Okay, I apologize for the bad pun, but it does seem like the Fiber Optic market is finally trending upward. I attended the OFC/NFOEC Conference in Anaheim in March and although a bit late, I’m glad that April came and I can describe some of the developments. I was impressed with many of the technology, product and market developments on display.

At the top level, this market segment has floundered, directionless for the past several years. After good growth in the middle part of the 2000’s, the overall optical market ran into trouble in 2009 as the global economy faltered. The result was a drop in revenue of about 15%. With the exception of a short-lived spike in 2011, the market has been relatively flat. This behavior is understandable, because upgrading, expanding or initially deploying an optical transport network is a capital-intensive exercise and the uncertain direction of many regional economies only adds to the challenge. The wildcard in this scenario however, is the seemingly insatiable desire to consume data.

We tend to focus on growth in the mobile data consumption that is enabled by the vast array of wireless devices we’ve all grown so dependent on, but that’s not the whole story. As I am fond of pointing out, even with mobile data roughly doubling every year from 2009 to 2016, it will only account for roughly 10% of the total in 2016. The other portion of data consumption comes from Internet, high-speed broadband, CATV and enterprise data applications. Even with the backdrop of a still uncertain economy, it is becoming clear that transport network upgrades are essential to ensure future data increases are feasible.

It appears operators are finally committing the capital resources and this looks likely to set up the overall optical market for steady future growth. At the component level, another interesting trend I observed is the rapid conversion to higher capacity networks. It appears 10Gbps systems are the workhorse of the network, with lower capacity systems all but disappearing. Another thing that seemed clear was that while 40Gbps systems will grow, they won’t represent as big an opportunity as originally thought. There are currently four modulation schemes used for these networks: optical duo binary, DPSK, differential quadrature phase-shift keying (DQPSK) and dual-polarization QPSK or DP-QPSK. While this lack of standardization allows suppliers to differentiate their designs, it does not allow for economies of scale and the cost reduction standardization usually entails. At the same time, the cost of 10Gbps systems has been dropping quickly. These factors seem to be leading operators to consider jumping directly from 10Gbps to 100Gbps networks, skipping 40Gbps in the process. It appears from the Marketing presentations and the products I saw, that 100Gbps system will see the fastest growth, by far! For more information on growth rates, segmentation, quantities and market values for optical transceivers, please look at Capacity Requirements Driving Fiber Optic Market.

The other big topic at the show was silicon photonics. This idea seems to divide the audience into two distinct and passionate camps. One says, “we’ve been hearing this now for years, but where are the production products?” The other camp is more than ready to discuss the benefits of silicon CMOS processes for cost and power reduction. One thing that appears to be different from the past is the dramatic increase in enterprise applications and “big data”. As server farms grow, so does the need for fast, cheap, low power, short-reach connections. This need seems very well suited to the capabilities of silicon photonics. While the technology doesn’t appear to meet the needs of every application, there is certainly a lot of development effort and it will be interesting to see how quickly silicon photonic circuits penetrate short-reach enterprise applications. Stay tuned!

-Eric

With the financial reports in the books, it’s time to close out 2012. The good news is that GaAs device revenue closed 2012 up slightly to reach another record at slightly more than $5.3 billion. The small gain was driven by strong fourth quarter performance from the industry after a sub-par third quarter just about erased the gains for the entire year.

Handsets and smartphones, in particular, remain the driving force behind GaAs device revenue growth. The growth of smartphones with their increasing GaAs device content helped propel the handset segment to more than 50% of the entire market. Not surprisingly, the companies associated with handset devices remain the revenue leaders. Skyworks Solutions again saw their revenues increase faster than the market and they remain the largest GaAs device manufacturer, stretching their lead over TriQuint. On the pure-play foundry side, WIN Semiconductors continues their impressive growth trajectory and they have become the dominant company in this segment.

We expect a good uptick in cellular terminal shipments in 2013, along with smartphones continuing to capture market share. I am expecting this will propel GaAs device revenue growth in 2013 into the 8 -10% range. With some of the predictors I use to track the market, I think there are signs that this growth is taking root. For more details, clients of the GaAs service can access my GaAs Device Industry Closes up in 2012 Insight.

