Showing posts with label Netbooks. Show all posts
Showing posts with label Netbooks. Show all posts
As you may have noticed, the state of computers and computer design is suddenly moving at a rapid clip, largely driven by the release of Windows 8, the move toward ever-thinner and lighter designs (read ultrabooks), and efforts to bring touch into the equation through a variety of tablets, convertibles, and all-in-ones. It's truly great to see the hardware industry innovating again, after a noticeable lull in anticipation of this new operating system.
Since every Windows release tends bring with it new hardware requirements, optimizations, and design demands across the board, it ultimately has a positive impact on non-Windows operating systems, like Ubuntu and ubermix, as these new designs become excellent targets to develop against. Best of all, the increased competition generates ever-better hardware and downward price pressure, to the benefit of ubermix deployments around the globe.
So what's coming next in the low-cost device space? Let's have a look at our crystal ball and see:
10 inch screens in a low-end clamshell will be gone, but will rise in tablets
While I personally believe that 10 inches is an ideal size for a low-cost device, 10 inch screens look to be going the way of the dodo in the laptop form factor, due to Windows 8's requirement for 768 pixels in screen height (inexpensive screens are typically 1024x600). I've personally spoken with executives from both Acer and Asus and in both cases they said that they will only be offering 11.6 inch screens next year, but that they expect to hit last year's 10 inch price points. Early examples are the Acer AspireOne 725 (AMD Fusion) and 756 (Intel Celeron) models, and the Asus X201e (Intel Pentium, Celeron, or Corei3), with both manufacturers' pricing starting at around $280. The primary drawback of the current crop of devices is a combination of smaller batteries and more power hungry processors, which is resulting in maximum battery lives of about 5-ish hours on these models. But that won't likely be the case for long. In my conversations with Acer they have committed to a larger battery option for the education market, but that model has yet to appear.
There will, quite likely, be a number of 10 inch tablets and convertibles, however. The first of these to appear has been the Acer W5, however current price points are awfully high to make these practical for large scale deployments. To add insult to injury, these smaller tablets are all based on Intel Clover Trail Atom processors, which are a slight iteration of last year's Cedar Trail design, and are therefore not very open-source friendly (see below). Hopefully, increased competition will drive prices for these devices down, and newer Atom processors will make them better targets for ubermix.
Intel Atom Cedar/Clover Trail devices will give way to Bay Trail, but not until the second half of 2013 (at the earliest)
While the Intel Atom processor has been the standard for netbooks from the beginning, 2013 will bring another awkward break in Atom processor availability as last year's Cedar Trail line is to be replaced by the new, significantly more powerful and open-source friendly Bay Trail line - but not until the second half of 2013. Manufacturing of Cedar Trail devices has slowed dramatically, with availability already dwindling to the few remaining models currently in the channel. Acer appears to still be manufacturing the D270 (even though it is no longer on their price list) and the Asus 1011cx looks to still be available for order, but it seems fairly obvious that this won't be the case much longer, as their 10 inch, 1024x600 displays do not meet the minimum requirements of Windows 8, and Microsoft is no longer offering Windows 7 Starter to OEMs. It's difficult to say if either will commit to Linux in a greater way (although Asus has demonstrated greater interest than Acer as of late, with both the 1011cx and the X201e available with either no-OS or Linux options), so it seems relatively safe to assume that Windows will continue to steer the ship in regard to manufacturing choices for both vendors. The net result of this is that availability of Atom-based devices will likely miss the crucial summer window for school districts looking to purchase for fall deployments.
