LogMeIn Inc., a provider of cloud services for data and devices, recently opened an office in Bangalore, India. Thanks to Mamata Sampath, I had a brief discussion with Anil Sharma, sales director, LogMeIn, India. LogMeIn provides cloud-based remote access, support and collaboration solutions to quickly, simply and securely connect millions of Internet-enabled devices across the globe — computers, smartphones, iPad and Android tablets, and digital displays. For instance, LogMeIn is working to resolve several IT challenges due to enterprise mobility.
First, I asked him about the challenges before enterprises due to the increasing mobile workforce. He said that mobility has become more complex for enterprises, and particularly for multinationals that need to manage the mobility of their staff across many countries. It has been observed that enterprise mobility is the biggest single trend across the tech industry investment, even outpacing the cloud computing trend. The increasing importance of the space is reflected in robust market traction predictions for India as well.
According to Frost & Sullivan, the enterprise mobility market in India was worth about Rs. 346 crore in FY2008-09 and is estimated to reach Rs 1,880 crore by FY 2015-16. Growth rates for the enterprise mobility market in India are estimated to be among the highest in the Asia region. There are simply more users with more devices using more applications.
In addition there has been a blurring of the boundaries between business and personal usage, and many IT managers struggle to enforce company policies while employees demand more consumer-like devices and applications. Their need for support in managing this complexity and cost has never been greater.
Some of the IT challenges faced due to enterprise mobility are: Securing information systems, integrating technologies, supporting devices, containing costs, controlling personal use, training users, justifying investments and limiting use.
When it comes to managing enterprise mobility, it has been noticed that the devices like tablets and smartphones are becoming “access” devices and enterprises are still figuring out how to best ensure data is neither lost nor accessed by unauthorized persons. Enforcing password policies and employing capabilities that allow IT helpdesk to remotely lock a lost or stolen device are musts.
Further, keeping data behind a firewall on the network (where it can be backed up regularly) helps ensure its integrity. Software like LogMeIn’s remote access solution, Ignition, enables users maintain the high level of mobility that they have become accustom to and get access to the data on the corporate network via their tablet or smartphone, without actually downloading or storing that data on the device itself.
Tuesday, November 29, 2011
Monday, November 28, 2011
Lattice intros low power ECP4 FPGAs
Lattice Semiconductor Corp. has introduced the low-cost and low-power ECP4 FPGAs. These feature 6Gbps SERDES in low cost wire-bond packages, powerful DSP blocks and hard IP-based communication engines for cost- and power-sensitive wireless, wireline, video, and computing markets.
The LatticeECP4 FPGA family features high performance, low power in low cost 65nm process, making a great FPGA family even better. Lower cost, high yield 65nm process is ideal for mid-range FPGAs. There has been an extensive use of wire-bond packaging. The FPGAs have CDR capable I/Os that lower customers' implementation cost. The POWER sysDSP minimizes multipliers and LUTs, and enables high bandwidth in a small area. There is also a 10X area reduction by use of hardened MACO communication engines.
The ECP4 features lower power architecture. It is optimized for mid-density devices, and not based on high-density high overhead platform. Modified logic/routing power ratio helps achieve higher performance with modest dynamic power increase. It also features higher bandwidth and performance.
As it is, the FPGA boasts 10X more efficient hard MACO engines. Besides, it has 7X more DSP processing capability, 2X faster SERDES (6G), 66 percent more LUTs, 50 percent higher LVDS performance, 42 percent more memory and 33 percent higher DDR3 I/O performance.
Diamond 1.4 beta design software is available for select customers, especially those who jumpstart cost-effective platform designs. The ECP4 device samples will be available in 1H 2012, and the ECP4 production devices will be available in 2H 2012.
The LatticeECP4 FPGA family features high performance, low power in low cost 65nm process, making a great FPGA family even better. Lower cost, high yield 65nm process is ideal for mid-range FPGAs. There has been an extensive use of wire-bond packaging. The FPGAs have CDR capable I/Os that lower customers' implementation cost. The POWER sysDSP minimizes multipliers and LUTs, and enables high bandwidth in a small area. There is also a 10X area reduction by use of hardened MACO communication engines.
The ECP4 features lower power architecture. It is optimized for mid-density devices, and not based on high-density high overhead platform. Modified logic/routing power ratio helps achieve higher performance with modest dynamic power increase. It also features higher bandwidth and performance.
As it is, the FPGA boasts 10X more efficient hard MACO engines. Besides, it has 7X more DSP processing capability, 2X faster SERDES (6G), 66 percent more LUTs, 50 percent higher LVDS performance, 42 percent more memory and 33 percent higher DDR3 I/O performance.
Diamond 1.4 beta design software is available for select customers, especially those who jumpstart cost-effective platform designs. The ECP4 device samples will be available in 1H 2012, and the ECP4 production devices will be available in 2H 2012.
Friday, November 25, 2011
Global semicon sales forecast at $329.4 billion for 2012
This is a continuation of my coverage of the fortunes of the global semiconductor industry. I would like to acknowledge and thank Mike Cowan, an independent semiconductor analyst and developer of the Cowan LRA model, who has provided me the latest numbers.
It’s that time of the month again; namely, time for an “early showing” of next month’s global semiconductor sales forecast updates for both 2011 and 2012 as gleamed from October’s “actual” sales expectation range via exercising the ‘look ahead’ forecasting capability of the Cowan LRA forecast model.
The soon to-be-announced October 2011 global semiconductor sales result should, therefore, be influential in determining the sales growth expectation for the full year of 2011. In particular, one can ascertain whether 2011 will exhibit positive yearly sales growth for the industry or will it turn negative as a number of market researchers have recently forecasted based upon downward fourth quarter sales guidance recently announced by many semiconductor suppliers in reporting their third quarter financials?
Therefore, presented here is a “snap shot” of 2011′s global semiconductor sales and sales growth forecast prospects as a function of October’s possible “actual” sales forecast estimate range as derived via the Cowan LRA forecasting model that I have developed and previously shared. Moreover, the model has been extended in order to include a view of what 2012?s sales growth prospects might look like thereby providing a five quarter look ahead horizon that allows the model to also capture the four quarters of 2012.
It should be mentioned that October 2011′s “actual” global semiconductor sales number is scheduled to be released by the WSTS via its monthly HBR (Historical Billings Report) on or about Monday, December 5th.
In advance of the WSTS’s release of its October HBR, here’s a monthly “what if” outlook analysis. The analysis leverages the Cowan LRA forecasting model, which projects worldwide semiconductor sales for 2011 (as well as 2012) by providing a “look ahead” scenario for year 2011′s sales forecast range as a function of October’s assumed range of “actual” global semiconductor sales estimates.
The output of this “look ahead” modeling analysis is detailed in the scenario analysis matrix displayed in the table below. A discussion of the model’s results is provided in the paragraphs immediately following the table given here.Source: Cowan LRA model.
In order to facilitate the determination of these “look ahead” forecast numbers, an extended range in assumed October 2011′s “actual” sales is selected a-priori. In this month’s scenario analysis outlook, an Oct. 2011 sales range from a low of $23.948 billion to a high of $26.948 billion, in increments of $0.250 billion, is pre-selected as listed in the first column of the above table.
It’s that time of the month again; namely, time for an “early showing” of next month’s global semiconductor sales forecast updates for both 2011 and 2012 as gleamed from October’s “actual” sales expectation range via exercising the ‘look ahead’ forecasting capability of the Cowan LRA forecast model.
The soon to-be-announced October 2011 global semiconductor sales result should, therefore, be influential in determining the sales growth expectation for the full year of 2011. In particular, one can ascertain whether 2011 will exhibit positive yearly sales growth for the industry or will it turn negative as a number of market researchers have recently forecasted based upon downward fourth quarter sales guidance recently announced by many semiconductor suppliers in reporting their third quarter financials?
Therefore, presented here is a “snap shot” of 2011′s global semiconductor sales and sales growth forecast prospects as a function of October’s possible “actual” sales forecast estimate range as derived via the Cowan LRA forecasting model that I have developed and previously shared. Moreover, the model has been extended in order to include a view of what 2012?s sales growth prospects might look like thereby providing a five quarter look ahead horizon that allows the model to also capture the four quarters of 2012.
It should be mentioned that October 2011′s “actual” global semiconductor sales number is scheduled to be released by the WSTS via its monthly HBR (Historical Billings Report) on or about Monday, December 5th.