However, even with above average growth looking likely in 2013, all is not rosy for the GaAs device market, long-term. The first threat to growth comes from within. The dizzying number of LTE bands, coupled with a desire for the “world-phone” has given rise to the multi-mode, multi-band (MM-MB) PA. This has some serious repercussions, because this market is so price sensitive that it will not tolerate bigger and more costly parts, so these MM-MB PAs must be smaller and cheaper than the PAs they replace or it won’t make sense to use them. We’ve already seen substantial design and design-in activity, so these devices are beginning to see commercial traction.

The other, serious threat was unveiled at the recently concluded Mobile World Congress (MWC). Qualcomm fired the first shot across the bow with their pre-conference announcement of the “RF360”. The company calls this family of devices a complete, all-encompassing CMOS RF front-end subsystem. This subsystem consists of an antenna tuning IC, an envelope tracking (ET) IC for Qualcomm’s PA and a MM-MB CMOS PA fabricated using a silicon-on-insulator (SoI) substrate. This announcement sent stocks of the GaAs PA manufacturers plummeting to levels from which they are still trying to recover. Then at MWC, a whole host of companies announced their ET development efforts aimed at CMOS-based PAs in LTE handset applications. A detailed summary of these announcements and developments is contained in PA Market in Flux: CMOS PAs and Envelope Tracking Emerge as Major Themes at MWC 2013 from Strategy Analytics’ RFWC service.  

These events and particularly the development on the CMOS front will certainly influence the growth trajectory for GaAs devices in the next several years and merit close attention. If you plan to attend IMS2013 in Seattle, stop by the panel session I will be hosting entitled “The Death of GaAs (?)” on Thursday, June 6^th at 12:00PM. We’ve have some market overviews, short presentations from a number of GaAs and silicon-based device manufacturers and then a lively discussion. If you can’t make the IMS2013 conference, you can also catch up with me at CS MANTECH in New Orleans on May 13 – May 16. I’ll be presenting an overview of the 2012 GaAs market and I’d be happy to chat.

-Eric

As we get set to close the book on 2012, I thought I’d share some observations about the trends and results for the compound semiconductor industry. First and foremost, it hasn’t been a banner year, but the GaAs device market looks like it will eke out a small gain. Through three quarters, revenue in the device industry is showing a very small gain. On a positive note, many of the large GaAs device manufacturers have stated they are optimistic about their calendar fourth quarter prospects. This makes me optimistic the GaAs device industry will come close to the 2% growth I forecast at the beginning of the year. In addition, the GaAs revenue “pressure curve” (a concept I introduced in the “At the Halfway Point of 2012: GaAs Device Industry Shows Small Gain “ blog) has shown an upward trend with a value greater than 1 the past two quarters. Essentially, the pressure curve is a rolling average, so a value greater than 1 indicates growth and with companies optimistic about Q4, it wouldn’t be surprising to see another upward tick in the indicator.

This indicator fits well with our latest forecasts. The inescapable conclusion is growth in the handset market is still the single largest driver for the overall GaAs device market. This “growth” isn’t just unit growth, it also relies heavily on smartphone penetration since these devices contain more GaAs content than lower tier devices. After a flat year in 2012, our latest forecasts show much healthier growth in handsets and power amplifiers in 2013. The unit growth will be important because as smartphones become more prevalent, the rate of growth is slowing. Return to healthy growth for handset PAs, which make up more than 50% of the overall GaAs device market, bodes well for growth in 2013.

Most of the growth in the GaAs device market in the last 18 months can be attributed to handsets, as the network side of the market has been flat. While a tentative global economy probably is not helping, the time for increasing network investment would seem to be nearing. Data consumption continues to increase dramatically and this is placing a burden on all the networks, whether they are wireless or wired. In the upcoming year, I plan to update research on the wired CATV/broadband and fiber transport networks, along with developments in the wireless backhaul, infrastructure and VSAT networks to get a better understanding of the trends and drivers in these areas, so stay tuned for those updates.

As a final thought, I’d be remiss if I didn’t mention GaN. This technology continues to attract a significant amount of interest in the compound semiconductor industry. It finally appears that we are getting commercial adoption of GaN-based devices and we can see the point of inflection for volume. CATV amplifiers continue to lead this commercial adoption, but we are hearing about more activity for GaN in wireless infrastructure, VSAT, high power electronics and even point-to-point radio applications. The tricky part is determining exactly where we are in relation to the point of inflection. I’m not completely sold on the hype (again), just yet, but I am willing to concede there is much more activity than a year ago. This is another topic that I will be diving into early in 2013 to get a better sense of the market.

