mirror Replacement Vision System, Front Facing Camera and Driver Monitoring System assist safe driving in a variety of potential scenarios.

Since last year, the Mirror Replacement Vision System has moved to the front left and right sides of the vehicle to reflect where users habitually look when changing lanes. The system can identify moving objects and gives the driver a wider field of view in the direction of the lane they wish to change into.

The Front Facing Camera detects the environment on the roads ahead. This is particularly useful if the driver wants to make a sudden left turn on an intersection or change lanes, for example. The camera identifies vehicles, pedestrians, lanes and traffic signs while driving and warns the driver of any hazards before they act. Data is shown on the Cluster Display, helping the driver make informed decisions on the road.

The Driver Monitoring System will also transmit a warning sound if it detects dangerous behavior, such as driving while drowsy or sending text messages behind the wheel.

As car design embraces new trends in mobility lifestyle, the Digital Cockpit 2019 represents the next stage in vehicle comfort, connectivity and safety. As the development of 5G technologies continues apace, Samsung’s IoT platform will drive the future of automotive innovation and broaden the horizons of connected living.

Samsung Electronics, a world leader in advanced semiconductor technology, today announced that its first automotive-branded processor, Exynos Auto V9, has been selected to power Audi’s next-generation in-vehicle infotainment (IVI) system, which is expected to make its debut by 2021.

Exynos Auto V9 is a powerful automotive processor designed for advanced IVI systems that display content on multiple displays, providing information that assists drivers and passengers for a safer and more enjoyable in-vehicle experience. Based on cutting-edge 8-nanometer (nm) process technology, the V9 packs ARM’s latest Cortex-A76 CPU cores, ARM Mali G76 GPU, premium HiFi 4 audio digital signal processor (DSP), intelligent neural processing unit (NPU), and a safety island core that supports Automotive Safety Integrity Level (ASIL)-B standards. The processor also supports fast and power-efficient LPDDR4 and LPDDR5 DRAM.

“Audi thrives to bring the most exciting, yet the safest automobiles when we vision the drive of tomorrow,” said Alfons Pfaller, head of Architecture & Platform Development E/E at Audi. “Samsung has been a valued technology partner over the past few years and we are extremely pleased to have the Exynos Auto V9 power our next-generation platform that will shape the future in-vehicle infotainment experiences.”

“Samsung is fully committed to bringing top-of-the-line automotive processors for safer and more pleasant driving experiences,” said Kenny Han, vice president of Device Solutions Division at Samsung Electronics. “We are thrilled to introduce the new Exynos Auto line of products, starting with the Exynos Auto V9, which brings powerful processing performance to the next generation of automotive in-vehicle infotainment systems while meeting the industry’s strict reliability requirements.”

To deliver highly immersive driving experiences, Exynos Auto V9 supports up to six displays and twelve camera connections for various sub-system content in premium IVI systems. The V9 is powered by eight Cortex-A76 cores at speeds up to 2.1 gigahertz (GHz). The GPU is arranged in three separate dedicated sets of Mali G76 GPU cores that are able to seamlessly support multiple systems such as the cluster display, central information display (CID) and rear-seat entertainment (RSE) simultaneously. For premium audio quality, the chip comes with four HiFi 4 audio processors that provide captivating audio experiences with vivid and realistic sounds.

Functional safety is especially critical when it comes to automotive components. Exynos Auto V9’s embedded safety island allows real-time protection for system operations, facilitating ASIL-B requirements.

In addition, the V9 is equipped with an NPU for a digital concierge service that can intelligently manage a safe and personalized driving environment. With incredibly fast operations, the NPU can process visual and audio data for features such as face, speech or gesture recognition.

For more information about Samsung’s Exynos products, please visit http://www.samsung.com/exynos.

* Devices shown and features simulated on devices are fictitious creations. No simulation of any real products or features is intended.

Built to maximize intelligence on the go, the Exynos 9 Series 9820 is Samsung’s most innovative mobile processor to date. Featuring advanced artificial intelligence (AI) capabilities, a powerful custom CPU and more, the processor expands the possibilities of mobile devices and provides the blueprint for future smartphones.

From photography and multimedia experiences to connectivity, the Exynos 9820 takes every mobile feature to the next level. The processor’s superior performance and efficiency also make multitasking and mobile gaming more seamless than ever before.

