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Can Qualcomm Move Forward?
Qualcomm has posted its smallest quarterly revenue increase since 2010, which saw its share price plummeting five percent in after hours trading.
Qualcomm reported its second quarter earnings on Wednesday for the three months to 30 March, and its revenue rose to $6.37bn during the period, up four percent from a year ago, with net profit up five percent to $1.97bn.
However, that was the smallest year over year percentage increase since the June quarter of 2010, when revenue declined by two percent, and was far lower than the quarterly growth rates of over 20 percent that Qualcomm investors have seen previously.
“We delivered another solid quarter, driven by demand for our leading multimode 3G/LTE chipset solutions and record licensing revenues,” said Qualcomm CEO Steve Mollenkopf in the earnings report, not mentioning that earnings reflected a much lower increase than seen in recent quarters.
“Looking forward, we are pleased to be raising our earnings per share guidance for the fiscal year. We continue to see increasing demand for our industry-leading chipsets and strong growth in calendar year 2014 of 3G/4G smartphones around the world.”
Qualcomm also forecast sales of between $6.2bn and $6.8bn for the April to June quarter, with the low end of that estimate representing a decline of one percent from a year ago.
It’s probable that while growing smartphone penetration in emerging markets is helping to keep the firm’s unit sales high, it’s also having an negative effect on Qualcomm’s average selling price (ASP) levels of mobile chipsets and devices.
Following Qualcomm’s earnings report, analysts said that the dip in revenue was attributable to a decline in sales in China as the country’s biggest network, China Mobile, prepares to launch a faster network with 4G, or LTE, technology, and customers are anticipating the launch before buying new smartphones.
Qualcomm now expects to make a profit of between $5 and $5.25 per share, five cents above its earlier projection, the firm said.
nVidia Goes For Raspberry Pi
nVidia has unveiled what it claims is “the world’s first mobile supercomputer”, a development kit powered by a Tegra K1 chip.
Dubbed the Jetson TK1, the kit is built for embedded systems to aid the development of computers attempting to simulate human recognition of physical objects, such as robots and self-driving cars.
Speaking at the GPU Technology Conference (GTC) on Tuesday, Nvidia co-founder and CEO Jen Hsun Huang described it as “the world’s tiniest little supercomputer”, noting that it’s capable of running anything the Geforce GTX Titan Z graphics card can run, but at a slower pace.
With a total performance of 326 GFLOPS, the Jetson TK1 should be more powerful than the Raspberry Pi board, which delivers just 24 GFLOPS, but will retail for much more, costing $192 in the US – a number that matches the number of cores in the Tegra K1 processor that Nvidia launched at CES in Las Vegas in January.
Described by the company as a “super chip” that can bridge the gap between mobile computing and supercomputing, the Nvidia Tegra K1, which replaces the Tegra 4, is based on the firm’s Kepler GPU architecture.
The firm boasted at CES that the chip will be capable of bringing next-generation PC gaming to mobile devices, and Nvidia claimed that it will be able to match the PS4 and Xbox One consoles’ graphics performance.
Designed from the ground up for CUDA, which now has more than 100,000 developers, the Jetson TK1 Developer Kit includes the programming tools required by software developers to develop and deploy compute-intensive systems quickly, Nvidia claimed.
“The Jetson TK1 also comes with this new SDK called Vision Works. Stacked onto CUDA, it comes with a whole bunch of primitives whether it’s recognising corners or detecting edges, or it could be classifying objects. Parameters are loaded into this Vision Works primitives system and all of a sudden it recognises objects,” Huang said.
“On top of it, there’s simple pipe lines we’ve created for you in sample code so that it helps you get started on what a structure for motion algorithm, object detection, object tracking algorithms would look like and on top of that you could develop your own application.”
Nvidia also expects the Jetson TK1 to be able to operate in the sub-10 Watt market for applications that previously consumed 100 Watts or more.
Do Chip Makers Have Cold Feet?
It is starting to look like chip makers are having cold feet about moving to the next technology for chipmaking. Fabricating chips on larger silicon wafers is the latest cycle in a transition, but according to the Wall Street Journal chipmakers are mothballing their plans.
Companies have to make massive upfront outlays for plants and equipment and they are refusing, because the latest change could boost the cost of a single high-volume factory to as much as $10 billion from around $4 billion. Some companies have been reining in their investments, raising fears the equipment needed to produce the new chips might be delayed for a year or more.
ASML, a maker of key machines used to define features on chips, recently said it had “paused” development of gear designed to work with the larger wafers. Intel said it has slowed some payments to the Netherlands-based company under a deal to help develop the technology.
Gary Dickerson, chief executive of Applied Materials said that the move to larger wafers “has definitely been pushed out from a timing standpoint”
Will Google Use Intel Inside?