This is truly unfortunate, because Bay Trail Atom processors look to be incredibly well designed, and a significant improvement over the troublesome Cedar Trail. For starters, Bay Trail processors will be based on a new 22nm design process that will reduce size, heat, and power consumption. These benefits will enable Intel to double the number of cores, from 2 to 4, increase clock speed to 2.1+ GHz, and drive a powerful integrated graphics chip without a significant increase in power consumption. And that graphics chip will be an Intel HD4000 - the same hardware that is in Intel's current Core i line (as found in the most powerful ultrabooks). Intel's HD4000 is far more open-source friendly than Cedar Trail's closed, proprietary PowerVR (licensed from Imagination Technologies), and Intel has a whole team of engineers hard at work refining the Linux driver, which is already mainlined into the Linux kernel. Double the processing power, at least triple the graphics performance, all with extremely low power requirements makes for a potent combination that will lead to some of the longest lasting, most powerful low-cost netbooks and tablets to date. But sadly, not until the end of 2013.
So, what happens next?
With the big Consumer Electronics Show (CES) right around the corner, expect to see a number of announcements of low cost, 11.6 inch devices from a variety of manufacturers and, if you are bound to a summer deployment schedule, make your device selection based on that news. We should also gain a clearer picture and timelines for Bay Trail, and perhaps discover some unexpected surprises along the way. Watch for touch devices to drop below the $500 price point as well, making them good targets for the next ubermix release (code name "honey badger"), which will be more touch-friendly than ever. We're in for some exciting times ahead!
There will, quite likely, be a number of 10 inch tablets and convertibles, however. The first of these to appear has been the Acer W5, however current price points are awfully high to make these practical for large scale deployments. To add insult to injury, these smaller tablets are all based on Intel Clover Trail Atom processors, which are a slight iteration of last year's Cedar Trail design, and are therefore not very open-source friendly (see below). Hopefully, increased competition will drive prices for these devices down, and newer Atom processors will make them better targets for ubermix.
Intel Atom Cedar/Clover Trail devices will give way to Bay Trail, but not until the second half of 2013 (at the earliest)
While the Intel Atom processor has been the standard for netbooks from the beginning, 2013 will bring another awkward break in Atom processor availability as last year's Cedar Trail line is to be replaced by the new, significantly more powerful and open-source friendly Bay Trail line - but not until the second half of 2013. Manufacturing of Cedar Trail devices has slowed dramatically, with availability already dwindling to the few remaining models currently in the channel. Acer appears to still be manufacturing the D270 (even though it is no longer on their price list) and the Asus 1011cx looks to still be available for order, but it seems fairly obvious that this won't be the case much longer, as their 10 inch, 1024x600 displays do not meet the minimum requirements of Windows 8, and Microsoft is no longer offering Windows 7 Starter to OEMs. It's difficult to say if either will commit to Linux in a greater way (although Asus has demonstrated greater interest than Acer as of late, with both the 1011cx and the X201e available with either no-OS or Linux options), so it seems relatively safe to assume that Windows will continue to steer the ship in regard to manufacturing choices for both vendors. The net result of this is that availability of Atom-based devices will likely miss the crucial summer window for school districts looking to purchase for fall deployments.
This is truly unfortunate, because Bay Trail Atom processors look to be incredibly well designed, and a significant improvement over the troublesome Cedar Trail. For starters, Bay Trail processors will be based on a new 22nm design process that will reduce size, heat, and power consumption. These benefits will enable Intel to double the number of cores, from 2 to 4, increase clock speed to 2.1+ GHz, and drive a powerful integrated graphics chip without a significant increase in power consumption. And that graphics chip will be an Intel HD4000 - the same hardware that is in Intel's current Core i line (as found in the most powerful ultrabooks). Intel's HD4000 is far more open-source friendly than Cedar Trail's closed, proprietary PowerVR (licensed from Imagination Technologies), and Intel has a whole team of engineers hard at work refining the Linux driver, which is already mainlined into the Linux kernel. Double the processing power, at least triple the graphics performance, all with extremely low power requirements makes for a potent combination that will lead to some of the longest lasting, most powerful low-cost netbooks and tablets to date. But sadly, not until the end of 2013.
So, what happens next?