• An Intelligent Powerhouse: With a specialized Neural Processing Unit (NPU), the Exynos 9820 can process AI-related functions seven times faster than its predecessor.¹
• Superior Performance: The Exynos 9820’s 4^th generation custom CPU and tri-cluster architecture boost the processor’s single core and multi-core performances by up to 15 percent and 25 percent respectively compared to those of the Exynos 9810.¹
• Lightning-fast Connectivity: LTE-Advanced Pro modem offers downlink speed of up to 2.0Gbps with 8x carrier aggregation (CA) and uplink speed of up to 316Mbps for seamless browsing, video streaming and online gameplay.²
• A Game Changer: With wider execution engines, the Exynos 9820’s Mali-G76 MP12 GPU offers up to 40 percent improvement in performance or 35 percent enhancement in power efficiency compared to those of the Exynos 9810.¹
• Photography Reinvented: The Exynos 9820’s advanced image signal processor (ISP) supports flexible multi-camera solutions for high-quality photos.
• Capture Reality in 8K: The Exynos 9820’s multi-format codec enables recording more details than ever by supporting 8K video encoding and decoding at 30fps.
• Rock-solid Security: Physically unclonable function (PUF) provides the ultimate security solution for storing and managing personal data.
• All-day Productivity: The Exynos 9820 delivers round-the-clock mobile productivity by enhancing battery life with an innovative low–power design.

For more information about the Exynos 9820, head over to the webpage here.

¹Tested internally on the Exynos 9820 and the Exynos 9810.

²Actual speed may differ by country and carrier.

Samsung Electronics, a world leader in advanced semiconductor technology, today announced its latest premium application processor (AP), the Exynos 9 Series 9820, equipped for on-device Artificial Intelligence (AI) applications. The Exynos 9820 features a fourth-generation custom CPU, 2.0-gigabits-per-second (Gbps) LTE Advanced Pro modem, and an enhanced neural processing unit (NPU) to bring new smart experiences to mobile devices.

“As AI-related services expand and their utilization diversify in mobile devices, their processors require higher computational capabilities and efficiency,” said Ben Hur, vice president of System LSI marketing at Samsung Electronics. “The AI capabilities in the Exynos 9 Series 9820 will provide a new dimension of performance in smart devices through an integrated NPU, high-performance fourth-generation custom CPU core, 2.0Gbps LTE modem and improved multimedia performance.”

The Exynos 9820 is an intelligent powerhouse with a separate hardware AI-accelerator, or NPU, which performs AI tasks around seven times faster than the predecessor. With the NPU, AI-related processing can be carried out directly on the device rather than sending the task to a server, providing faster performance as well as better security of personal information. The NPU will enable a variety of new experiences such as instantly adjusting camera settings for a shot based on the surroundings or recognizing objects to provide information in augmented or virtual reality (AR or VR) settings.

With an enhanced architecture design, the Exynos 9820’s new fourth-generation custom core delivers around 20-percent improvement in single core performance or 40-percent in power efficiency when compared to its predecessor which can load data or switch between apps much faster. In addition, the multi-core performance is also increased by around 15 percent. The new mobile processor embeds the latest Mali-G76 GPU cores, which deliver a 40-percent performance boost or 35-percent power savings, allowing longer play time of graphic-intensive mobile games or interactive AR applications.

The LTE-Advanced Pro modem in the Exynos 9820 brings fast mobile broadband speeds of 2.0Gbps downlink with 8x carrier aggregation (CA) and 316 megabits-per-second (Mbps) uplink. At 2.0Gbps downlink speed, an FHD high-definition movie (3.7GB) can be downloaded in about 15 seconds and massively multiplayer online games (MMOG) can be played with less lag. With more aggregation of carriers than the previous solution along with 4×4 MIMO (Multiple-Input, Multiple-Output), 256-QAM (Quadrature Amplitude Modulation) scheme, and enhanced Licensed-Assisted Access (eLAA) technology, the modem delivers stable yet blazing speed on the go.

For more immersive multimedia experiences, Exynos 9820’s multi-format codec (MFC) supports encoding and decoding of 4K UHD video at 150 frames per second (fps). The MFC also renders colors in 10-bit, delivering more accurate representation of color by offering a wider range of tones and hues.

The Exynos 9 Series 9820 is expected to be in mass production by the end of this year.

For more information about Samsung’s Exynos products, please visit http://www.samsung.com/exynos.

Let’s say you want to share funny moments in your life with your friends. You open a live streaming app and start broadcasting what you see via the smartphone camera. But have you ever wondered what happens in the backstage of your phone?

