Subject: Mobile | December 4, 2018 - 04:00 PM | Ken Addison
Tagged: sub-6, snapdragon 855, qualcomm 3d sonic sensor, qualcomm, mmWave, 5g nr
Today during their Day 1 keynote at the Snapdragon Tech Summit, Qualcomm has revealed some initial details of their next-generation Snapdragon 855 mobile platform.
The biggest focus of Snapdragon 855 lies in the connectivity. Paired with the Snapdragon x50 5G modem, Snapdragon 855 will be the first available product to support even faster LTE networks, but also will enable true 5G NR mmWave and Sub-6 GHz radio technology.
Combined, sub-6 connectivity for wide area coverage, mmWave technology for very high bandwidth applications, as well as high-speed LTE, represent the full breadth of the 3GPP 5G NR standard for mobile connectivity.
In addition to the hardware support in Snapdragon 855, Qualcomm also discussed today worldwide carrier rollout plans for 5G technology in 2019, including commitments from all four major US carriers for both Sub-6 and mmWave networks.
In addition, Samsung has announced they will be shipping their first 5G-enabled smartphone, powered by Snapdragon 855, in the first half of 2019.
Other exciting aspects of Snapdragon 855 include the new 4th generation AI engine, consisting of the CPU, GPU, and Hexagon DSP, with claims of up to 3x the performance of Snapdragon 845 in certain AI workloads.
The Image Signal Processing part of the Snapdragon 855 also sees an update. Qualcomm is touting the ISP as able to do advanced Computer Vision techniques directly on the ISP, without having to use traditional CPU or GPU resources. This will bring massive power savings to operations such as object detection and background replacement.
Also announced today is the Qualcomm 3D Sonic Sensor, what Qualcomm is billing as the world’s first ultrasonic fingerprint sensor for under display applications. As opposed to the optical solutions we see in shipping phones today, this new ultrasonic sensor should bring more speed and accuracy to under display fingerprint sensors.
Things are just getting started here at the Qualcomm Snapdragon Summit, so stay tuned this week for more information on topics such as 5G, Snapdragon 855, and Qualcomm-powered always on always connected PCs!
Subject: Mobile | February 8, 2018 - 11:01 AM | Ryan Shrout
Tagged: qualcomm, 5G, 5g nr, x50, snapdragon, apple, Samsung
This story originally appeared on ShroutResearch.com.
With significant pressure to show the value and growth opportunities for the company with a looming hostile takeover bid from Broadcom, mobile chip design house Qualcomm is hoping that its position in the market of next-generation cellular radio technology will be a foundation of its future. The company revealed today partnerships with 18 global OEMs that will be launching 5G-ready devices in 2019 and 18 worldwide cellular carriers will be completing tests of Qualcomm 5G radios in 2018.
5G is the follow up iteration to the current 4G cellular technology in the majority of the world’s smartphones. It will improve speed of connectivity, lower latency, and transform numerous markets from self-driving cars to industrial automation. And it can do all of this while lowering the load on carrier networks, giving all users a noticeable increase in performance and usability.
Qualcomm has been leaning on this 4G-to-5G transition as a portion of its long-term plan and strategy for many years. As a part of the company’s recent call to action for shareholders to resist the hostile takeover from Broadcom, the San Diego-based company believes that it has a 12-24 month lead over competing connectivity providers, namely Intel. This position will allow Qualcomm to capitalize on what many believe could be the most disruptive and market shifting wireless transition in history.
To maintain the leadership role, despite mass-market availability being limited to 2019 products, Qualcomm has announced partnerships with 18 different OEMs that will build those products using the Snapdragon X50 modem. This modem was the first announced to support the finalized specification of 5G radios. OEMs like LG, HTC, Sony, ASUS, and vivo are committed to using the X50 modem in devices ranging from next-generation smartphones to Windows-based PCs.