With the big Consumer Electronics Show (CES) right around the corner, expect to see a number of announcements of low cost, 11.6 inch devices from a variety of manufacturers and, if you are bound to a summer deployment schedule, make your device selection based on that news. We should also gain a clearer picture and timelines for Bay Trail, and perhaps discover some unexpected surprises along the way. Watch for touch devices to drop below the $500 price point as well, making them good targets for the next ubermix release (code name "honey badger"), which will be more touch-friendly than ever. We're in for some exciting times ahead!
Now that the weather is getting warm and summer is approaching, a number of schools and districts are looking into what netbook model they might want to purchase for the coming school year. With Intel having (finally) ramped up production of the Atom N2x00 (Cedar Trail) processor family and hard disk manufacturing back on track in Thailand, the market is flush with options. In an effort to help ubermixers make decisions around hardware, below are video reviews of models from the major players in the space. All have been tested with ubermix, and are known to work well.
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Asus EeePC 1025C vs EeePC 1011cx
Asus created quite a buzz around its new 1025C netbook model at the Consumer Electronics Show (CES) in January, but the 1011cx came out of nowhere and wowed ubermixers from coast-to-coast. The 1025C edges out the 1011cx on style and battery life, but the 1011cx is available with double the RAM and no Windows clogging things up - all for $20 less than the $299 1025C. Both models are excellent for use with ubermix.
Acer Aspire One D270 and Gateway LT40
Both of these models from the Acer corporation are excellent choices for ubermix. Acer has been aggressively pursuing the education market, and also appears to be listening to their customers, as these models demonstrate. Gone are the build quality issues from the Acer of old, replaced with much-improved durability and a surprisingly thin and light chassis. And Acer somehow manages to keep the price under that of most of its competitors.
All of that said, there are some issues to take note of with the Acer-built models. The touchpad rocker-button on these models is a bit stiff and has a very short throw, making it occasionally feel unresponsive. The 6-cell battery size on both of these models is on the small end of the spectrum at 4400mAh, which means you can expect roughly 6 hours of realistic battery life. The D270, however, has some upscale specs, like a quicker-than-the-competition GMA3650 GPU and a 1.3 megapixel webcam. And at $249 for the LT40 and $289 for the D270, these are some of the most aggressively priced units on the market.
HP Mini 1104
For HP fans out there, the Mini 1104 is the successor to last year's Mini 1103. The new model features a more refined design, with the trackpad buttons pushed all the way to the edge of the case, and rounded corners near the screen hinges which will hopefully fend off the broken plastic hinge cover problems on the 1103. It also features a student-friendly spill-proof keyboard, accelerometer protection for the hard drive, and a TPM module. That's all great, however for these additional features you get to pay $50 more than the competition, per unit (pricing starts at $349). If you're a die-hard HP shop, these are certainly worth looking into, but the extra $50 really adds up when purchasing in quantity. For every 5 HP units, you could have 6 (or more) of the competitor's models.
HP dm1z/3115M Mini Laptop
If you're looking for a little more horsepower from your devices, AMD Fusion-based mini laptops make quite an impression. These devices feature advanced graphics processing units (GPUs) capable of decoding 1080P HD video, as well as providing some impressive 3D performance. Screen sizes are bigger (11.6"-12") with higher resolution (1366x768) on these models, and keyboards are full-sized. That said, battery life isn't typically as good as Intel Atom-based netbooks, so don't expect to get more than 5 hours or so out of them between charges. And these are more expensive, typically starting at around $400.
Conclusion
I hope you find these reviews helpful as you look to make decisions about which hardware you might use for future ubermix installs. It's always great to have lots of options when selecting hardware, and the ubermix makes this easy as it runs well on just about anything, including full-sized laptops and desktops. Be sure to add your favorite devices to the comments and let us all know what you think.