The answer lies in a tiny chip in your smartphone – the mobile processor. Engineered with precision, Exynos provides the foundation for Samsung’s cutting-edge mobile innovations and features.

Just like thousands of mini robots working in perfect synchronicity, the processor seamlessly controls almost all mobile capabilities, whether it’s operating the camera, processing images or transmitting data. With industry-leading features, the processor offers the best-in-class smartphone experience:

• Unmatched Performance: Exynos’ central processing unit (CPU) offers ultimate computing power to enable smartphones complete tasks quickly and efficiently.
• Artificial Intelligence: Featuring advanced AI capabilities¹, Exynos enhances our photos and helps organize our day.
• Seamless Connectivity: Exynos’ modem supports diverse mobile broadband, including 5G NR², for smooth downloading, streaming and browsing.
• Next-Level Gaming: Equipped with a powerful graphics processing unit (GPU), Exynos brings console-like gaming to smartphones.
• Capture Every Detail: Shoot like a master photographer with Exynos’ image signal processor (ISP) which automatically adjusts camera settings.
• Vibrant Videos: Record 4K UHD video and watch back in more than 1 billion colors.³
• Immersive Display: High-resolution display turns your smartphone screen into an immersive experience.

¹AI capabilities are supported by the Exynos 9810 and Exynos 9610.

²5G NR is supported by the Exynos Modem 5100.

³4K UHD videowith 10-bit color is supported by the Exynos 9810.

“Samsung’s new automotive brand solutions, Exynos Auto and ISOCELL Auto, bring Samsung’s market-proven technologies to automotive applications with enhanced features and durability required by the market,” said Kenny Han, vice president of Samsung’s Device Solutions Division. “With fast telecommunication, accurate sensing and powerful processing capabilities, Samsung’s Auto-branded solutions will enable new driving experiences to next-generation smart vehicles.”

Exynos Auto Logo (top) and ISOCELL Auto Logo

Samsung’s Exynos processors have been recognized for their performance and stability since its brand launched in 2011. On top of the powerful yet efficient qualities of Exynos’ mobile versions, Exynos Auto meets industry requirements for harsher environments, allowing automotive manufacturers to develop cutting-edge applications such as infotainment, advanced driving assistance systems (ADAS) and telematics.

Processors provided by Exynos Auto are sorted into three sub-categories: Exynos Auto V series for advanced in-vehicle infotainment (IVI) systems; Exynos Auto A series for ADAS; and Exynos Auto T series for telematics solutions.

Samsung’s ISOCELL image sensors have brought innovative imaging technologies to mobile products since 2017 and the new automotive lineup will help bring the power of sight to cars. Built on the company’s innovative pixel isolation technology, ISOCELL, the sensors provide greater visibility of the road and surroundings even in low-light environments, while enabling more precise identification of objects. This allows, for example, vehicles to perceive road conditions or potential hazards even when driving through tunnels or other high-contrast environments. 

Samsung’s Exynos Auto and ISOCELL Auto products will be demonstrated at the International Suppliers Fair (IZB) in Wolfburg, Germany, from October 16 to 18 at Hall 1.  

For more information please visit the below sites;

– Exynos Auto: https://www.samsung.com/semiconductor/minisite/exynos/application/automotive/

– ISOCELL Auto: https://www.samsung.com/semiconductor/image-sensor/automotive-image-sensor/

Samsung Electronics, a world leader in advanced semiconductor technology, today announced its new narrowband (NB) Internet of Things (IoT) solution, Exynos i S111.

The new NB-IoT solution offers extremely wide coverage, low-power operation, accurate location feedback and strong security, optimized for today’s real-time tracking applications such as safety wearables or smart meters. The solution includes a modem, processor, memory and Global Navigation Satellite System (GNSS) into a single chip design to enhance efficiency and flexibility for connected device manufacturers.   

“IoT will be able to evolve to offer new features beyond the conventional household space with IoT-dedicated solutions that present a broad range of opportunities,” said Ben Hur, vice president of System LSI marketing at Samsung Electronics. “Exynos i S111’s highly secure and efficient communication capabilities will bring more exciting NB-IoT applications to life.”

As IoT grows to be a part of our everyday lives, some connected devices share useful information instantly in high volumes, but some transmit data in small nuggets over a long period of time. Popular radio connectivity systems such as Bluetooth and ZigBee are suitable for short-range scenarios within confined spaces such as in the home or a building, and broadband communications are commonly used for mobile devices that demand high data rates. On the other hand, NB-IoT supports applications that require reliable low-power communication and wide-range coverage for small-sized data.