As I sharpen my pencil for 2013, I’d like to wish everyone a very safe and happy holiday season and a prosperous New Year!

-Eric

The Strategy Analytics GaAs and Compound Semiconductor Technologies Service (GaAs) viewpoint, “Compound Semiconductor Industry Review October-December 2011: Optoelectronics, Materials and Equipment,” captures product, technology, contract and financial announcements from major material, device and equipment suppliers in the optoelectronics market supply chain, such as AIXTRON, IQE, Kopin, Oclaro, GigOptix, Cree, JDSU, Avago Technologies, Finisar and Osram. These announcements are categorized by material and equipment, laser, LED and compound photovoltaic activity.

Despite recent, highly publicized problems at Evergreen Solar and Solyndra, solar energy continues to play an essential role in political strategy as government and the private sector seeks viable sources for renewable energy. It is easy to get a negative outlook about an entire segment when a couple of the high profile participants run into difficulties. The reality, however, is that solar energy has become a widely deployed form of alternative energy. The product development announcements we captured in Q4 provide a counterpoint to the bankruptcy proceedings at Evergreen Solar and Solyndra and show growth and activity in the compound photovoltaic technologies which underpin the solar market.

The growth starts at the begiining of the supply chain with commitments of $2 billion to increase polysilicon production by 23,000 metric tons per year. Companies like Spire, Avancis, Soitec and First Solar are expanding their photovoltaic module manufacturing plans and TSMC, through its TSMC Solar subsidiary has entered the module manufacturing arena. These announcements, coupled with more companies reporting efficiency records for solar cells points to a vibrant industry with good opportunities for compund semiconductor materials.

The outlook in the LED sector is not quite so upbeat. AIXTRON, one of the leading semiconductor equipment manufacturers reported a steep drop in revenue and orders in 2011. They blame high levels of government funding in China and financing pressures on the Asian LED manufacturers for masking a significant organic slow down in LED demand in China. It appears production in 2012 will continue to grow, but perhaps not enough to offset price erosion. Despite, this, there is still a signficant amount of development activity at companies like Cree, Bridgelux, Epistar and Luminus. These developments aim at increasing efficiency, output and affordability for applications ranging from low power consumer devices to high intensity specialty lighting and streetlights.

Eric

 For clients to read more:

After a banner year in 2010 and a fast start to 2011, GaAs device revenue growth has slowed and we estimate it closed 2011 at 6%, right around the historical average. The GaAs and Compound Semiconductor Technologies Service (GaAs) Insight, “ 2011 GaAs Device Revenue Flaters after Strong Start" explores the drivers behind the 2011 GaAs device revenue performance. GaAs devices enable a variety of wireline and wireless networks, but no market segment is more essential to the overall GaAs revenue than mobile handsets. As mobile data consumption continues to skyrocket, operators are trying to keep pace by acquiring more spectrum and making mobile devices more sophisticated to use existing spectrum more efficiently. The result is a new generation of feature phones and smartphones that are multi-band and multi-standard to accommodate the new spectrum allocation and increase the geographical footprint of the handset. This, coupled with more sophisticated modulation schemes is increasing the GaAs content for the higher-tier mobile handsets.

Our Wireless Device Strategies Service estimates smartphone sales grew by an average of more than 68% in 2010 and 2011. With this growth, it is understandable that GaAs device revenue surpassed $5 billion for the first time in 2010. Even though the smartphone growth rate was similar in 2011, the overall number mased two different trends throughout the year. The first half of 2011 saw growth well in excess of 80%, while growth in the second half fell to 40%. GaAs revenue growth followed this trend by growing strongly in the first part of 2011 before falling off as the year progressed. The insight looks at our projections for smartphone growth and how we expect this growth to decline over time to eventually approach the growth of the overall handset market.

Even though we are still predicting handset growth and continued use of GaAs in a wide variety of market applications, it appears the market is likely to revert to historical averages as we go forward. This insight summarizes revenue performance of a representative set of GaAs wafer and device manufacturers for 2010 and 2011 and finds some signs of revenue slowdown in the supply chain. It also discusses trends and drivers for the overall GaAs device industry and forecasts potential trouble spots to be monitored through 2012. 

Eric

Clients view related insight from GaAs and Compound Semiconductor Technologies Service here:

http://www.strategyanalytics.com/default.aspx?mod=reportabstractviewer&a0=7080