I recently discovered this great little video on the Intel web site about the Atom processor and netbooks:
A few important points that I think shouldn't be missed include:
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A few important points that I think shouldn't be missed include:
- One of the most unappreciated pieces of technology that we all use is the keyboard. It's easier to hit the keys because you know where everything is and you're using all your fingers.
- Really flexible. Small, low-power, gives manufacturers a lot of flexibility in terms of how they might want to design around it.
- No one likes to be lumped into one category. Not everyone is the same, and one size doesn't fit all.
- Shipped over 100 million netbooks in the last 3 years.
- A low price point. Affordable enough that consumers all over the world can get connected.
- Intel plans to continue to innovate on the Atom processor, and to work to deliver lower power requirements, enhance performance, and bring new platform features.
Intel is clearly committed to the Atom processor and the netbook form-factor, as are the vast majority of manufacturers, as my last post pointed out. It seems pretty clear that predictions of the death of netbooks amount to little more than one company's marketing hyperbole and fanboy-journalism. Like all trendy products, netbooks saw phenomenal sales growth in their early years. Now they are simply settling into their place in the technology spectrum, just as tablets and ultrabooks will - once their luster wears off.
You can view the rest of Intel's netbook/Atom content here.
The annual Consumer Electronics Show (CES) is always one of the largest and most anticipated events in computing, devices, and electronic gadgetry, and CES 2012 was no exception. But with all the focus on Smartbooks, Smart TVs, Smart Appliances, and tablets of all shapes and sizes, it's easy to see why news of other device classes might get drowned out by all the noise. Add to that a gap in manufacturing created by hard drive shortages, a next-generation processor transition, and delays in Microsoft certification, and it's easy to understand why it might be hard to find good information on upcoming devices in our favorite product class - namely netbooks and mini-notebooks. But fear not, for a plethora of exciting devices are slated to arrive in the coming months.
One of the biggest developments to impact netbooks and mini-notebooks in 2012 will surely be the battle for processor supremacy between Intel's new Atom "Cedar Trail" processors and AMD's recently updated "Fusion" line. With Cedar Trail, gone are the single-core Atom processors of old - only dual-core options will be available. Intel promises that the new N2600 and N2800 will not only be faster, but also require less power, offering upwards of "10 hours of battery life and weeks on standby". Intel has also doubled the graphics horsepower, claiming that the new chips will drive 1080p full-HD video out of the box. But while these new chips should offer better raw-processing performance, early benchmarks indicate that they still fall far short of the graphics powerhouses that are the AMD Fusion line. But AMD processors are more expensive and generally draw more power, so don't expect to see them in lower-cost 10 inch netbooks with super-long battery life.
But perhaps the best news of all: expect price decreases, instead of the same or higher for many of these new, improved, and higher-powered devices. In addition, most vendors appear to have seen the light and are reducing the overall number of SKUs (ie model numbers), which should make purchasing a netbook far easier for the average human.
Now on to what's right around the corner for our favorite device class:
Acer
Acer didn't make a big splash with it's new Cedar Trail-based netbook at CES, however rumors of a new device have been circulating for some time and the AspireOne D270 has quietly appeared for pre-order on Amazon's web site. Available in Aquamarine, Burgundy Red, Expresso Black, or Seashell White with a 1.6GHz Atom N2600 dual-core processor, 1 gigabyte of RAM, a beefy 5,400RPM 320 gigabyte hard drive, a 0.3MP webcam, 3 USB 2.0 ports, HDMI/VGA ports, 802.11b/g/n WiFi, and a 6-cell battery (4400 mAh) with a promise of up to 8-hours battery life. Quite impressive specs, especially when one considers the price - it's just $279. Expect to see them ship in early February.
