The latest Dell’Oro Group Mobile RAN 5-Year July Forecast Report indicates that the investment recovery in China that began in the second half of 2018 is expected to extend over the forecast period, propelling China’s 5G RAN market to advance nearly fivefold relative to an already-aggressive 2019 baseline.
“While there is still some uncertainty about the 5G NR business case driven by new revenue opportunities, the momentum for 5G NR eMBB is developing at a broader and faster pace than originally anticipated,” said Stefan Pongratz, Senior Director with the Dell’Oro Group. “With data traffic projected to grow 3 to 4 times over the forecast period, no one is asking any more whether there is a business case for using more spectrum and utilizing it more efficiently,” continued Pongratz.
China is expected to dominate the 5G capex envelope – cumulative investments projected to be more than twice the size of North America’s 5G RAN investments over the forecast period.
The shift from conventional antenna systems towards Massive MIMO is accelerating – operators are on track to deploy nearly 400 M transceivers over the forecast period.
The small cell outlook has been adjusted upward to reflect stronger than expected demand for indoor Sub 6 GHz small cells – total small cell RAN market forecasted to nearly double over the forecast period.
Dell’Oro Group’s Mobile RAN 5-Year Forecast Report offers a complete overview of the RAN industry, with tables covering manufacturers’ revenue, transceivers or RF carrier shipments, and base transceiver stations for 5G NR, 5G NR Sub 6 GHz, 5G NR mmW, LTE, LTE FDD, LTE TDD, WCDMA, GSM, CDMA, and WiMAX. The report also includes regional analysis and splits for macro cells, small cells, and Massive MIMO. For more information about the report, please click here.
We are excited to announce the launch of Dell’Oro Group’s newly designed website, www.delloro.com! Our goal with this new website is to provide our visitors with a clean layout, a simple navigation structure, and user-friendly functions. We have designed the new website with a fresh look and easier access to information. We also wish to establish this portal as a source of information for those who visit our site.
An increasing amount of publicity is shifting to user applications, and away from the network. Enabling the user to extract more value out of the network is the topic of acquisitions and new product launches. For example, Arista recently acquired Mojo Networks not for its wireless LAN technology, but for its ability to deploy network intelligence; Cisco launched greater levels of security and troubleshooting enabled by its new DNA licenses; Juniper acquired Mist Systems which boasts its cutting-edge location Wi-Fi services. Yet, a closer look at companies such as Alcatel-Lucent Enterprise (ALE) and Extreme Networks, we observe these folks have been laser-focused on user applications all along. Let’s first discuss ALE.
ALE has a long-running subscription-based business. As the networking industry incorporates applications and network intelligence via subscription-based services, this experience on ALE’s part will be a definite asset. In 1919, ALE founder Aaron Weil launched a subscription-based private telephone business, “Téléphone Privé,” as a productivity enhancement tool targeting enterprises.
ALE’s near-term strategy will be to target select vertical industries focusing on applications specific to customer operations. ALE’s focus on customer applications is the likely explanation as to why its customers place a high value on ALE’s products. For example, in Campus Ethernet Switching, we observed that ALE’s average prices for the past few years have been the third highest, well above many other larger vendors. Figure 1 shows how ALE’s average sales price per port compares with that of the largest vendors in the most popular segment of the Campus Ethernet Switch market (Fixed Managed 1 Gbps switches). ALE senior management explained that the customer interaction process has included building custom applications by vertical industry. Whenever ALE could not on its own deliver the application, it brought in a partner that specialized in the operations of businesses in that particular vertical industry. This high-touch approach to service helps explain ALE’s ability to maintain high perceived value as reflected in its average prices.
ALE’s networking business (Campus Ethernet LAN in particular) was challenged in 2017 and 2018, which we attribute largely to Huawei’s expansion in Europe, the Middle East and Africa (EMEA), the region representing ALE’s stronghold. During the past two years, Huawei has run aggressive promotions with new channel partners it added in 2016. As the honeymoon period for these engagements comes to a close, we suspect the longer-term relationships with its new partners will change. Looking at the Campus Ethernet market on worldwide units (port shipments) basis, the performance was flat during the past two years, with the exception of China-based vendors, as well as vendors such as Ubiquiti that are targeting the low end of the market. The challenges ALE experienced on a unit basis was similar to the experience of other Western vendors focusing on the high-end and midrange segments of the market.