There has been talk that 5G products would not be available until 2020, but Qualcomm believes that 5G will have an impact on revenue a year earlier than that. This collection of phone and device providers puts Qualcomm well ahead of Intel in terms of integration and support in the market, something Qualcomm has believed would be the case but is only now finally confirmed. Commercialization of 5G and collaborations with the leading device manufacturers will push Intel further back in the race, with time running out for it to catch up.
Two big OEMs are missing from the list in Qualcomm’s announcement: Samsung and Apple. While it makes sense that Apple would not want to be included in the public statements from Qualcomm considering the continuing legal dispute between the two companies, there is a legitimate question as to whether Apple will be an early-adopter of 5G technology at all. It has shown in the past that it is more than willing to let others experiment and drive wireless technology shifts on the networks, with both the iPhone 3G and first iPhone with LTE (iPhone 5) lagging behind other smartphones by several quarters. If Apple choses to not integrate the Qualcomm modem, it will depend on Intel to provide a solution instead, and could miss out on 5G technology for all of 2019.
Not seeing Samsung as a part of this announcement from Qualcomm is more surprising, but likely an omission of politics than of technology. I recently wrote about the extension and expansion of the licensing agreement between Samsung and Qualcomm and it is unlikely that this contract would not have included the X50 modem for 5G. I expect the 2019 models of Samsung’s Galaxy devices to include the Qualcomm chip as well.
The second part to this story is that 18 different global cellular carriers, including Verizon and AT&T in the US, China Mobile, and SK Telecom, will be testing 5G with Qualcomm devices and infrastructure in 2018. These validation tests are used to demonstrate the capabilities of new wireless technology and finalize the implementation methods for the hardware in the field.
These two announcements put Qualcomm in the driver’s seat for 5G adoption and integration. 5G will offer consumers speeds 4-5x faster than today’s top offerings, lower latency for more responsive web browsing and new capabilities like streaming virtual reality. It will make Wi-Fi less necessary. The cellular carriers will take advantage of 5G for its ability to run more data through existing infrastructure, opening capacity for more users, devices, and upgradable services.
Subject: Mobile | October 16, 2017 - 09:30 PM | Ryan Shrout
Tagged: x50, qualcomm, mmWave, 5g nr, 5G
Earlier this year Qualcomm announced that it had made its first connection with the 5G NR (new radio) through its prototype system. This prototype was constructed to help with the build outs with Ericsson and Vodafone to get 5G in trials in the second of half this year. The device was crude, but effective, and took up a lot of space in a 2U rackmount design.
Today Qualcomm steps up its investment and apparent leadership position with the next generation connectivity technology by showcasing a reference smartphone design that implements the X50 5G modem for the first time.
Though far from a retail-ready announcement, this 9mm thin smartphone design proves that the future of 5G is strong and allows Qualcomm to crow about its position in the field. This design makes several key points, according to the connectivity giant:
- It is the first smartphone-style design integration for the X50 modem, announced a year ago at the company’s 4G/5G summit in Hong Kong.
- Showcases greater than 1Gbps data connectivity on the 100 MHz bands with only a 2xCA (carrier aggregation) implementation.
- Proves the feasibility of mmWave (millimeter wave) technology at 28 GHz in a smartphone with a silicon-based chip that fits four mmWave antenna and a 5G transceiver.
The real bright spot on this design is the inclusion of connectivity support on mmWave technology, previously thought to be extremely difficult to do in a smartphone form factor. Using mmWaves creates complexity due to its reluctance to transmit THROUGH things (including people), so the small surface area of a phone was going to cause issues. By integrating support for four large surface area antenna on this design and the 5G module, Qualcomm believes it has taken a large step in productization.
This reference design will enable trials of 5G technology in real-world environments and use cases. Qualcomm also claims that at launch time (early 2019), the module for the mmWave transceiver will be shrunk by another 50%. Qualcomm hopes that by showing OEMs and carriers that 5G technology challenges are addressable in common and expected form factors, it can accelerate and ease the adoption of the technology for consumers and enterprise applications.