Asus
Asus will soon be shipping several netbooks and mini-notebooks, including both Intel and AMD models. Based on a new "Flare" design, 10 inch (1024x600) EeePC 1025C will ship with a 1.6GHz Atom N2600 dual-core CPU, 1 gigabyte of memory, a (presently unspecified size) 5,400RPM hard drive, 802.11b/g/n WiFi, a 0.3 megapixel webcam, VGA/HDMI outputs, and a 6-cell (56WHr) battery that should be good for about 10 hours. Other perks include built-in Altec Lansing speakers and a USB 3.0 port, all for just $299. For $20 more, you can bump up to the 1025CE, with a 1.86GHz Atom N2800 dual-core CPU. Both models should be shipping by early February.
For those seeking a larger, beefier mini-notebook, Asus will be offering the 12.1 inch EeePC 1225B. Sporting a 1.6GHz AMD E-450 dual-core chip with integrated Radeon 6300 graphics, a 1366x768 native resolution, 2 gigabytes of memory, a (unspecified) 5,400RPM hard drive, two USB 3.0 sockets (and a lone USB 2.0 socket), 802.11b/g/n WiFi, VGA/HDMI outputs, a 0.3 megapixel webcam, and Bluetooth 3.0, expect this baby to be a real scorcher (relatively speaking). Expect it to ship in February for a competitive $399.
Finally, Asus will upgrade the X101 series with the X101CH. Sadly gone is the solid-state disk and the MeeGo Linux option, in favor of a 5,400RPM spinning disk and Windows 7 Starter. The new version gains the Atom N2600 dual-core CPU, but the rest of the specs remain largely unchanged, including the rather anemic 3-cell battery. That said, it is smaller and thinner than the others, with a low-low entry-level price tag of $269. It's disappointing that the original excellent $200 X101 is no longer available, but hopefully Asus will hear our cries and release something similar in the near future.
Hewlett-Packard
HP was a bit ahead of the game in the mini-notebook class with the release of the 2nd-generation dm1z (also called the 3115m in their business/education store) at the end of 2011. This 12 inch, 1366x768 device really packs a punch with either a 1.3GHz AMD E300 Fusion processor or a 1.65GHz AMD E450, up to 8 gigabytes of RAM, both spinning (up to 640 gigabyte) and solid-state disk options, excellent Beats audio, a 0.3 megapixel webcam, 802.11b/g/n WiFi, and a 6-cell battery that will get you roughly 7 hours of life, available now starting at $399. Below is my video review of the dm1z compared to an Asus EeePC 1011px, which will give you a good idea of the difference in graphics performance between Intel and AMD processors:
On the 10 inch netbook front, HP will be updating the Mini 1103 (one of our favorite 10 inchers) by bringing us the new Mini 1104. Boasting the same excellent design stylings as the dm1z, the 1104 will offer either the Intel Atom N2600 or N2800 dual-core processor, 2 gigabytes of RAM, a variety of hard disk options, a 0.3 megapixel webcam, 802.11b/g/n WiFi, and both 3 and 6-cell battery options offering up to 9 hours of battery life. In addition, HP was able to provide for a slight increase in the size of the keyboard keys and a larger trackpad space, thanks to the newly placed trackpad buttons at the edge of the case. Of particular interest to schools are promised, more durable design featuring an accelerometer that rapidly parks the hard disk in the event of a fall and a spill-proof keyboard, which will be standard features. Expect these to ship in February, starting at $299.
Lenovo
Lenovo always starts the year strong in the netbook/mini-notebook space, and this year they are coming out even stronger. During the buildup to CES, they teased the new S110 netbook with this video:
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But perhaps the best news of all: expect price decreases, instead of the same or higher for many of these new, improved, and higher-powered devices. In addition, most vendors appear to have seen the light and are reducing the overall number of SKUs (ie model numbers), which should make purchasing a netbook far easier for the average human.