In advance of the WSTS’s release of its October HBR, here’s a monthly “what if” outlook analysis. The analysis leverages the Cowan LRA forecasting model, which projects worldwide semiconductor sales for 2011 (as well as 2012) by providing a “look ahead” scenario for year 2011′s sales forecast range as a function of October’s assumed range of “actual” global semiconductor sales estimates.
The output of this “look ahead” modeling analysis is detailed in the scenario analysis matrix displayed in the table below. A discussion of the model’s results is provided in the paragraphs immediately following the table given here.Source: Cowan LRA model.
In order to facilitate the determination of these “look ahead” forecast numbers, an extended range in assumed October 2011′s “actual” sales is selected a-priori. In this month’s scenario analysis outlook, an Oct. 2011 sales range from a low of $23.948 billion to a high of $26.948 billion, in increments of $0.250 billion, is pre-selected as listed in the first column of the above table.
Thursday, November 24, 2011
M/H can truly deliver ‘real TV’ experience!
Siano Mobile Silicon, based in Israel, is going strong in mobile digital TV space. Thanks to Rachel Glaser, of Ruderfinn, Israel, I managed an exclusive with Ronen Jashek, co-founder and VP Marketing, Siano.
First, let’s understand what the US standard for mobile digital TV — ATSC-M/H (Advanced Television Systems Committee – Mobile/Handheld)– all about! Jashek said: ”ATSC-M/H is a standard that was established on the foundation of ATSC, a digital technology that replaced Analog TV in the US back in 2009. ATSC is the US equivalent to other international standards, like DVB-T (Europe), ISDB-T Full-Seg (Japan), and others around the world.
“ATSC is targeted (and consequently, was designed to do just that) to deliver HD content to domestic, stationary applications (i.e., big-screen TVs at home) that primarily use fixed antennae. It therefore does not address issues that are related to mobile use-cases – mobility (being able to receive the signal while moving at high speeds), efficient power consumption (to address the mobile, battery-powered devices) and extremely high sensitivity and immunity to interface (which is required in a typical mobile use-case when “on the go”). As a result, these aspects are exactly what M/H (Mobile/Handheld) is addressing. In a word, M/H can be considered the equivalent of DVB-H (again – in Europe), CMMB (in China) and ISDB-T 1-Seg (Japan and LatAm).
“ATSC-M/H was established by the ATSC standardization body, as a joint effort by its members, after realizing the need to secure a technology that would enable true mobile TV service to take off and flourish in the U.S. The various ATSC committees worked on the standard for several years, up until its final version was formally approved in the fall of 2010, paving the way to the deployment and launch of the M/H TV service.”
Given the considerable interest around mobile handheld TV, how significant is the mobile-ready programing? Jashek replied: “Based on the underlying M/H technology, US broadcasters now have the means to get their content out there – direct to consumers. Currently, there are about 60 cities with a total of close to 80 TV stations that are already airing mobile TV content.
“To date, however, most of this content is local – meaning, it’s produced and aired locally. But this is not nearly enough to generate a successful, enticing mobile TV market. Enter the Mobile Content Venture, the MCV – a coalition of the top US broadcasters (FOX, NBC, ION, and others) that set its mission on delivering the mobile TV service built on the broadcast technology and spectrum.
“Naturally, the content that can be delivered by this coalition is the best available premium content in the US Quoting their official plans – “At launch, the service will initially consist of at least two ad-supported, free-to-consumer channels in each DMA. Additional channels and markets are expected to be added.” There’s no doubt that once the MCV plans are in motion and materialize, the content will be extremely attractive to render the service successful.”
First, let’s understand what the US standard for mobile digital TV — ATSC-M/H (Advanced Television Systems Committee – Mobile/Handheld)– all about! Jashek said: ”ATSC-M/H is a standard that was established on the foundation of ATSC, a digital technology that replaced Analog TV in the US back in 2009. ATSC is the US equivalent to other international standards, like DVB-T (Europe), ISDB-T Full-Seg (Japan), and others around the world.
“ATSC is targeted (and consequently, was designed to do just that) to deliver HD content to domestic, stationary applications (i.e., big-screen TVs at home) that primarily use fixed antennae. It therefore does not address issues that are related to mobile use-cases – mobility (being able to receive the signal while moving at high speeds), efficient power consumption (to address the mobile, battery-powered devices) and extremely high sensitivity and immunity to interface (which is required in a typical mobile use-case when “on the go”). As a result, these aspects are exactly what M/H (Mobile/Handheld) is addressing. In a word, M/H can be considered the equivalent of DVB-H (again – in Europe), CMMB (in China) and ISDB-T 1-Seg (Japan and LatAm).
“ATSC-M/H was established by the ATSC standardization body, as a joint effort by its members, after realizing the need to secure a technology that would enable true mobile TV service to take off and flourish in the U.S. The various ATSC committees worked on the standard for several years, up until its final version was formally approved in the fall of 2010, paving the way to the deployment and launch of the M/H TV service.”
Given the considerable interest around mobile handheld TV, how significant is the mobile-ready programing? Jashek replied: “Based on the underlying M/H technology, US broadcasters now have the means to get their content out there – direct to consumers. Currently, there are about 60 cities with a total of close to 80 TV stations that are already airing mobile TV content.
“To date, however, most of this content is local – meaning, it’s produced and aired locally. But this is not nearly enough to generate a successful, enticing mobile TV market. Enter the Mobile Content Venture, the MCV – a coalition of the top US broadcasters (FOX, NBC, ION, and others) that set its mission on delivering the mobile TV service built on the broadcast technology and spectrum.
“Naturally, the content that can be delivered by this coalition is the best available premium content in the US Quoting their official plans – “At launch, the service will initially consist of at least two ad-supported, free-to-consumer channels in each DMA. Additional channels and markets are expected to be added.” There’s no doubt that once the MCV plans are in motion and materialize, the content will be extremely attractive to render the service successful.”
Tuesday, November 22, 2011
MEMS Executive Congress 2011 round-up
Presenting the round-up or closing remarks from Ms. Karen Lightman, MD, MEMS Industry Group, at the recently held MEMS Executive Congress 2011 on Nov. 2-3, in Monterey, USA.
Market analyst panel
* Intelligence added to location will dictate consumer experiences on mobile, (Forrester).
* MEMS market growth at 10 percent in 2011. Nearly $12 billion market by 2015, says IHS iSuppli. Yole predicts $20 billion by 2015.
* Consumer MEMS growing at much faster pace, at 20 percent year-over-year – but look out for price erosion (iSuppli)!
* Be more like semiconductor manufacturing. Leverage standard processes and tools to get to volume production. Reduces cost and TTM (Semico).
Accelerating innovation through systems engineering best practices
* We are ushering in a “new wave” of innovation fueled by “building blocks” of the connected world.
* Software is the Iifeblood of today’s innovation and is changing design paradigm within many markets.
* Connect multiple products and services into a “system of systems” to deliver unique value.
* Leverage systems engineering and develop core competency in software delivery. Speeds time-to-market and enables differentiated products.
* IBM Rational implemented “system of systems” with GM to produce new drive system for Chevy Volt in just 29 months!
Panel on MEMS foundry models – in-house, fab-lite, fabless
* Time-to-market (TTM) is a key challenge. It’s still 2x slower than in the semiconductor business.
* MEMS is coming to attention of global semiconductor industry, which can address high- and low-volume apps. Barriers to entry are lower than ever.
* A difference of opinion: Reusing tools from CMOS fabs can lower costs for IDMs and large IC foundries. Pure-play foundries compete via engineering know-how and “ecosystem” approach.
* There will be more fabless companies in top 30 MEMS companies within next few years.
* “Remember that products pay the bills, not technology.”
Panel on MEMS sensor fusion/sensor networks
* MEMS sensors have potential to give us real-time situational analysis.
* We’re using cell phones to communicate with one another. Now, we need to communicate with the environment.
* HP’s Central Nervous System of the Earth (CENSE), used for oil and gas exploration, is ramping 1 million high-performance sensor nodes.
* But sensor companies have failed us (at least in part)! We need low-cost, lower-power MEMS devices that can withstand on-again, off-again demand.
* In the future, it won’t be about pushing data to someone else’s cloud. We’re going to have our own personal networks through which we manage secure communities of interest.
Panel on MEMS in consumer products
* Smartphones don’t just make computation mobile; they personalize it.
* Personal health management used to be the exclusive domain of men and women in white coats. Now it’s moving to consumer population at large.
* There are 24+ devices in consumer homes that produce data.
* “Ive seen espresso machines running Android!”
* In past, MEMS was obscure and invisible to the end user. In future, consumers will want to interact with many of these sensing technologies.