To cover long distances with high reliability, as a standard, NB-IoT adopts a data retransmission mechanism that continuously transmits data until a successful transfer, or up to a set number of retransmits. With a high number of these retransmit sessions, the S111 is able to cover the distance of 10-kilometers (km) or more.

Exynos i S111 incorporates a modem capable of LTE Rel. 14 support that can transmit data at 127-kilobits-per-second (kbps) for downlink and 158kbps uplink, and can operate in standalone, in-band and guard-band deployments.  

For long standby periods, the S111 utilizes power saving mode (PSM) and expanded discontinuous reception (eDRX), which keeps the device dormant for long periods of time of 10 years and more, depending on application and use-cases. Exynos i S111 also has an integrated Global Navigation Satellite System (GNSS) and supports Observed Time Difference of Arrival (OTDOA), a positioning technique using cellular towers, for highly accurate and seamless real-time tracking.   

Transmitted data are kept secure and private with the S111, as the solution utilizes a separate Security Sub-System (SSS) hardware block along with a Physical Unclonable Function (PUF) that creates a unique identity for each chipset.    

Following the successful launch of the company’s first IoT solution, Exynos i T200, in 2017, Samsung plans to continue expanding the ‘Exynos i‘ lineup with offerings especially tailored for narrowband networks.  

For more information about Samsung’s Exynos products, please visit http://www.samsung.com/exynos.  

Samsung Electronics, a world leader in advanced semiconductor technology, today announced that it has developed Exynos Modem 5100, the industry’s first 5G modem that is fully compatible with 3rd Generation Partnership Project (3GPP) Release 15 (Rel.15), the most up-to-date standard specification for 5G New Radio (5G-NR). Built on power-efficient 10-nanometer (nm) process technology, the new modem also supports legacy radio access technologies designed into a single chip.

“Samsung’s leadership in communication technologies and market-proven knowledge allowed us to develop the industry’s first 5G modem, the Exynos Modem 5100, which fully complies with the latest 3GPP standards,” said Dr. Inyup Kang, president and head of System LSI Business at Samsung Electronics. “As the industry prepares the shift toward 5G, Samsung will continue to drive the growth of innovative ideas and new services in mobile applications and other emerging industries.”

Samsung successfully conducted an over-the-air (OTA) 5G-NR data call test under a wireless environment utilizing a 5G base station and 5G end-user equipment prototype embedded with Exynos Modem 5100. As the test simulated real-world cellular network conditions, this will ensure faster development and commercialization of 5G mobile devices that adopt this new modem. Samsung is also working closely with a number of global mobile carriers and partners to quickly bring 5G mobile communications to the market.

The Exynos Modem 5100 supports both sub-6GHz and mmWave spectrums specified in 3GPP’s 5G standard as well as legacy networks, including 2G GSM/CDMA, 3G WCDMA, TD-SCDMA, HSPA, and 4G LTE, with a single chip solution. As 5G is expected to be first deployed over existing network infrastructures, commercial implementation will benefit from the single-chip design that maximizes data transmission efficiency and reliability between other communication networks.

The modem delivers a maximum downlink speed of up to 2-gigabits per second (Gbps) in 5G’s sub-6-gigahertz (GHz) settings and 6Gbps in mmWave settings, which are about 1.7 and five times the data transfer speeds of its predecessor respectively. Fast and stable data communication can also be secured in 4G networks with the downlink speed of 1.6Gbps.

5G’s capability to transmit large-capacity data and real-time low-latency communication is expected to bring new user experiences not only in mobile but also in areas such as the Internet of Things (IoT), ultra-high resolution videos, holograms, real-time artificial intelligence (AI) and autonomous driving.

Exynos Modem 5100 is also offered with radio frequency IC (RFIC), Envelope Tracking (ET) and power management IC (PMIC) solutions, and will be available to customers by the end of 2018.
More information about Samsung’s Exynos products can be found at: http://www.samsung.com/exynos.

As the graphics show below, semiconductor solutions are used in a wide array of automotive applications such as the camera and sensing system, dashboard, IVI (In-Vehicle Infotainment) system, ADAS (Advanced Driver Assistant System), autonomous driving central computing system and gateway. Semiconductors will be used even more extensively in the future, especially with the potential introduction of autonomous driving.