Now on to what's right around the corner for our favorite device class:
AcerAcer didn't make a big splash with it's new Cedar Trail-based netbook at CES, however rumors of a new device have been circulating for some time and the AspireOne D270 has quietly appeared for pre-order on Amazon's web site. Available in Aquamarine, Burgundy Red, Expresso Black, or Seashell White with a 1.6GHz Atom N2600 dual-core processor, 1 gigabyte of RAM, a beefy 5,400RPM 320 gigabyte hard drive, a 0.3MP webcam, 3 USB 2.0 ports, HDMI/VGA ports, 802.11b/g/n WiFi, and a 6-cell battery (4400 mAh) with a promise of up to 8-hours battery life. Quite impressive specs, especially when one considers the price - it's just $279. Expect to see them ship in early February.
Asus
For those seeking a larger, beefier mini-notebook, Asus will be offering the 12.1 inch EeePC 1225B. Sporting a 1.6GHz AMD E-450 dual-core chip with integrated Radeon 6300 graphics, a 1366x768 native resolution, 2 gigabytes of memory, a (unspecified) 5,400RPM hard drive, two USB 3.0 sockets (and a lone USB 2.0 socket), 802.11b/g/n WiFi, VGA/HDMI outputs, a 0.3 megapixel webcam, and Bluetooth 3.0, expect this baby to be a real scorcher (relatively speaking). Expect it to ship in February for a competitive $399.
Finally, Asus will upgrade the X101 series with the X101CH. Sadly gone is the solid-state disk and the MeeGo Linux option, in favor of a 5,400RPM spinning disk and Windows 7 Starter. The new version gains the Atom N2600 dual-core CPU, but the rest of the specs remain largely unchanged, including the rather anemic 3-cell battery. That said, it is smaller and thinner than the others, with a low-low entry-level price tag of $269. It's disappointing that the original excellent $200 X101 is no longer available, but hopefully Asus will hear our cries and release something similar in the near future.
Hewlett-Packard
HP was a bit ahead of the game in the mini-notebook class with the release of the 2nd-generation dm1z (also called the 3115m in their business/education store) at the end of 2011. This 12 inch, 1366x768 device really packs a punch with either a 1.3GHz AMD E300 Fusion processor or a 1.65GHz AMD E450, up to 8 gigabytes of RAM, both spinning (up to 640 gigabyte) and solid-state disk options, excellent Beats audio, a 0.3 megapixel webcam, 802.11b/g/n WiFi, and a 6-cell battery that will get you roughly 7 hours of life, available now starting at $399. Below is my video review of the dm1z compared to an Asus EeePC 1011px, which will give you a good idea of the difference in graphics performance between Intel and AMD processors:
Lenovo
Lenovo always starts the year strong in the netbook/mini-notebook space, and this year they are coming out even stronger. During the buildup to CES, they teased the new S110 netbook with this video:
The 10 inch S110 is known to come with an Intel Atom N2600 dual-core CPU, 1 gigabyte of RAM, a 320 gigabyte hard drive, and USB 3.0. It will presumably have an 0.3 megapixel webcam by default, since Lenovo has said there will be an optional 720p HD webcam upgrade. There are also rumors of low-cost solid-state storage options, which will be extremely attractive to schools. At just 17mm thick and with an availability in a variety of colors for a price tag of just $299, the S110 will certainly be a force to be reckoned with. Just don't expect to see them until April or so.
Lenovo also announced their new, larger, 11.6 inch S200 and S206 mini-notebooks. These 1366x768 devices will offer the option of either an Intel Cedar Trail processor (S200) or an AMD C60 Fusion processor (S206). Lots of customization options will be available, including up to a 500 gigabyte 7200RPM hard disk or a 32 gigabyte SSD (again, great for schools), up to 2 gigabytes of RAM, multiple webcams (presumably 0.3 megapixel as well as 720p HD), and battery options. Clearly, Lenovo didn't get the memo on reducing the number of SKUs, but that might just be a good thing. Both of these are expected to start at $349, but don't plan on seeing them available for order before June.