* The future of MEMS in consumer products is health/medical, LARGE, and ubiquitous.
Market analyst panel
* Intelligence added to location will dictate consumer experiences on mobile, (Forrester).
* MEMS market growth at 10 percent in 2011. Nearly $12 billion market by 2015, says IHS iSuppli. Yole predicts $20 billion by 2015.
* Consumer MEMS growing at much faster pace, at 20 percent year-over-year – but look out for price erosion (iSuppli)!
* Be more like semiconductor manufacturing. Leverage standard processes and tools to get to volume production. Reduces cost and TTM (Semico).
Accelerating innovation through systems engineering best practices
* We are ushering in a “new wave” of innovation fueled by “building blocks” of the connected world.
* Software is the Iifeblood of today’s innovation and is changing design paradigm within many markets.
* Connect multiple products and services into a “system of systems” to deliver unique value.
* Leverage systems engineering and develop core competency in software delivery. Speeds time-to-market and enables differentiated products.
* IBM Rational implemented “system of systems” with GM to produce new drive system for Chevy Volt in just 29 months!
Panel on MEMS foundry models – in-house, fab-lite, fabless
* Time-to-market (TTM) is a key challenge. It’s still 2x slower than in the semiconductor business.
* MEMS is coming to attention of global semiconductor industry, which can address high- and low-volume apps. Barriers to entry are lower than ever.
* A difference of opinion: Reusing tools from CMOS fabs can lower costs for IDMs and large IC foundries. Pure-play foundries compete via engineering know-how and “ecosystem” approach.
* There will be more fabless companies in top 30 MEMS companies within next few years.
* “Remember that products pay the bills, not technology.”
Panel on MEMS sensor fusion/sensor networks
* MEMS sensors have potential to give us real-time situational analysis.
* We’re using cell phones to communicate with one another. Now, we need to communicate with the environment.
* HP’s Central Nervous System of the Earth (CENSE), used for oil and gas exploration, is ramping 1 million high-performance sensor nodes.
* But sensor companies have failed us (at least in part)! We need low-cost, lower-power MEMS devices that can withstand on-again, off-again demand.
* In the future, it won’t be about pushing data to someone else’s cloud. We’re going to have our own personal networks through which we manage secure communities of interest.
Panel on MEMS in consumer products
* Smartphones don’t just make computation mobile; they personalize it.
* Personal health management used to be the exclusive domain of men and women in white coats. Now it’s moving to consumer population at large.
* There are 24+ devices in consumer homes that produce data.
* “Ive seen espresso machines running Android!”
* In past, MEMS was obscure and invisible to the end user. In future, consumers will want to interact with many of these sensing technologies.
* The future of MEMS in consumer products is health/medical, LARGE, and ubiquitous.
Thursday, November 17, 2011
Global semiconductor market will be $313 billion in 2012: SSIA
The Singapore Semiconductor Industry Association (SSIA) recently held its 2011 Summit. Estimating the global semiconductor industry in 2012, the SSIA agrees with Future Horizon forecasts stating that 2011-Q3 will be flat (+/- 1 percent), and that 2011-Q4 will show a slight decline (-1/-2 percent) with total year growth of 1 percent as compared with growth of 2010 +32 percent.Pasquale Pistorio, honorary chairman, ST Microelectronics, who spoke at SSIA’s Summit, described expectations for 2012 as including a low first half, followed growth of +8 percent and 2013 growth of 22 percent. “The industry will reach the elusive $400 billion mark in 2013,” noted Pistorio. The global semiconductor market will be $313 billion in 2012.
Meeting semicon industry challenges
According to the SSIA, the semiconductor industry challenges going forward include:
Industry growth in an uncertain market: The semiconductor industry is cyclical – and this poses challenges. “Excessive investment in inventory during expansion or economic slowdown, or both, has been the way of life in this industry,” said Pistorio. “The semiconductor industry is characterized by big market swings. In 2001, the swing was +69 percent. Now is a new swing. This is the first correction of this decade. This is the nature of the industry - this is business as usual.”
Growth of emerging semiconductor companies: With semiconductor startups declining in number and VCs becoming more and more hesitant to invest funds in getting them off the ground, a different approach is needed to enable these innovative entrepreneurs to gain a foothold in the semiconductor market.
To encourage growth in this sector, SSIA will become involved in a semiconductor-focused company incubator to guide the creation of growth of Singapore- based fabless semiconductor startups; create an SSIA emerging company board with a focus on better meeting the needs of emerging semiconductor companies and facilitating coordination with established Singapore semiconductor companies; and coordinate with Singapore government agencies and the Economic Development Board on infrastructure support initiatives for emerging semiconductor companies.
Asian semiconductor industry worth $177 billion in 2012
Estimating the Asian semiconductor industry in 2012, the SSIA said that Singapore plays a significant role in the overall. The Asian semiconductor market is expected to be $177 billion in 2012. According to SSIA projections, the 2012 Singapore semiconductor market will be approximately $44.6 billion.
Year 2010 was a record year for Singapore's electronics industry. The industry attained historic highs in both manufacturing output and value-added. Electronics manufacturing output grew 26.9 percent in 2010 to reach S$89.9 billion, far surpassing the global industry growth of 9.3 percent. The electronics industry was also the largest contributor to Singapore's 2010 GDP from the manufacturing sector, with its share of GDP increasing to 7 percent from 5.7 percent in 2009.
The strong growth of Singapore's electronics industry was enabled through industry transformation. Over the years, the electronics industry has transformed to manufacture higher value-added products and R&D. This is illustrated through two main sectors - semiconductors and data storage.
Singapore's semiconductor industry posted a nominal growth of 49.8 percent, outpacing the global semiconductor industry's 32.5 percent growth in 2010. As a result, Singapore's manufacturing output share of global semiconductor revenues increased from 11.2 percent in 2009 to 13.5 percent in 2010.
Meeting semicon industry challenges
According to the SSIA, the semiconductor industry challenges going forward include:
Industry growth in an uncertain market: The semiconductor industry is cyclical – and this poses challenges. “Excessive investment in inventory during expansion or economic slowdown, or both, has been the way of life in this industry,” said Pistorio. “The semiconductor industry is characterized by big market swings. In 2001, the swing was +69 percent. Now is a new swing. This is the first correction of this decade. This is the nature of the industry - this is business as usual.”
Growth of emerging semiconductor companies: With semiconductor startups declining in number and VCs becoming more and more hesitant to invest funds in getting them off the ground, a different approach is needed to enable these innovative entrepreneurs to gain a foothold in the semiconductor market.
To encourage growth in this sector, SSIA will become involved in a semiconductor-focused company incubator to guide the creation of growth of Singapore- based fabless semiconductor startups; create an SSIA emerging company board with a focus on better meeting the needs of emerging semiconductor companies and facilitating coordination with established Singapore semiconductor companies; and coordinate with Singapore government agencies and the Economic Development Board on infrastructure support initiatives for emerging semiconductor companies.
Asian semiconductor industry worth $177 billion in 2012
Estimating the Asian semiconductor industry in 2012, the SSIA said that Singapore plays a significant role in the overall. The Asian semiconductor market is expected to be $177 billion in 2012. According to SSIA projections, the 2012 Singapore semiconductor market will be approximately $44.6 billion.
Year 2010 was a record year for Singapore's electronics industry. The industry attained historic highs in both manufacturing output and value-added. Electronics manufacturing output grew 26.9 percent in 2010 to reach S$89.9 billion, far surpassing the global industry growth of 9.3 percent. The electronics industry was also the largest contributor to Singapore's 2010 GDP from the manufacturing sector, with its share of GDP increasing to 7 percent from 5.7 percent in 2009.
The strong growth of Singapore's electronics industry was enabled through industry transformation. Over the years, the electronics industry has transformed to manufacture higher value-added products and R&D. This is illustrated through two main sectors - semiconductors and data storage.
Singapore's semiconductor industry posted a nominal growth of 49.8 percent, outpacing the global semiconductor industry's 32.5 percent growth in 2010. As a result, Singapore's manufacturing output share of global semiconductor revenues increased from 11.2 percent in 2009 to 13.5 percent in 2010.
Tuesday, November 15, 2011
Cisco’s borderless networks architecture help enterprises overcome security challenges
Thanks to Riyanka Khanna at Text100, New Delhi, I managed to get into conversation with Bipin Kumar Amin, principle consultant, Borderless Networks – Security, Cisco. I started by asking him about the security challenges currently faced by enterprises.