Samsung has been continuously cooperating with leading automobile manufacturers to make its semiconductor technologies available in the industry’s latest automobiles as well as next-generation cars. The company has participated in the Audi Progressive SemiConductor Program (PSCP) since 2015 with its advanced memory solutions and Exynos processors.

With its multiple operating system compatibility and support for multi-display, Samsung’s flagship Exynos processors enable powerful computing and graphics processing performance for today’s automobiles with highly graphical user interfaces. Along with its Exynos offerings, Samsung also plans to develop a wide array of logic IC solutions for upcoming automotive applications. Images sensors, working as the eyes of future vehicles, will have further improved frame rate and light sensitivity for thorough monitoring and sensing the driving environment.

When it comes to memory solutions, Samsung provides its high-performance, high-density LPDDR4 /LPDDR4X and GDDR6 DRAM lineups to address ever increasing demand for higher data bandwidth. For secure data storage, Samsung offers advanced eMMC and UFS solutions. All of these Samsung semiconductor solutions for automotive applications guarantee the highest performance levels among their kinds and are designed to endure tough environments inside the automobiles such as sudden temperature changes and continuous vibration.

Also offered by Samsung are LED components for interior and exterior lighting of automobiles such as cluster indicator lighting, headlamps and turn signal lamps. Based on upcoming technologies like pixel lighting, Samsung will be able to provide LED packages and modules that will enable more sophisticated and reliable lighting solutions.

In recognition of its innovation and technological advancements, Samsung’s Exynos 9 Series 9810 has been selected as a CES 2018 Innovation Awards HONOREE in the Embedded Technologies product category and will be displayed at the event, which runs January 9-12, 2018, in Las Vegas, USA.

“The Exynos 9 Series 9810 is our most innovative mobile processor yet, with our third-generation custom CPU, ultra-fast gigabit LTE modem and, deep learning-enhanced image processing,” said Ben Hur, vice president of System LSI marketing at Samsung Electronics. “The Exynos 9810 will be a key catalyst for innovation in smart platforms such as smartphones and personal computing for the coming AI era.”

With the benefits of the industry’s most advanced 10nm process technology, the Exynos 9810 will enable seamless multi-tasking with faster loading and transition times between the latest mobile apps. The processor has a brand new eight-core CPU under its hood, four of which are powerful third-generation custom cores that can reach 2.9 gigahertz (GHz), with the other four optimized for efficiency. With an architecture that widens the pipeline and improves cache memory, single-core performance is enhanced two-fold and multi-core performance is increased by around 40 percent compared to its predecessor.

Exynos 9810 introduces sophisticated features to enhance user experiences with neural network-based deep learning and stronger security on the most advanced mobile devices. This cutting-edge technology allows the processor to accurately recognize people or items in photos for fast image searching or categorization, or through depth sensing, scan a user’s face in 3D for hybrid face detection. By utilizing both hardware and software, hybrid face detection enables realistic face-tracking filters as well as stronger security when unlocking a device with one’s face. For added security, the processor has a separate security processing unit to safeguard vital personal data such as facial, iris and fingerprint information.

The LTE modem in the Exynos 9810 makes it much easier to broadcast or stream videos at up to UHD resolution, or in even newer visual formats such as 360-degree video. Following the successful launch of the industry’s first 1.0 gigabits per second (Gbps) LTE modem last year, Samsung again leads the industry with the first 1.2Gbps LTE modem embedded in Exynos 9810. It’s also the industry’s first Cat.18 LTE modem to support up to 6x carrier aggregation (CA) for 1.2Gbps downlink and 200 megabits per second (Mbps) uplink. Compared to its predecessor’s 5CA, this new modem delivers more stable data transfers at blazing speed. To maximize the transfer rate, the modem supports a 4×4 MIMO (Multiple-Input, Multiple-Output) and 256-QAM (Quadrature Amplitude Modulation) scheme, and utilizes enhanced Licensed-Assisted Access (eLAA) technology.

Not only will multimedia experiences on mobile devices with Exynos 9810 be faster, but they will also be more immersive, thanks to a dedicated image processing and upgraded multi-format codec (MFC). With faster and more energy-efficient image and visual processing, users will see advanced stabilization for images and video of up to UHD resolution, real-time out-of-focus photography in high resolution and brighter pictures in low light with reduced noise and motion blur. The upgraded MFC supports video recording and playback at up to UHD resolution at 120 frames per second (fps). With 10-bit HEVC (high efficiency video coding) and VP9 support, the MFC can render 1,024 different tones for each primary color (red, green and blue). This translates to a vast 1.07 billion possibilities of colors, or 64 times the previous 8-bit color format’s 16.7 million. With a much wider color range and more accurate color fidelity, users will be able to create and enjoy highly immersive content.