Dell’Oro Group believes that enterprise campus networks are entering a refresh cycle that will enable users to run new applications (click here to learn more about Dell’Oro Group Ethernet Switch Campus Network market report). This refresh of the installed networks, which will unfold over the next several years, will be the most significant upgrade during the past two decades—and many will be seeking high value from their networks, not the cheapest price.
The latest Dell’Oro Group Telecom Capex 2H18 Report (former name is Carrier Economics report) supports the thesis the firm has communicated with its technology equipment forecasts, namely, there are reasons to be optimistic about the telecom sector. Following three years of declining capex trends between 2015 and 2017, and more stable trends in 2018, the report showed that capex growth will outpace operator revenue growth over the next three years, reflecting operators increased focus on rolling out 5G.
“While the relationship between capex/revenue will likely remain strong over time and constrained operator revenue growth will be one of the primary inhibitors of further telecom capex acceleration, we remain optimistic that there will be some deviation in the short-term to accommodate the rollout of 5G,” said Stefan Pongratz, Senior Director at Dell’Oro Group. “And with the preliminary 5G capex guidance coming in stronger than expected, there is a lot of excitement right now about the potential 5G capex ramp,” continued Pongratz.
Followings are additional highlights from the Telecom Capex 2H18 Report:
Currency adjusted telecom capex is expected to grow both in 2019 and over the next three years.
Wireless investments are projected to grow at a faster pace than wireline capex over the forecast period – growing at a low single-digit CAGR.
5G revenue growth is not expected to reverse aggregate smartphone ARPU trends over the forecast period.
The Dell’Oro Group Telecom Capex Report provides in-depth coverage of the revenue, capex, and capital intensity outlook for about 50 operators. The report provides actual and forecasts details by the carrier, by region by country (United States, Canada, China, India, Japan, and South Korea), and by technology (wireless/wireline). For more information about the report, please contact firstname.lastname@example.org.
In March, I attended the 2019 Open Compute Project (OCP) Global Summit at the San Jose Convention Center. The event is growing with 3,600 participants this year, including a broad representation of vendors and end users who make up the OCP community. We continue to see innovation in the server rack for hyperscale Cloud, edge computing, and enterprise environments for OCP-based designs.
Following are three key takeaways in server network connectivity:
1. OCP NIC 3.0 (Network Interface Card) specification continues to evolve and is Smart NIC-ready.
The OCP NIC 3.0 specification addresses shortcomings of the OCP NIC 2.0 specification in the areas of the thermal and mechanical profile, connector placement, and board space. Key members, including Broadcom, Facebook, Intel, and Mellanox, contributed to the 3.0 development process. As it currently stands, the OCP NIC 3.0 specification is defined in two form factors: SFF (small form factor) and LFF (large form factor). The LFF form factor is designed to accommodate accelerated processors, such as an ARM SoC or FPGA for Smart NIC applications.
A Smart NIC designed for OCP is a wise future-proofing strategy. In Dell’Oro Group’s 2019 Controller and Adapter Market 5-Year Forecast January report, I projected that Smart NIC will become a $500 M market by 2023, representing 20 percent of the total controller and adapter market. Furthermore, most of the earlier adopters of Smart NICs are hyperscale and telecom data centers are also expected to widely deploy OCP-based designs within the server rack.