Security challenges faced by enterprises
He said: “Indian network security market is growing consistently as organizations increasingly realize the importance of securing their data against external and internal threats. The advent of 3G in India has opened up new roads for technologies and applications owing to the greater bandwidth available, as well as faster data transfer. As data becomes more pervasive, privacy and security becomes the important concerns for the enterprises. Consequently, there has been no let-down in IT security spending because CIOs realize that without ensuring the security of their vital data, it’s not possible to expand business.
“The traditional network and physical perimeter is no longer the only border where information must be defended. Collaboration, IT consumerization, mobility, and new computing technologies are increasing productivity while presenting new security requirements.
“BYOD is a new phenomenon, which every enterprise is witnessing and has to deal with the management and security the data on mobile devices, whether they are owned by an enterprise or user. There is greater pressure on IT to meet the demands of a dynamic workforce-both in terms of service delivery and security challenges. New solutions are needed to protect borderless networks and to help further improve business efficiencies in the mean time.”
As for the trends in security, he added: “There are three major trends sweeping through the enterprise: rapid rise of the consumerized endpoint, onset of virtualization and cloud computing, and growing use of high-definition video conferencing. Each one of these critical technologies is transforming business—and forcing a fundamental shift in how security is developed and deployed.”
Security challenges faced by enterprises
He said: “Indian network security market is growing consistently as organizations increasingly realize the importance of securing their data against external and internal threats. The advent of 3G in India has opened up new roads for technologies and applications owing to the greater bandwidth available, as well as faster data transfer. As data becomes more pervasive, privacy and security becomes the important concerns for the enterprises. Consequently, there has been no let-down in IT security spending because CIOs realize that without ensuring the security of their vital data, it’s not possible to expand business.
“The traditional network and physical perimeter is no longer the only border where information must be defended. Collaboration, IT consumerization, mobility, and new computing technologies are increasing productivity while presenting new security requirements.
“BYOD is a new phenomenon, which every enterprise is witnessing and has to deal with the management and security the data on mobile devices, whether they are owned by an enterprise or user. There is greater pressure on IT to meet the demands of a dynamic workforce-both in terms of service delivery and security challenges. New solutions are needed to protect borderless networks and to help further improve business efficiencies in the mean time.”
As for the trends in security, he added: “There are three major trends sweeping through the enterprise: rapid rise of the consumerized endpoint, onset of virtualization and cloud computing, and growing use of high-definition video conferencing. Each one of these critical technologies is transforming business—and forcing a fundamental shift in how security is developed and deployed.”
Monday, November 14, 2011
MEMS market overview: IHS iSuppli
The MEMS Executive Congress, MEMS Industry Group’s annual executive conference, was held on Nov. 2-3, 2011, in Monterey, USA. Here are the excerpts from a presentation on the MEMS market overview by Jérémie Bouchaud, director and principal analyst, MEMS & Sensors, IHS iSuppli.
The market for MEMS has been growing, and is slated to grow at a CAGR of +10.5 percent from 2010-2015. Consumer and mobile MEMS market is slated to grow 22 percent CAGR from $1.5 billion in 2010 to $4.4 billion in 2015.Source: Source iSuppli MEMS Market Tracker – Q2 2011.
Smart phones remain the locomotive. MEMS content has increased in smart phones. The Accelero has migrated to feature phones. There will be limited opportunity in the gray handset market. Tablets are providing an additional market boost. There will likely be 275 million media tablets in 2015. The 'full PC tablets' in consumer laptops segment will also be impacted positively. Dangerous games -- they peaked in 2010, will be down in 2011-2012, and go up again in 2014.
New MEMS devices in 2011 include MEMS thermopiles in handsets (TI), MEMS joysticks (Knowles) and RF MEMS switch/varactors. There will be new opportunities in sport/reha. However, IHS iSuppli not too excited about motion sensors for remote controllers and MEMS speaker -- there will be no revenue by 2015.
Hottest of the hottest include motion sensors in handsets and tablets. There are likely to be a few more fat years' for consumer MEMS. The fat years include the period from 2010-2013, which translates into robust smart phones sales and skyrocketing media tablets shipment.
The automotive MEMS market will grow at 8.5 percent CAGR from $1.90 billion in 2010 to $2.86 billion in 2015. Safety applications dominate, often with mandates. Examples are: ESC with (MEMS gyro, accelerometer, pressure sensors), airbags (accelerometer, pressure, ultrasound), and TPMS mandate in US since 2007, EU from 2012 and now China (from 2015).
Japan caused 2.2 million production drop globally, in 2011. Car production forecast has also been revised down in for 2012. China is driving sensor sales, e.g., basic MAP to lower emissions. Combo sensors are accelerating price erosion (7-8 percent, instead of 4 percent). Newcomers are finally breaking into safety sensor markets. Some examples are SensorDynamics for gyro, MEMSIC accelerometer in airbag-based ESC systems from Autoliv. Also, ST and Epson are gunning for safety applications.
Finally, high value MEMS markets will grow at 12.3 percent CAGR from $1.5 billion in 2010 to $2.7 billion in 2015. Global trends are benefiting high value markets. For instance, energy and global warming is witnessing MEMS reducing energy consumption (in industrial processes, residential heating and billing systems, in transportation systems). Also, MEMS are finding energy (geophones for oil/gas exploration, measurement-while-drilling).
MEMS is also handling the aging population, obesity issues, etc. MEMS for less invasive monitoring of patients and elderly people.Also, it is more affordable and provides continuous diagnostics. MEMS increase efficiency and comfort of drug delivery.
The rise of China and other BRIC countries is another trend. China has already turned into a major consumer of MEMS for industry, infrastructures, aerospace and defense as well wired communications. Fiber deployments in China is, for example, boosted by new government stimulus and largely pulls the global optical MEMS market for telecom.
The market for MEMS has been growing, and is slated to grow at a CAGR of +10.5 percent from 2010-2015. Consumer and mobile MEMS market is slated to grow 22 percent CAGR from $1.5 billion in 2010 to $4.4 billion in 2015.Source: Source iSuppli MEMS Market Tracker – Q2 2011.
Smart phones remain the locomotive. MEMS content has increased in smart phones. The Accelero has migrated to feature phones. There will be limited opportunity in the gray handset market. Tablets are providing an additional market boost. There will likely be 275 million media tablets in 2015. The 'full PC tablets' in consumer laptops segment will also be impacted positively. Dangerous games -- they peaked in 2010, will be down in 2011-2012, and go up again in 2014.
New MEMS devices in 2011 include MEMS thermopiles in handsets (TI), MEMS joysticks (Knowles) and RF MEMS switch/varactors. There will be new opportunities in sport/reha. However, IHS iSuppli not too excited about motion sensors for remote controllers and MEMS speaker -- there will be no revenue by 2015.
Hottest of the hottest include motion sensors in handsets and tablets. There are likely to be a few more fat years' for consumer MEMS. The fat years include the period from 2010-2013, which translates into robust smart phones sales and skyrocketing media tablets shipment.
The automotive MEMS market will grow at 8.5 percent CAGR from $1.90 billion in 2010 to $2.86 billion in 2015. Safety applications dominate, often with mandates. Examples are: ESC with (MEMS gyro, accelerometer, pressure sensors), airbags (accelerometer, pressure, ultrasound), and TPMS mandate in US since 2007, EU from 2012 and now China (from 2015).
Japan caused 2.2 million production drop globally, in 2011. Car production forecast has also been revised down in for 2012. China is driving sensor sales, e.g., basic MAP to lower emissions. Combo sensors are accelerating price erosion (7-8 percent, instead of 4 percent). Newcomers are finally breaking into safety sensor markets. Some examples are SensorDynamics for gyro, MEMSIC accelerometer in airbag-based ESC systems from Autoliv. Also, ST and Epson are gunning for safety applications.
Finally, high value MEMS markets will grow at 12.3 percent CAGR from $1.5 billion in 2010 to $2.7 billion in 2015. Global trends are benefiting high value markets. For instance, energy and global warming is witnessing MEMS reducing energy consumption (in industrial processes, residential heating and billing systems, in transportation systems). Also, MEMS are finding energy (geophones for oil/gas exploration, measurement-while-drilling).
MEMS is also handling the aging population, obesity issues, etc. MEMS for less invasive monitoring of patients and elderly people.Also, it is more affordable and provides continuous diagnostics. MEMS increase efficiency and comfort of drug delivery.
The rise of China and other BRIC countries is another trend. China has already turned into a major consumer of MEMS for industry, infrastructures, aerospace and defense as well wired communications. Fiber deployments in China is, for example, boosted by new government stimulus and largely pulls the global optical MEMS market for telecom.