The Exynos 9 Series 9810 is currently in mass production.

For more information about Samsung’s Exynos products, please visit http://www.samsung.com/exynos.

Samsung Electronics, a world leader in advanced semiconductor technology, today announced the start of mass production of its first Exynos-branded Internet of Things (IoT) solution, the Exynos i T200. Built on a low-power 28-nanometer (nm) High-K Metal Gate (HKMG) process and featuring high processing capabilities along with Wi-Fi connectivity, the Exynos i T200 is an optimum IoT solution to deliver the performance needed for upcoming IoT use cases.

In terms of processing, the Exynos i T200 utilizes both a Cortex^®-R4 processor and an additional Cortex^®-M0+ processor enabling the devices it supports to process and perform various tasks without the need for an extra microcontroller IC in the system. For connectivity, the Exynos i T200 supports 802.11b/g/n single-band (2.4GHz), and has received the Wi-Fi CERTIFIED certification from the Wi-Fi Alliance, and Microsoft Azure Certified for IoT. It also natively supports IoTivity, an IoT protocol standard from the Open Connectivity Foundation (OCF), which enables seamless interoperability between IoT devices.

To address security and privacy, one of the biggest current challenges for device manufactures and consumers in applying IoT capabilities, the Exynos i T200 utilizes a separate and designated security management hardware block called the Security Sub-System (SSS). In addition, the Physical Unclonable Function (PUF) IP provides secure data storage and device authentication management without the need to fuse a key onto silicon, and rely on a discrete security IC for key storage. This security measure provides a much higher level of security compared to the conventional one-time programmable (OTP) based solutions.

“The Exynos i T200 is an IoT solution optimized to deliver both the performance and security demanded in the IoT market,” said Ben Hur, Vice President of System LSI marketing at Samsung Electronics. “With various Exynos solution offerings, Samsung will deliver further differentiated value to not only mobile devices, but also non-mobile spaces, including automotive and IoT.”

For more information about Samsung’s Exynos products, please visit www.samsung.com/exynos.

Samsung Electronics, a world leader in advanced semiconductor technology, today announced the launch of its latest premium application processor (AP), the Exynos 9 Series 8895. This is Samsung’s first processor chipset to take advantage of the most advanced and industry leading 10-nanometer (nm) FinFET process technology with improved 3D transistor structure, which allows up to 27% higher performance while consuming 40% less power when compared to 14nm technology.

The new Exynos 9 Series 8895 is the first processor of its kind to embed a gigabit LTE modem that supports five carrier aggregation, or 5CA. It delivers fast and stable data throughput at max.1Gbps (Cat.16) downlink with 5CA and 150Mbps (Cat.13) uplink with 2CA.

The Exynos 8895 is an octa-core processor, comprising of four of Samsung’s 2^nd generation custom designed CPU cores for improved performance and power efficiency in addition to four Cortex®-A53 cores. With Samsung Coherent Interconnect (SCI) technology, the latest processor integrates a heterogeneous system architecture that allows faster computing for a wide range of applications such as artificial intelligence, and deep learning.

The Exynos 8895 also delivers unsurpassed multimedia experience with its powerful GPU and multi-format codec (MFC) as well as next level 3D graphic performance that minimizes latency for 4K UHD VR and gaming experience with ARM®’s latest Mali-G71 GPU.

In addition, with its advanced MFC, the processor supports video recording and playback at a maximum resolution of 4K UHD at 120fps. It also comes with video processing technology that enables a higher quality experience by enhancing the image quality; for example, for VR (Virtual Reality) applications, the Exynos 8895 delivers a realistic and immersive VR video experience at 4K resolution.

The Exynos 8895 has a separate processing unit for enhanced security solutions required for mobile payments that use iris or fingerprint recognition as well as an embedded Vision Processing Unit (VPU) that can recognize and analyze items or movements for improved video tracking, panoramic image processing, and machine vision technology.

“In addition to being built on the most advanced 10nm FinFET process technology, the new Exynos 9 Series 8895 incorporates Samsung’s cutting-edge technologies including a 2^nd generation custom CPU, gigabit LTE modem, and more” said Ben Hur, Vice President of System LSI marketing at Samsung Electronics. “With industry leading technologies like VPU, the Exynos 8895 will drive the innovation of next generation smartphones, VR headsets, and automotive infotainment system.”