March 21, 2014 by admin
Filed under Around The Net
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It seems that Intel has elbowed its way under the bonnet of the high profile Nexus 8 tablet. Word on the street is that the Moorefield chip which is said to make a top speed of around 2.33 GHz, when the wind is behind it, has kicked Qualcomm’s tried and tested Snapdragon chip out of the Nexus range.
The move would give the Nexus 8, some good GPU power thanks to the PowerVR G6430 graphic engine. Google may unveil the actual tablet during the Google I/O event as well as the next big upgrade to the Android software dubbed lollipop. Still it is starting to look like Intel may really become a force to be reckoned with in mobile after all.
However, we should point out that Nexus 8 CPU rumors are nothing new. There was talk of Intel, Qualcomm and even Nvidia over the past couple of months – but we are still not entirely certain what’s under the bonnet.
Did Intel Have an IPad In Y2K?
Intel apparently built an IPAD ten years before Steve Jobs though of the tablet and the name. It was in the days when sticking an I in front of anything meant it was Intel rather than Apple and the Intel Pad, or IPAD for short, could browse the Internet, play music and videos, and even act as a digital picture frame.
Intel scrapped the IPAD before consumers could get their hands on it as its move into Tablets was seen as one of the outfit’s biggest blunders. According to CNET in the late 1990s and early 2000s, Intel wanted to diversify its operations beyond the PC. The IPAD came from one of several small teams within its research arm tasked with exploring new business opportunities. The IPAD, which included a touch screen and stylus, would not run entirely on its own but connected to a computer to browse the Internet through an Intel wireless technology.
Intel thought that “mobility” meant moving around your home or business and the IPAD was to be a portable device you could take around your house. The reason that they never thought of connecting it to the phone network was because Intel wanted to tie it all back to its core PC chip business. After several years of development on the Intel Web Tablet, then-CEO Craig Barrett unveiled the device at the Consumer Electronics Show in January 2001. The company planned to sell the tablet to consumers later that year.
Sadly though it miffed Intel’s PC partners, which didn’t want a product that could potentially compete with them and Intel caved in and cancelled the project.
Intel’s Cherry Trail Forthcoming
The next generation desktop and mobile Atom is Cherry Trail in 14nm and the first parts are expected in late 2014. Intel has been working hard to accelerate the introduction of Atom parts based on the new architecture and in 2014 it will finally ship Broadwell notebook chips and Cherry Trail Atoms in the same year, both using the new 14nm node.
The Cherry View is a notebook SoC version of a chip based on new Airmont core, while Cherry Trail is the part meant for tablets. The phone version is based on Moorefield architecture and they are all expected to show up in late 2014, most likely very late Q3 2014.
The TDP should go down compared to Bay Trail platform as the new 14nm needs less voltage to hit the same speed and should produce less heat at the same time. With the 14nm shrink Intel’s new Atoms will be able to get more fanless design wins.
The significance of 14nm products for mobile phones and tablets will be in the fact that ARM alliance lead by Qualcomm, Samsung, MediaTek and a few other players will be struggling to get 20nm designs out of the door in 2014, and Intel can already get to a 14nm.
However, Intel still has to integrate LTE inside its mobile phone SoCs, which has traditionally been proven to be a tough task. At this time only Qualcomm has on-die LTE and its LTE enabled SoCs are under the bonnet of almost every significant ARM based high-end phone out there.
Only time will tell how successful Intel’s mobile push will be. Even with these 14nm parts, once they show up roughly a year from now, it might be really tough for Intel to get some high-volume design wins in the phone space, despite the transition to 14nm.
Will Intel’s Tablet Gamble Work?
Earlier this year Intel caused quite a stir when CEO Brian Krzanich announced the company’s ultimate goal is to make $99 tablets a reality. So far Intel has failed to gain much market share in the tablet space, dominated by cheaper ARM application processors and Android.
However, Bay Trail-T has a good chance to turn things around. The new chip can easily take on high-end ARM parts and in most cases, wipe the floor with them. Since it’s an x86 part, it can also be used in Windows 8.1 tablets. However, the price was a problem. Intel’s official Bay Trail-T prices range from $32 to $37, making the chips significantly more expensive than mid-range and low-end ARM parts. However, many vendors are said to be getting discounts and paying a bit less, in the $20 to $30 range.
Things may be about to change. According to Digitimes, Intel is planning to spend up to $1 billion on tablet chip subsides. The cash should sweeten the deal for vendors willing to give Intel SoCs a go. Since we are talking about relatively low average selling prices, Intel could use the cash to practically halve the prices and offer Bay Trail-T parts for as little as $10. This would make them competitive overnight, as high-end ARM SoCs like the Exynos 5 and Tegra 4 are estimated to cost well over $20.