Saturday, November 12, 2011
NXP licenses Broadcom’s BroadR-Reach Ethernet technology for in-vehicle networking
NXP Semiconductors N.V. recently announced an engagement in automotive Ethernet as the first automotive semiconductor supplier to license Broadcom’s BroadR-Reach Ethernet technology for in-vehicle networking.
Speaking exclusively on the engagement, Lars Reger, VP automotive business & strategy and general manager integrated in-vehicle networking, NXP Semiconductors, said: "We are convinced that Ethernet will only be successful on a mass-market level if we manage to find one uniform standard in the automotive industry. Car manufacturers around the world are really pushing towards this. As no. 1 supplier of in-vehicle networking semiconductors, NXP can make a big impact and take a leading role to this end. NXP has taken the decision, as the first automotive semiconductors company, to license BroadR Reach.
"This technology uses single-pair, unshielded cable which makes high-bandwith networking very cost-efficient. We will use the licensed IP as a basis for developing the physical layer chips for Ethernet. For the development process, we can rely on our expertise in automotive electronics and our application know-how to meet the automotive quality requirements.
"Altogether, this license will save NXP an significant amount in R&D cost. At the same time, it will allow us to bring a full portfolio of Ethernet transceivers to the market in a much shorter time period. Ethernet will well complementary to other technology standards that NXP offers for in-vehicle networking, which are CAN, LIN, and FlexRay, as each one has its specific advantages. In short: it’s the next logical portfolio enhancement and we will be in the market early 2013 with first samples."
So, what does this arrangement set out to achieve? Reger said: "Ethernet will give a major boost to the connected car. With Ethernet, a networking technology will be available that is cost-efficient and yet powerful enough to cope with the huge amounts of data generated through modern infotainment systems, new camera-based driver assist systems like 360 degree cams, or traffic sign recognition.
"Ethernet technology, as it’s already well established in the consumer and business areas, will make it much easier to adapt existing technologies to automotive applications and to bring them into the car in much shorter development circles. NXP has a major interest to push this. As we combine in-vehicle networking with wireless technologies like broadcast reception, telematics, car-to-x, and car access technologies, we see a big market there for high performance mixed signal technologies – NXP’s focus area."
Given the high price of petrol in India, does NXP see a thriving market for automotives in future? Reger replied: "Reducing fuel consumption is definitely a main innovation driver in the automotive industry – and that’s not only true for India, but around the world. The effort to bring fuel consumption down concerns every single component in the car and is a number one priority for semiconductors suppliers. Let’s take in-vehicle networking as a good example.
"At a major international automotive conference held in Ludwigsburg, Germany, in June this year, Audi, BMW, Daimler, Porsche, and Volkswagen made a public announcement in favour of rapidly introducing a new technology called “partial networking”. Partial networking gives design engineers precision control over a vehicle’s bus communication network.
"By intelligently de-activating those Electronic Control Units (ECUs) that are currently not needed, engineers are able to significantly reduce vehicle fuel consumption and CO2 emissions without sacrificing performance or consumer experience. NXP has recently announced the world’s first ISO compliant solution for this purpose. It saves 3 percent CO2, which equals 0.11 litres fuel per 100km. It’s one out of many steps needed to improve the efficiency of vehicles.
"For sure there is further fuel saving potential like this. In the end, growth potential in the automotive industry will depend to a large extent on whether we manage to really make these potential savings a reality."
Speaking exclusively on the engagement, Lars Reger, VP automotive business & strategy and general manager integrated in-vehicle networking, NXP Semiconductors, said: "We are convinced that Ethernet will only be successful on a mass-market level if we manage to find one uniform standard in the automotive industry. Car manufacturers around the world are really pushing towards this. As no. 1 supplier of in-vehicle networking semiconductors, NXP can make a big impact and take a leading role to this end. NXP has taken the decision, as the first automotive semiconductors company, to license BroadR Reach.
"This technology uses single-pair, unshielded cable which makes high-bandwith networking very cost-efficient. We will use the licensed IP as a basis for developing the physical layer chips for Ethernet. For the development process, we can rely on our expertise in automotive electronics and our application know-how to meet the automotive quality requirements.
"Altogether, this license will save NXP an significant amount in R&D cost. At the same time, it will allow us to bring a full portfolio of Ethernet transceivers to the market in a much shorter time period. Ethernet will well complementary to other technology standards that NXP offers for in-vehicle networking, which are CAN, LIN, and FlexRay, as each one has its specific advantages. In short: it’s the next logical portfolio enhancement and we will be in the market early 2013 with first samples."
So, what does this arrangement set out to achieve? Reger said: "Ethernet will give a major boost to the connected car. With Ethernet, a networking technology will be available that is cost-efficient and yet powerful enough to cope with the huge amounts of data generated through modern infotainment systems, new camera-based driver assist systems like 360 degree cams, or traffic sign recognition.
"Ethernet technology, as it’s already well established in the consumer and business areas, will make it much easier to adapt existing technologies to automotive applications and to bring them into the car in much shorter development circles. NXP has a major interest to push this. As we combine in-vehicle networking with wireless technologies like broadcast reception, telematics, car-to-x, and car access technologies, we see a big market there for high performance mixed signal technologies – NXP’s focus area."
Given the high price of petrol in India, does NXP see a thriving market for automotives in future? Reger replied: "Reducing fuel consumption is definitely a main innovation driver in the automotive industry – and that’s not only true for India, but around the world. The effort to bring fuel consumption down concerns every single component in the car and is a number one priority for semiconductors suppliers. Let’s take in-vehicle networking as a good example.
"At a major international automotive conference held in Ludwigsburg, Germany, in June this year, Audi, BMW, Daimler, Porsche, and Volkswagen made a public announcement in favour of rapidly introducing a new technology called “partial networking”. Partial networking gives design engineers precision control over a vehicle’s bus communication network.
"By intelligently de-activating those Electronic Control Units (ECUs) that are currently not needed, engineers are able to significantly reduce vehicle fuel consumption and CO2 emissions without sacrificing performance or consumer experience. NXP has recently announced the world’s first ISO compliant solution for this purpose. It saves 3 percent CO2, which equals 0.11 litres fuel per 100km. It’s one out of many steps needed to improve the efficiency of vehicles.
"For sure there is further fuel saving potential like this. In the end, growth potential in the automotive industry will depend to a large extent on whether we manage to really make these potential savings a reality."
Friday, November 11, 2011
MEMS devices driving healthcare apps
Frédéric Breussin, Yole Developpement, an expert in Microfluidics for diagnostics and life sciences, recently presented on MEMS devices driving healthcare applications.
According to him, microsystem technologies are changing the healthcare industry. New in-vitro diagnostic systems, new therapy strategies, genetic disease treatment, targeted and intelligent drug delivery, artificial pancreas, drug discovery processes… are healthcare improvements promised to future generations.Source: Yole Developpement, France.
Microsystem devices, including MEMS devices, SI based sensors, Microfluidic chips and Bio sensors find many applications in healthcare markets:
* Pharmaceutical Research market ($870 billion worldwide 2010),
* In-vitro diagnostics ($57 billion worldwide 2010),
* Medical devices ($255 billion worldwide 2010), and
* Medical home care ($54 billion worldwide 2010).
Within these applications, the MEMS/microsystem technologies market for healthcare will grow from $1.4 billion in 2010 to $4.5 billion in 2015, which represents over 1 billion units per year in 2015.
The largest markets are microfluidic devices and bio-sensors for diagnostic and pharmaceutical applications. However, one should keep in mind that the unit price is relatively high, and that the microfluidic market is very segmented in terms of “biological” applications and players.
According to him, microsystem technologies are changing the healthcare industry. New in-vitro diagnostic systems, new therapy strategies, genetic disease treatment, targeted and intelligent drug delivery, artificial pancreas, drug discovery processes… are healthcare improvements promised to future generations.Source: Yole Developpement, France.
Microsystem devices, including MEMS devices, SI based sensors, Microfluidic chips and Bio sensors find many applications in healthcare markets:
* Pharmaceutical Research market ($870 billion worldwide 2010),
* In-vitro diagnostics ($57 billion worldwide 2010),
* Medical devices ($255 billion worldwide 2010), and
* Medical home care ($54 billion worldwide 2010).
Within these applications, the MEMS/microsystem technologies market for healthcare will grow from $1.4 billion in 2010 to $4.5 billion in 2015, which represents over 1 billion units per year in 2015.