2. The introduction of 56 Gbps PAM-4 NICs enables server connectivity to 400 Gbps networks.
Another important development is the availability of Ethernet adapter products with 56 Gbps PAM-4 SerDes lanes by Broadcom (NetExtreme), Intel (800 series Columbiaville), and Mellanox (ConnectX6). All are available in the OCP 3.0 form factor. The SerDes lane transition from 28 Gbps NRZ to 56 Gbps PAM-4 will enable Ethernet connectivity up to 100 GbE (based on 2 SerDes lanes) or 200 GbE (based on 4 SerDes lanes). We see strong demand for server connectivity at 100 GbE and higher speeds, especially by Tier 1 Cloud service providers, as this segment transitions to 400 GbE networking at the top-of-rack (ToR) switch over the next one to two years. (See Dell’Oro’s press release,“Cloud Service Providers Drove Demand Volatility of High-Speed Network Adapters”)
3. Multi-host NICs have the potential to streamline and densify server connector connectivity.
It is exciting to see multi-host NICs gaining additional support from vendors. This technology has the ability to streamline the network by reducing ToR connections while providing a dense compute rack architecture. Mellanox was first to market with multi-host NICs for Yosemite servers, which provide 50 Gbps Ethernet connectivity to four server nodes. At OCP, both Broadcom and Netronome announced network adapter products supporting multi-host connectivity for the Yosemite platform. Broadcom’s announcements are based on the NetExterme series with the Thor chipset, which provides single and multi-host connectivity for up to 200 GbE with a PAM-4 solution. Netronome’s solution, the Agilio CX, is also a Smart NIC that provides connectivity up to 50 GbE.
I believe that OCP will continue to grow in strength as the industry transitions from off-the-shelf equipment to open designs optimized to end-users’ technical and cost-of-ownership requirements.
The infrastructure of the cloud—data centers and the computer and networking systems resources housed within—is expanding rapidly as the demand for cloud services spreads globally. The traffic between data centers, as well as traffic into and out of the cloud, is expected to grow strongly, placing pressure on the data center interconnect (DCI) networks used to connect the data centers.
According to the Dell’Oro Group CBRS RAN 5-year January Forecast Report, short term delays will not impact the long-term demand for LTE and 5G NR CBRS solutions – the overall CBRS RAN market is expected to grow at a rapid pace between 2019 and 2023 with cumulative investments surpassing $1 B over the next five years.
“We continue to believe the CBRS band with its unique spectrum sharing characteristics include many of the right ingredients to change the status quo about how networks are built,” said Stefan Pongratz, senior director at Dell’Oro Group. “And recent announcement by the CBRS Alliance to support OnGo over 5G underpins projections that 5G NR deployments in the CBRS band are set to accelerate in the outer part of the forecast period,” continued Pongratz.
Followings are additional highlights from the CBRS 5-Year Forecast January Report (2019 to 2023):
CBRS capex is not projected to have a significant impact on the WLAN capex.
CBRS investments are projected to account for more than a fifth of the U.S small cell market by the outer part of the forecast period.
FWA is projected to drive the lion share of the CBRS capex over the near-term.
This blog post is a summary of RAN-related key takeaways from MWC 2019 Barcelona. For access to the full version, please contact email@example.com
The MWC event supported the premise we have communicated for some time that there are convincing reasons to be optimistic about the RAN market. One of the show’s key findings was a strong consensus that 2019 will be another solid year for the RAN market driven by growth in China, Korea, and the U.S.
While we have already projected that 5G NR would accelerate rapidly in 2019, key findings at the show increase our confidence level that 5G NR shipments and revenues will be material in 2019. We discuss the mobile infrastructure market’s 2018 performance in this press release.
Another key takeaway from MWC2019 was the strong focus on Massive MIMO. This increased confidence in the upwardly adjusted Massive MIMO projections we outlined in conjunction with recently published Mobile RAN reports. Given that operators have multiple tools in their toolkit to manage capacity (Figure 1), why are we so optimistic about the Massive MIMO opportunity in the sub 6 GHz spectrum? Learn more about Massive MIMO at Barcelona in this article.
The Millimeter Wave (mmW) narrative has morphed somewhat over the past couple of years with the industry sentiment fluctuating about the role mmW will play for mobile applications. Even though the opportunity cost for operators with significant mid-band assets will be more favorable for
some time leveraging the macro grid and Massive MIMO, our view has always been that mmW will be an important technology over the long-term (there is no fourth alternative in Figure 1).