The Exynos 9 Series 8895 is currently in mass production.

For more information about Samsung’s Exynos products, please visit www.samsung.com/exynos

Samsung Electronics, a world leader in advanced semiconductor technology, today announced its participation in the Audi Progressive SemiConductor Program (PSCP) as a partner supplier of Exynos processors, its own System-on-Chip (SoC) solution, for Audi’s In Vehicle Infotainment (IVI) system.

Audi’s PSCP was first initiated in 2010 to quickly implement the latest technologies that satisfy its highest standard in robustness, performance and quality for automobiles. As a key partner, Samsung will be supplying its flagship Exynos processors for Audi’s next-generation IVI system.

“With Exynos processors, Samsung has proven its technology leadership in performance, reliability and innovative packaging solutions, ” said Alfons Pfaller, Head of Infotainment Development at Audi. “Through the PSCP, Samsung and Audi will work together to bring the best in-vehicle infotainment experience at the automotive quality level expected from the Audi brand.”

“We are very thrilled to be a part of the rapidly advancing automobile technology,” said Charlie Bae, Executive Vice President of Sales and Marketing, System LSI Business at Samsung Electronics. “Samsung is fully dedicated to delivering robust and reliable yet high-performing solution to Audi for the next level of driving enjoyment.”

With multiple OS and multi-display support, flagship Exynos processors can operate up to four different domains and displays stationed in the vehicle at once. Exynos processors’ powerful computing and graphic processing performance delivers highly graphical user interface on displays for deeper user engagement.

Since 2010, Samsung’s Exynos processors have powered the highest performing smart devices ranging from smartphones and laptops to navigation systems, delivering the ultimate experiences to consumers. Through the adoption of advanced technology and optimization for automobiles, Samsung is committed to bringing top-of-the-line performance for safer and more pleasant driving experience.

From the powerful Exynos APs for premium mobile devices to a more compact version designed specifically for wearables, Samsung features a strong lineup that brings the benefits of cutting-edge technology to the devices people use every day.

*All functionality features, specifications and other product information provided in this document including, but not limited to, the benefits, design, pricing, components, performance, availability and capabilities of the product are subject to change without notice or obligation.

Samsung Electronics, a world leader in advanced semiconductor technology, today announced that it has begun mass production of Exynos 7 Quad 7570, the company’s newest mobile application processor (AP) built on 14-nanometer (nm) process technology for the budget smartphone market as well as other IoT devices. Being the first mobile AP in its class designed with the advanced process node, Exynos 7570 is also the first Exynos processor to fully integrate a Cat.4 LTE 2CA modem and connectivity solutions including WiFi, Bluetooth, frequency modulation (FM) and global navigation satellite system (GNSS) in one chip.

“With Exynos 7570, more consumers will be able to experience the performance benefits of the advanced 14nm FinFET process in affordable devices,” said Ben K. Hur, Vice President of System LSI Marketing at Samsung Electronics. “By successfully integrating various connectivity solutions, Samsung is strengthening its competitiveness in the single chip market”

Last year, Samsung was the first in the industry to adopt advanced 14nm FinFET technology for its premium processors and has since expanded the adoption to other segments, bringing premium features to more affordable smart devices. As part of such efforts, Exynos 7570 is the first in its class with 14nm FinFET, making it highly power-efficient while enabling outstanding performance.

Exynos 7570, with four Cortex-A53 cores in 14nm, delivers 70 percent improvements in CPU performance and 30 percent improvement in power efficiency when compared to its predecessor built on 28nm. The new Exynos also offers a fully connected mobile experience by integrating a Cat. 4 LTE 2CA modem and various connectivity solutions, such as WiFi, Bluetooth, FM radio and GNSS.

Additionally, with design optimization and feature consolidation for components such as PMICs (power management IC) and RF (radio frequency) functionalities, Exynos 7570 reduces the total chipset size by up to 20 percent, giving manufacturers better ability to craft slimmer smartphones.

By supporting screen resolution up to WXGA, record and playback of videos in Full HD, and improved ISP (image signal processor) for 8Mp/13Mp front and back cameras, Exynos 7570 presents a wide array of benefits for smartphone users.

For more information about Samsung’s Exynos products, please visit www.samsung.com/exynos

Samsung Electronics, a world leader in advanced semiconductor technology, announced the newest member of its Exynos 7 Octa processor line-up, the Exynos 7 Octa 7870. Using the company’s most advanced 14-nanometer (nm) FinFET process technology, the Exynos 7 Octa 7870 is designed for next-generation mid-range smartphones and other mobile devices.