The largest markets are microfluidic devices and bio-sensors for diagnostic and pharmaceutical applications. However, one should keep in mind that the unit price is relatively high, and that the microfluidic market is very segmented in terms of “biological” applications and players.
Wednesday, November 9, 2011
Solar PV industry recommended to stay optimistic; US govt. supports India's clean energy initiative!
Solarcon India 2011 started today in Hyderabad, with Jim Brown, president, Utility Systems Business Group, First Solar Inc., stating that the global solar PV industry is in a bit of the state of turmoil. Some are driven by pure supply-demand. He recommended the industry to be strategically optimistic. He cautioned that not everyone who's playing in this field, will go on to survive the next two to three years. First Solar reiterated its optimism regarding its own prospects in the industry.
Commending Solarcon as a flagship event for the Indian solar PV industry, Dr. Bharat Bhargava, director – Photovoltaics, Ministry of New & Renewable Energy, Government of India, said that the policies and programs started by the Indian government are now yielding results.The Jawaharlal Nehru-National Solar Mission has seen the participation of the industry, the academia and the funding agencies, showing that the success of the program lies in the hands of the people involved. When the Indian solar PV industry started, the country was said to have only 2MW. By the end of October this year, India had 125 MW. By 2013, it will likely reach 2GW, according to Dr. Bhargava.
He apprised the audience regarding the REC (renewable energy certificate) program. Initially, the REC was for three years, but was later extended to five years. As of now, experts are consulting to enable it to increase to seven years. He estimated that the Indian solar PV industry might even go up to 100GW, instead of 20GW, and encouraged everyone to work together and make this happen.
Francisco J. Sanchez, Under Secretary of Commerce for International Trade, USA, stated that a lot of excitement is in the air! “We are committed to India and its solar industry. There are opportunities to do big things in this industry.” He added that solar has achieved a triple bottom line.According to Sanchez, the solar industry is worth $17 billion in India and it is growing. India is spending $19 billion by 2022 to produce 20GW of solar energy. There will be a lot of engineers, manufacturers, etc., who can monitor and contribute to the growth of the industry. He advised that India will need to add 150GW of capacity over the next five years. Therefore, India is well placed to seize opportunities with trade partnerships.
He said: “The US government fully supports India’s clean energy initiative. There is an abundance of opportunities in solar. We can achieve much more in partnerships. We are committed to working with you. It is a huge opportunity for both countries.
“Some of the obstacles include repositioning for success, where companies indulge in unfair trade practices. When the market is open for competition, it creates thousands of jobs, and the market is growing quickly, helping many. It is all about chance and choice. We have a chance to build a great industry. We need to work together in partnership and share value. We will work together for the good of India and its consumers. We hope that India will take the same approach. India now has the chance to build an exciting industry for the future.”
Commending Solarcon as a flagship event for the Indian solar PV industry, Dr. Bharat Bhargava, director – Photovoltaics, Ministry of New & Renewable Energy, Government of India, said that the policies and programs started by the Indian government are now yielding results.The Jawaharlal Nehru-National Solar Mission has seen the participation of the industry, the academia and the funding agencies, showing that the success of the program lies in the hands of the people involved. When the Indian solar PV industry started, the country was said to have only 2MW. By the end of October this year, India had 125 MW. By 2013, it will likely reach 2GW, according to Dr. Bhargava.
He apprised the audience regarding the REC (renewable energy certificate) program. Initially, the REC was for three years, but was later extended to five years. As of now, experts are consulting to enable it to increase to seven years. He estimated that the Indian solar PV industry might even go up to 100GW, instead of 20GW, and encouraged everyone to work together and make this happen.
Francisco J. Sanchez, Under Secretary of Commerce for International Trade, USA, stated that a lot of excitement is in the air! “We are committed to India and its solar industry. There are opportunities to do big things in this industry.” He added that solar has achieved a triple bottom line.According to Sanchez, the solar industry is worth $17 billion in India and it is growing. India is spending $19 billion by 2022 to produce 20GW of solar energy. There will be a lot of engineers, manufacturers, etc., who can monitor and contribute to the growth of the industry. He advised that India will need to add 150GW of capacity over the next five years. Therefore, India is well placed to seize opportunities with trade partnerships.
He said: “The US government fully supports India’s clean energy initiative. There is an abundance of opportunities in solar. We can achieve much more in partnerships. We are committed to working with you. It is a huge opportunity for both countries.
“Some of the obstacles include repositioning for success, where companies indulge in unfair trade practices. When the market is open for competition, it creates thousands of jobs, and the market is growing quickly, helping many. It is all about chance and choice. We have a chance to build a great industry. We need to work together in partnership and share value. We will work together for the good of India and its consumers. We hope that India will take the same approach. India now has the chance to build an exciting industry for the future.”
Solarcon India 2011 begins with record exhibitors
Presenting the excerpts from the welcome address by Debasish Paul Choudhury, president, SEMI India, at the ongoing Solarcon India 2011, being held in Hyderabad.
This year’s show features a larger exhibition, a three-day dual track conference, and will feature three concurrent technical programs. The theme for this year’s exposition, representing the widening solar value chain in India, is “Showcasing the Solar Eco‐System: From Polysilicon to Power Plants.”The exhibition with over 115 exhibitors from eight countries, compared to 81 exhibitors in SOLARCON India 2010, covers the entire solar value chain, will provide you an opportunity to see a wide range of new products and services offered by Indian and international companies, under one roof.
This year’s show, as many of you are aware, is certified by the US Department of Commerce (US DOC), and features an exclusive US Pavilion with 14 leading US companies participating in the exhibition. I am also delighted to welcome a 35-member Clean Tech Delegation led by the United States of America’s Under Secretary of Commerce for International Trade, Francisco J. Sanchez to the show.
I am delighted to have in our midst two other distinguished guests – Dr. Bharat Bhargava, director – Photovoltaics, Ministry of New & Renewable Energy, Government of India, who is widely credited to be the architect of the India’s National Solar Mission. In the same vein, I am happy to welcome Jim Brown, president, Utility Systems Business Group, First Solar Inc., the world’s largest thin film module manufacturer, with us this morning.
Featuring more than 70 speakers drawn from the industry, academia and government, the conference is themed "Charting India's Roadmap to Solar Leadership — Translating Potential into Reality." The conference attracts high-profile participation of solar energy leaders from all segments of the industry supply chain, academia and governments from India and around the world.
The three-day conference also includes an LED Lighting summit, co-organized with Frost & Sullivan, which will focus on SSL (solid state lighting) technology with speakers from among LED manufacturers, LED suppliers, researchers and others.
The climate in which we are holding the show this year has not been without its challenges – on two fronts: the events in Hyderabad on the one hand (which have now, we are grateful to all parties involved, returned to complete normalcy) and the considerable stress that the solar industry is under due the slowdown in the European economies, regulatory changes in the major solar markets and manufacturing over capacity resulting in a fall in PV system prices over the last two to three quarters. This show and the support it has received are proof that the long term prospects for the solar industry remain most bright in India.
This year’s show features a larger exhibition, a three-day dual track conference, and will feature three concurrent technical programs. The theme for this year’s exposition, representing the widening solar value chain in India, is “Showcasing the Solar Eco‐System: From Polysilicon to Power Plants.”The exhibition with over 115 exhibitors from eight countries, compared to 81 exhibitors in SOLARCON India 2010, covers the entire solar value chain, will provide you an opportunity to see a wide range of new products and services offered by Indian and international companies, under one roof.
This year’s show, as many of you are aware, is certified by the US Department of Commerce (US DOC), and features an exclusive US Pavilion with 14 leading US companies participating in the exhibition. I am also delighted to welcome a 35-member Clean Tech Delegation led by the United States of America’s Under Secretary of Commerce for International Trade, Francisco J. Sanchez to the show.
I am delighted to have in our midst two other distinguished guests – Dr. Bharat Bhargava, director – Photovoltaics, Ministry of New & Renewable Energy, Government of India, who is widely credited to be the architect of the India’s National Solar Mission. In the same vein, I am happy to welcome Jim Brown, president, Utility Systems Business Group, First Solar Inc., the world’s largest thin film module manufacturer, with us this morning.
Featuring more than 70 speakers drawn from the industry, academia and government, the conference is themed "Charting India's Roadmap to Solar Leadership — Translating Potential into Reality." The conference attracts high-profile participation of solar energy leaders from all segments of the industry supply chain, academia and governments from India and around the world.
The three-day conference also includes an LED Lighting summit, co-organized with Frost & Sullivan, which will focus on SSL (solid state lighting) technology with speakers from among LED manufacturers, LED suppliers, researchers and others.