The most important takeaways from the event include: 1) mmW is now real, phones are coming to the market, and mmW shipments will be material in 2019, 2) The perception about Qualcomm’s mmW simulation is changing, 3) Findings validate our short-term and long-term forecast.
A summary of the latest Mobile RAN five-year forecast may be found here.
Open and Virtual RAN
In general good momentum during the show behind the shift towards opening up the RAN and moving away from proprietary hardware with Rakuten communicating its C-RAN (Cloud Radio Access Network) progress in Japan, Ericsson recently joining the ORAN Alliance, and Telefonica sharing its roadmap and ecosystem partners for Open Access – which did not include the larger macro RAN vendors for the SW stack or the radios.
While there is no doubt that virtual RAN sceptics will be monitoring Rakuten’s performance when the company goes to live with its 5500 sites this fall, it remains to be seen how well true C-RAN systems will handle—for example, a site with 64T64R 100 MHz BW Massive MIMO systems, along with legacy 2G/4G systems.
To some degree, the event reminded both virtual and proprietary HW RAN proponents that both sides have something to bring to the table. Open RAN and Virtual RAN are making significant headway and there is excitement about this progress. However, the event did little to convince us of our long-standing thesis—that the shift toward RAN virtualization will eventually occur—but it will take time. Moreover, initially, it will be confined to non-traditional builds, e.g., new use cases, indoor deployments, greenfield deployments, and rural settings. Finally, after such deployments, it will need to be revised.
The key takeaway from a CBRS perspective is the reduced risk that regulatory delays could eventually impact the ecosystem. With Pixel 3 and Galaxy S10 now supporting the CBRS band, the ecosystem will undoubtedly get a boost. In addition to Qualcomm’s Snapdragon X20/24, Sierra Wireless and Sequans Cassiopeia now also have production-grade modules.
Our CBRS forecast report, which suggests that will grow at a rapid pace between 2018 and 2022 with total RAN investments approaching $1 Billion and CBRS RAN shipments to eclipse half a million units. Learn more from my blog on the CBRS RAN market.
After spending a few days at OFC 2019, I sat down and read through the notes I took during each meeting at the conference and concluded that I have fewer pages of notes for this OFC than in the past two OFCs attended. Kidding aside…This lack of notes was in no way an indication of the meeting quality. They were great meetings with a lot of information exchange. It was, however, an indication that nothing was “really” new at this conference from the past two conferences. In fact, at times, I felt a sense of Déjà vu.
At the conference 600 Gbps and 800 Gbps coherent optical components, DSPs, and systems were re-affirmed with samples, demos, and timelines. As I understand it, the timeline for system availabilities are as follows:
600 Gbps capable coherent line cards
Cisco’s NCS 1004, Infinera’s Groove G30 using Acacia’s DSP will be available by the end of March 2019
Fujitsu’s 1Finity T600 using NEL’s DSP was available one week before OFC
Huawei’s OSN with an in-house DSP will be available by end of March 2019
Nokia’s 1830 PSI-M with an in-house DSP will be available in 3Q 2019
800 Gbps capable coherent line cards
Ciena is targeting the end of 2019 (I’m guessing last month of 2019)
Huawei by end of 2020 (I’m guessing last month of 2020)
Infinera is targeting 2H20 (I’m guessing the first month of 4Q 2020)
Nearly everyone talked more about 400 Gbps ZR in a QSFP-DD or OSFP form factor this year. This was the same as last year. However, now both Ciena and Infinera have announced plans for developing and manufacturing 400G ZR. So, there are definitely more companies interested in making and selling 400G ZR. We should see 400G ZR products and demo in OFC 2020.
The most interesting item I saw at OFC this year was probably a new product that Fujitsu is developing that they call Trans Lambda. It sounded like the company needed a couple more years to develop the product, but the concept was quite unique. The premise is that as the optical world hits Shannon’s limit, the use of L-band will increase. So, Fujitsu is working on a box that can shift C-band signals to L-band without an optical-electrical-optical conversion. I’m looking forward to hearing how this technology develops and fits into the optical market in the future.