Intel has a long tradition of overspending on marketing. A few years ago it showed Ultrabook vendors with $300 million worth of market development funding and it has a huge Core marketing program. Intel recently announced that it would start treating Atom and Core equally, hence the move would make sense. Since Core lifecycles are getting longer, Intel could simply shift some of the funding to Atom products, namely tablet parts like Bay Trail-T.
The only problem? Well the report comes from Digitimes and the site’s hit and miss track record has been on the “miss” side lately, so take it with a grain of salt.
Is Intel Expanding?
Even if it means that it will be the first to make ARM’s 64-bit chips, Intel said that it wants to expand its contract foundry work. Intel CEO Brian Krzanich said he would expand his company’s small contract manufacturing business, paving the way for more chipmakers to tap into the world’s most advanced process technology.
Krzanich told analysts that he planned to step up the company’s foundry work, effectively giving Intel’s process technology to its rivals. He said that company’s who can use Intel’s leading edge and build computing capabilities that are better than anyone else’s, are good candidates for foundry service. Krzanich added that the slumping personal computer industry, Intel’s core market, was showing signs of bottoming out.
Intel also unveiled two upcoming mobile chips from its Atom line designed interchange features to create different versions of the component. A high-end version of the new chip, code named Broxton, and is due out in mid-2015. SoFIA, a low-end chip was shown as an example of Intel’s pragmatism and willingness to change how it does business. Krzanich said that in the interest of speed, SoFIA would be manufactured outside of Intel, with the goal of bringing it to market next year.
Intel will move production of SoFIA chips to its own 14 nanometer manufacturing lines, Krzanich added.
Intel Buys KNO Software
Intel has acquired educational software developer Kno to add to its Education division.
Speaking in the company blog, Intel Sales and Marketing Group VP John Galvin explained that in a world where kids are being bombarded by technology, Intel Education has a mission to support the rollout of technology in the classroom.
Galvin said, “The Kno platform provides administrators and teachers with the tools they need to easily assign, manage and monitor their digital learning content and assessments.”
This acquisition brings Intel’s global digital content library to over 225,000 [higher education] and K-12 titles from 74 education publishers. “We’re looking forward to combining our expertise with Kno’s rich content so that together, we can help teachers create classroom environments and personalized learning experiences that lead to student success,” Galvin added.
Intel Education has been working for the past decade with over 10 million teachers that it has assisted to integrate technology with education.
In the UK alone there have been tremendous strides in educational software over the past 30 years, dating back to the government pledge to provide a computer in every school, which led to the creation of the BBC Microcomputer designed specifically for that purpose.
Today, not only is ICT a dedicated lesson in its own right, but it forms one of the key skills that educators are expected to incorporate into all lesson plans, putting it on a par with English and Maths, showing just how far we’ve come from making Venn diagrams with ascii art.
Intel’s Bay Trail M Is On The Way
Intel launched its Bay Trail-M ultra low voltage processors for netbooks and mobile devices over the weekend. According to CPU World the new mobile CPUs, branded this time as Celeron and Pentium, can manage twice the CPU performance, and up to three times faster graphics.
They do all that while using the same amount of juice as their “Cedar Trail” predecessors. Most chips have higher clock speeds than N2805, N2810 and N2910 SKUs and come with Burst Performance technology. They can operate at a higher maximum operating temperature which makes them easier to cool. Finally, in addition to 4 N28xx/N29xx Celerons Intel also released Pentium N2920.
Then there are new dual-core Bay Trail-M microprocessors like the Celeron N2806, N2815 and N2820 which can operate at frequencies from 1.6 GHz to 2.13 GHz, when going downhill had the wind is behind them. They also have the maximum burst speed ranging from 2 GHz to 2.39 GHz. The processors come with 1 MB L2 cache, Ivy Bridge graphics clocked at 311 MHz and up to 756 MHz, and support for DDR3L-1066 memory. The N2806 has 4.5 Watt TDP while the N2815 and N2820 have 7.5 Watt TDP. All of the Celeron N28xx processors are priced at $132.
Two new quad-core microprocessors are Celeron N2920 and Pentium N3520. The CPUs have 2 MB L2 cache, and run at 1.86 GHz and 2.17 GHz respectively, with burst frequencies reaching 2 GHz and 2.42 GHz. Both parts integrate Ivy Bridge graphics, that can be clocked as high as 854 MHz. The Celeron can deal with DDR3L-1066 memory, and the Pentium supports 1333 MHz memory data rate. They fit into 7.5 Watt power envelope. The official prices of Celeron N2920 and Pentium N3520 are $132 and $180.