The climate in which we are holding the show this year has not been without its challenges – on two fronts: the events in Hyderabad on the one hand (which have now, we are grateful to all parties involved, returned to complete normalcy) and the considerable stress that the solar industry is under due the slowdown in the European economies, regulatory changes in the major solar markets and manufacturing over capacity resulting in a fall in PV system prices over the last two to three quarters. This show and the support it has received are proof that the long term prospects for the solar industry remain most bright in India.
Tuesday, November 8, 2011
NASSCOM announces top 10 start-ups to watch!
On the eve of the NASSCOM Product Conclave 2011, to be held in Bangalore, on Nov. 9-10, 2011, NASSCOM (National Association of Software and Services Companies) announced the list of the top 10 start-ups to watch.
These top 10 start-ups are:
1. Pawaa Software -- Pawaa
2. QuickoLabs -- SearchEnabler
3. Persistent Systems Ltd -- eMee
4. Imaginate -- Imaginate
5. Srijan Technologies Pvt Ltd -- DROWPS
6. Conwerge Web Services Pvt Ltd -- Grupur.com
7. Semgel Technologies Pvt Ltd -- Semgel
8. Openweb Labs Pvt Ltd -- HirePlug, Getlive.me
9. Ozonetel Systems Pvt Ltd -- KooKoo
10. NRich Software Pvt Ltd -- DiaSof.
These top 10 start-ups are:
1. Pawaa Software -- Pawaa
2. QuickoLabs -- SearchEnabler
3. Persistent Systems Ltd -- eMee
4. Imaginate -- Imaginate
5. Srijan Technologies Pvt Ltd -- DROWPS
6. Conwerge Web Services Pvt Ltd -- Grupur.com
7. Semgel Technologies Pvt Ltd -- Semgel
8. Openweb Labs Pvt Ltd -- HirePlug, Getlive.me
9. Ozonetel Systems Pvt Ltd -- KooKoo
10. NRich Software Pvt Ltd -- DiaSof.
Sunday, November 6, 2011
Updated global semicon sales forecast 2011's estimate falls $2.74 billion
This is a continuation of my coverage of the fortunes of the global semiconductor industry. I would like to acknowledge and thank Mike Cowan, an independent semiconductor analyst and developer of the Cowan LRA model, who has provided me the latest numbers.
On Wednesday, Nov. 2nd, 2011, the WSTS posted its Sept. 2011's HBR (Historical Billings Report) on its website thereby facilitating the calculation of the monthly update for the latest global semi sales forecast estimates for 2011 and 2012 via exercising the Cowan LRA forecasting model.
These latest forecast results reflect September 2011's actual monthly sales and include revisions to previous months' reported sales numbers. According to the WSTS's September HBR, September's actual global semiconductor sales came in at $29.442 billion with a corresponding September 3MMA sales of $25.764 billion.
It should be highlighted that two of the previous eight months (January through August), namely July and August, experienced very minor sales revisions from last month's published HBR.
Thus, the YTD cumulative global semiconductor sales through September totaled $227.852 billion. This represents a 2011 YTD sales growth of 2.2 percent compared to the same time period in 2010 when September 2010's YTD sales were $222.853 billion. This continues a downward trend in the month-to-month 2011 YTD sales growth numbers from the beginning of the year as shown in the table here.Source: Cowan LRA model, USA.
The Cowan LRA model's sales forecast estimates for the month of September as determined by last month's model run were $31.528 billion (actual) and $26.413 billion (3MMA), respectively. Consequently, the model's September sales MI (Momentum Indicator) came in at minus 6.2 percent, which marginally improved from last month's sales MI of minus 7.5 percent.
This indicates (mathematically speaking) that the semiconductor industry's September's actual sales came in $1.959 billion lower than the model's previous month's forecasted expectation. This suggests that 2011's sales growth could continue to trend downward for the remainder of this year relative to this month's 2011 sales growth expectation of 3 percent as discussed below.
On Wednesday, Nov. 2nd, 2011, the WSTS posted its Sept. 2011's HBR (Historical Billings Report) on its website thereby facilitating the calculation of the monthly update for the latest global semi sales forecast estimates for 2011 and 2012 via exercising the Cowan LRA forecasting model.
These latest forecast results reflect September 2011's actual monthly sales and include revisions to previous months' reported sales numbers. According to the WSTS's September HBR, September's actual global semiconductor sales came in at $29.442 billion with a corresponding September 3MMA sales of $25.764 billion.
It should be highlighted that two of the previous eight months (January through August), namely July and August, experienced very minor sales revisions from last month's published HBR.
Thus, the YTD cumulative global semiconductor sales through September totaled $227.852 billion. This represents a 2011 YTD sales growth of 2.2 percent compared to the same time period in 2010 when September 2010's YTD sales were $222.853 billion. This continues a downward trend in the month-to-month 2011 YTD sales growth numbers from the beginning of the year as shown in the table here.Source: Cowan LRA model, USA.
The Cowan LRA model's sales forecast estimates for the month of September as determined by last month's model run were $31.528 billion (actual) and $26.413 billion (3MMA), respectively. Consequently, the model's September sales MI (Momentum Indicator) came in at minus 6.2 percent, which marginally improved from last month's sales MI of minus 7.5 percent.
This indicates (mathematically speaking) that the semiconductor industry's September's actual sales came in $1.959 billion lower than the model's previous month's forecasted expectation. This suggests that 2011's sales growth could continue to trend downward for the remainder of this year relative to this month's 2011 sales growth expectation of 3 percent as discussed below.
Thursday, November 3, 2011
Microsoft launches developer program for Windows Phone
Microsoft has launched a program for developers where they can build applications (apps) for mobile and win a Windows Phone. It also showcased some of the latest Windows Phones from leading handset vendors.
Microsoft calls the Windows Phone as People vs. Icons -- it puts people first. The mobile phone itself has a load of features, such as People Hub, Groups, Threads, Better email, Calendar, Bing Vision, IE9 and Pictures Hub. There's more, in form of XBOX Live, Multitasking, Music + Videos, Custom Ringtones, Office 365, Live Tiles, Voice to text, My Windows Phone, SharePoint, Local Scout, Remote Wipe.
According to Harish Vaidyanathan, Microsoft, the company has moved up from zero (0) to 30,000 apps in just 12 months.
Microsoft also highlighted 'i Unlock Joy' for students. The Windows Phone is designed to put people in the center – making it easier for them to connect and share with friends, family and colleagues, so they never miss a moment. Here’s your chance to unlock your creativity -- build apps for the latest Windows Phone, and win the latest mobile phone.
Microsoft has unveiled a program for developers and students where they can participate and build apps, and win a Windows Phone. For students, the program runs till December 31, 2011, while it runs till March 31, 2012 for developers.
Windows Phone will present your apps to people in smarter and easier ways. The new Metro UI design helps developers create breathtaking apps and makes them easier to discover and use. “I Unlock Joy” program is definitely your chance to become the users’ favourite and get a brand new Windows Phone.
Developers can download the complete set of developer tools to build Windows Phone apps. They can choose the tools and technology for app development. They can also become a member of the Windows Phone Marketplace with an annual membership fee of $99 and get access to the App Hub and certification process.
Developers can submit an unlimited number of certified paid apps and up to 100 free apps as registered App Hub member.
In case you are a woman developer, you have a chance to win a Windows Phone by developing just 1 app (for first 100 female participants). Women are required to submit their apps on the Marketplace by March 31, 2012.
To participate, be aware that you are a technology professional – software developer, project manager or software architect – working and residing in India. You are not an employee, intern, agent or a relative of an employee of Microsoft Corp. (India) or Microsoft Corp. or any of their affiliates; You are not involved in any part of the execution or administration of this program.
You can participate in the program by:
* Submitting three (3) new Windows Phone Apps that get published at the Windows Phone Marketplace by March 31, 2012;
* Submitting two (2) new Windows Phone Apps that you have ported from existing Android and/or iPhone apps, which get published at the Marketplace by March 31, 2012; and
* If you are a woman developer, submitting one (1) new Windows Phone App based on Entertainment, Fashion, Leisure, Gaming, Recreation or Travel Themes, which gets published at the Marketplace by March 31, 2012.
So, fill up the Registration Form posted on Microsoft's website with all the required information. You need to register on the App Hub with a $99 annual membership fee, which entitles you to publish and manage apps at Windows Phone Marketplace. Your app should get certified on App Hub and published at Windows Phone Marketplace on or before March 31, 2012.