“With increased performance and power efficiency, we anticipate widespread adoption of our new Exynos 7 Octa 7870 into mid-tier mobile devices,” said Ben K. Hur, Vice President of System LSI marketing, Samsung Electronics. “Consumers will experience enhanced performance as this is the first time a mobile application processor built on advanced 14nm process is available for these types of smart mobile devices.”

Samsung has been strengthening its leadership in the mobile SoC market by manufacturing the industry’s first 14nm FinFET based application processor, the Exynos 7 Octa 7420, early last year and the Exynos 8 Octa 8890 with top of the line Cat.12/13 LTE modem and custom designed CPU cores last month.

Samsung plans to build up its position further by employing 14nm FinFET process technology for its mid-range processors for the first time in the industry. By using its advanced process technology, which has been reserved for premium Exynos processors, Samsung expects to give mobile manufacturers an ideal mobile SoC option for mid-range smartphones with leading-edge performance and power efficiency, and area scaling benefits. The new Exynos 7 Octa 7870 processor consumes over 30 percent less power than mobile SoCs built with 28nm High-k Metal Gate process technology at the same performance level.

The Exynos 7 Octa 7870 is equipped with eight 1.6GHz Cortex-A53 cores and LTE Cat.6 2CA Modem that supports 300Mbps downlink speed and FDD-TDD joint carrier aggregation for better network flexibility. In terms of multimedia functionalities, the processor supports 1080p 60fps video playback and WUXGA (1920×1200) display resolution. Its image signal processor (ISP) delivers high resolution images – up to 16 megapixels for both rear and front cameras, or 8Mp each in dual camera mode. In addition, it integrates GNSS solution that delivers fast time-to-first-fix (TTFF) feature, which enables a robust mobile experience based on more accurate and rapidly transitioning location based services.

The Exynos 7 Octa 7870 will be in mass production in the first quarter of 2016.

Samsung Electronics, a world leader in advanced semiconductor technology, announced the newest member of its Exynos family of application processors, the Exynos 8 Octa 8890. This chip is Samsung’s second premium application processor built on 14nm FinFET process technology. Unlike the previous Exynos 7 Octa 7420, the Exynos 8 Octa is an integrated one-chip solution that features the company’s first custom designed CPU based on 64-bit ARMv8 architecture and the latest LTE Rel.12 Cat.12/13 modem. This brings a new level of performance to Samsung’s Exynos processor premium line-up for mobile applications.

“The Exynos 8 Octa is a leading-edge application processor for next-generation mobile devices that incorporates Samsung’s mobile technology leadership in CPU, ISP, and modem as well as process technology,” said Dr. Kyushik Hong, Vice President of System LSI marketing, Samsung Electronics. “With our custom designed CPU cores and the industry’s most advanced LTE modem, consumers using mobile devices with the Exynos 8 Octa will experience a new level of mobile computing.”

The Exynos 8 Octa is Samsung’s first application processor to include the company’s initial premium custom CPU cores based on 64-bit ARMv8 architecture providing over 30 percent improvement in performance and 10 percent in power efficiency compared to the Exynos 7 Octa. This chip also supports enhanced heterogeneous multi-processing for efficient usage of the eight cores, four custom and four ARM® Cortex®-A53, to deliver the highest performance and power efficiency in its class.

The Exynos 8 Octa is Samsung’s first integrated one-chip solution in its premium line-up that combines the application processor and modem. Samsung has delivered one-chip Exynos solutions for mid to high-end smartphones in recent years. The Exynos 8 Octa integrates the most advanced LTE Rel.12 Cat.12/13 modem that enables maximum download speed of up to 600Mbps (Cat.12) and upload speed of up to 150Mbps (Cat.13) with carrier aggregation. With such a high data transfer rate, the Exynos 8 Octa will contribute to delivering an excellent mobile experience, allowing users to enjoy and share high resolution video content on the go with ease. Also the one-chip solution benefits OEMs with a reduced number of parts needed and overall space required for a device, allowing more flexible design options.

For a graphic-intensive user interface, highly immersive 3D gaming and life-like virtual reality experiences, the Exynos 8 Octa employs ARM®’s latest GPU, Mali-T880.

Samsung plans to begin mass production of the Exynos 8 Octa in late 2015.

For more information about Samsung’s Exynos products, please visit www.samsung.com/exynos.