To participate, developers need to go through the application submission checklist.
PS: I shall refrain from commenting on the Windows Phone, for now! ;)
Microsoft calls the Windows Phone as People vs. Icons -- it puts people first. The mobile phone itself has a load of features, such as People Hub, Groups, Threads, Better email, Calendar, Bing Vision, IE9 and Pictures Hub. There's more, in form of XBOX Live, Multitasking, Music + Videos, Custom Ringtones, Office 365, Live Tiles, Voice to text, My Windows Phone, SharePoint, Local Scout, Remote Wipe.
According to Harish Vaidyanathan, Microsoft, the company has moved up from zero (0) to 30,000 apps in just 12 months.
Microsoft also highlighted 'i Unlock Joy' for students. The Windows Phone is designed to put people in the center – making it easier for them to connect and share with friends, family and colleagues, so they never miss a moment. Here’s your chance to unlock your creativity -- build apps for the latest Windows Phone, and win the latest mobile phone.
Microsoft has unveiled a program for developers and students where they can participate and build apps, and win a Windows Phone. For students, the program runs till December 31, 2011, while it runs till March 31, 2012 for developers.
Windows Phone will present your apps to people in smarter and easier ways. The new Metro UI design helps developers create breathtaking apps and makes them easier to discover and use. “I Unlock Joy” program is definitely your chance to become the users’ favourite and get a brand new Windows Phone.
Developers can download the complete set of developer tools to build Windows Phone apps. They can choose the tools and technology for app development. They can also become a member of the Windows Phone Marketplace with an annual membership fee of $99 and get access to the App Hub and certification process.
Developers can submit an unlimited number of certified paid apps and up to 100 free apps as registered App Hub member.
In case you are a woman developer, you have a chance to win a Windows Phone by developing just 1 app (for first 100 female participants). Women are required to submit their apps on the Marketplace by March 31, 2012.
To participate, be aware that you are a technology professional – software developer, project manager or software architect – working and residing in India. You are not an employee, intern, agent or a relative of an employee of Microsoft Corp. (India) or Microsoft Corp. or any of their affiliates; You are not involved in any part of the execution or administration of this program.
You can participate in the program by:
* Submitting three (3) new Windows Phone Apps that get published at the Windows Phone Marketplace by March 31, 2012;
* Submitting two (2) new Windows Phone Apps that you have ported from existing Android and/or iPhone apps, which get published at the Marketplace by March 31, 2012; and
* If you are a woman developer, submitting one (1) new Windows Phone App based on Entertainment, Fashion, Leisure, Gaming, Recreation or Travel Themes, which gets published at the Marketplace by March 31, 2012.
So, fill up the Registration Form posted on Microsoft's website with all the required information. You need to register on the App Hub with a $99 annual membership fee, which entitles you to publish and manage apps at Windows Phone Marketplace. Your app should get certified on App Hub and published at Windows Phone Marketplace on or before March 31, 2012.
To participate, developers need to go through the application submission checklist.
PS: I shall refrain from commenting on the Windows Phone, for now! ;)
Tuesday, November 1, 2011
PV inverter -- innovations and market trends
France's Yole Développement, recently organized a seminar on PV inverter - technical innovations and market trends. The speakers were Brice Legouic, Power Electronics Market & Technology Analyst, Yole and Paul Kleistead, Cree.
What are the trends for 2011-12? According to Legouic, one, a first step of standardization should take place at the added functionalities level. This includes MPP positioning with advanced solutions, monitoring, and anti-theft and protection. Two, players with a higher level of product quality will enter the EU market. These include Japanese players focusing on efficiency and reliability, but with more expensive inverters.
Yole also anticipates a double speed business to take place. If the residential segment is opened to Chinese manufacturers and industrial/solar farms are dedicated to high-end products, the PV inverter market would become two different markets.
Speaking about market trends, he said that trends will be driven by reduction of feed-in tariff, which hurries the end users to sign contracts. Over 2 million are likely to be sold in 2012. The total market in 2010 was slightly below €3.3 billion, and will overpass €3.5 billion by 2012.
Over 75 percent of the market is owned by the top 10 PV inverter players. Five of these are German, eight are European, and two are American. Eighty percent of EU inverters are made in Europe and 20 percent are made in the USA. Asian players will likely increase their supply for the EU market. Japanese players currently have very small implantation in the EU. However, Yole believes that their market share would reach 15 percent within the next three years.
On technological trends, Legouic touched upon the neutral-point-clamped (NPC) architecture. The NPC architecture uses diode to clamp the DC bus voltage in two equal voltages. The benefits are:
* allowing the use of lower 600V devices instead of 1200V,
* reducing dynamic losses, and
* SJ MOS can be used for outer switches for their higher frequency performances.
The NPC architecture is nearly always used for 10-50kW inverters.
Using the SiC free-wheeling diode can increase efficiency from up to 2 percent. More and more are used for low- to medium-power range. Benefits include much better recovery time and reduction in IGBT switching losses.
On the DC/DC stage component chart, he added that according to STMicroelectronics, we can assume that when the maximum input voltage of an inverter is below 650V, the DC/DC stage is MOSFET-based. Over 650V, the inverter can be considered to be built with a 1200V IGBT.
As for implementation of new technologies, such as SiC vs. GaN, 900-1200V will be the targeted range for over 10kW inverters. SiC diodes are already implemented in residential and commercial inverters.
In 2012, silicon will represent more than 90 percent of the modules market, and about 75 percent of the wafer market. SiC will be mostly driven by diodes. Components will be at an early stage of adoption.
Brice Legouic concluded that micro-inverters are also a place for technical innovation. Enphase is a global leader with about 30 percent market share in the US residential segment. The conversion architecture is totally different from standard inverters. The SiC diodes are implemented and represent a huge market for device makers as micro-inverter quantities are important.
Other expected products have shown significant improvements in the integration of the same silicon chip of several functions, such as command and driver IC, power conversion and RF components for communications in a PV plant.
What are the trends for 2011-12? According to Legouic, one, a first step of standardization should take place at the added functionalities level. This includes MPP positioning with advanced solutions, monitoring, and anti-theft and protection. Two, players with a higher level of product quality will enter the EU market. These include Japanese players focusing on efficiency and reliability, but with more expensive inverters.
Yole also anticipates a double speed business to take place. If the residential segment is opened to Chinese manufacturers and industrial/solar farms are dedicated to high-end products, the PV inverter market would become two different markets.
Speaking about market trends, he said that trends will be driven by reduction of feed-in tariff, which hurries the end users to sign contracts. Over 2 million are likely to be sold in 2012. The total market in 2010 was slightly below €3.3 billion, and will overpass €3.5 billion by 2012.
Over 75 percent of the market is owned by the top 10 PV inverter players. Five of these are German, eight are European, and two are American. Eighty percent of EU inverters are made in Europe and 20 percent are made in the USA. Asian players will likely increase their supply for the EU market. Japanese players currently have very small implantation in the EU. However, Yole believes that their market share would reach 15 percent within the next three years.
On technological trends, Legouic touched upon the neutral-point-clamped (NPC) architecture. The NPC architecture uses diode to clamp the DC bus voltage in two equal voltages. The benefits are:
* allowing the use of lower 600V devices instead of 1200V,
* reducing dynamic losses, and
* SJ MOS can be used for outer switches for their higher frequency performances.
The NPC architecture is nearly always used for 10-50kW inverters.
Using the SiC free-wheeling diode can increase efficiency from up to 2 percent. More and more are used for low- to medium-power range. Benefits include much better recovery time and reduction in IGBT switching losses.
On the DC/DC stage component chart, he added that according to STMicroelectronics, we can assume that when the maximum input voltage of an inverter is below 650V, the DC/DC stage is MOSFET-based. Over 650V, the inverter can be considered to be built with a 1200V IGBT.
As for implementation of new technologies, such as SiC vs. GaN, 900-1200V will be the targeted range for over 10kW inverters. SiC diodes are already implemented in residential and commercial inverters.
In 2012, silicon will represent more than 90 percent of the modules market, and about 75 percent of the wafer market. SiC will be mostly driven by diodes. Components will be at an early stage of adoption.
Brice Legouic concluded that micro-inverters are also a place for technical innovation. Enphase is a global leader with about 30 percent market share in the US residential segment. The conversion architecture is totally different from standard inverters. The SiC diodes are implemented and represent a huge market for device makers as micro-inverter quantities are important.
Other expected products have shown significant improvements in the integration of the same silicon chip of several functions, such as command and driver IC, power conversion and RF components for communications in a PV plant.
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