MSI
MSI is better known for producing motherboards, but a few years ago they became one of the driving forces for netbooks in the marketplace, and for 2012 they plan to continue that effort. Just prior to CES 2012, MSI announced the their latest Cedar Trail netbook, the U180. Coverage has been fairly light on this model, but we do know that the 10 inch, 1024x600 model will come standard with the higher end, 1.8GHz N2800 dual-core processor, up to 2 gigabytes of RAM, either 320 or 750 gigabyte hard drive with a solid state option also mentioned, a 0.3MP webcam, HDMI/VGA ports, 802.11b/g/n WiFi, and a 6-cell battery. If the past is any indication, expect pricing to be very competitive for this model. I wouldn't be surprised to see it at $299. The U180 is already shipping overseas, so expect to see it hit the U.S. market any day now.
Toshiba
Toshiba has always been a popular choice among netbook enthusiasts, and for 2012 they are releasing the new NB510 series. These 10 inchers will be available with either of the dual-core Intel Atom Cedar Trail processors and ship standard with 1 gigabyte of RAM, 5,400RPM 320 gigabyte hard drive, a 0.3MP webcam, 3 USB 2.0 ports, HDMI/VGA ports, 802.11b/g/n WiFi, and a 6-cell battery. Beyond that, details are fairly scant, so don't expect to see this netbook for at least a few months.
Intel Classmate PC Platform
MSI
Toshiba
Intel Classmate PC Platform
The Intel Classmate PC Platform has been updated to include the new Cedar Trail Atom processors, and a number of vendors like Lenovo and CTL will be releasing updated models. These ruggedized netbooks are designed to take a beating without suffering major damage, but that durability comes at a cost in terms of size and price - typically $100-$200 higher than similarly spec'd netbook models. Expect fairly standard netbook parts for these, including 10 inch 1024x600 screens, 1 gigabyte of RAM, 320 gigabyte 5400RPM hard disks or optional 32 gigabyte solid-state storage, 802.11b/g/n wifi, up to 2 megapixel webcams, and 6 cell batteries, with optional, convertible tablet models also available. These devices are only available to order in quantity for schools. Both Lenovo and CTL announced new models at CES.
Wrap-up
Obviously, the low-cost netbook/mini-notebook space is alive and well, despite recent unforseen delays. All of the above vendors announced commitments to the netbook space for the foreseeable future, and with nearly 30 million units shipped in 2011 and a plethora of options coming in the first half of 2012, schools and other education institutions can expect to have plenty of great options to choose from for many years to come. I look forward to bringing the power of ubermix to all of them, and hearing about how you are transforming the education space with these next-generation devices!
Forward Learning is a model initiative that is putting learning first at the Oak Lawn Hometown School District in Oak Lawn, IL. It just so happens that they are an ubermix district as well. Ben Grey and the whole team at Oak Lawn have done an amazing job building this program, which I hope you will follow as it continues to grow.
D123 Forward Learning- Our Beginning from OLHD123 on Vimeo.
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D123 Forward Learning- Our Beginning from OLHD123 on Vimeo.
Oak Lawn-Hometown District 123 is in the first year of a new learning initiative focused on building creativity, critical thinking, collaboration, communication and problem solving into our curriculum through the affordances of technology.View the entire post on Ben Grey's blog: The Edge of Tomorrow
This is the first in a series of videos will use to share our story.
Music "Human Qualities" by Explosions in the Sky
Now, I want to be very clear that I wasn't pitching the sort of BYOD (Bring Your Own Device) "program" that most districts who consider parent purchase are referring to. You know the type: "our kids will bring whatever they have, be they iPods, iPads, smart phones, laptops, netbooks - whatever they want - and we'll allow them to use them in school." This is always followed by waxing quixotic about "21st century skills" and "the way today's world works", along with a healthy dose of utopianist rhetoric about how such a move will "transform learning in the classroom." Upon closer examination, of course, it becomes abundantly clear that there is nothing systemic about these programs. No plan. No idea of how it will work. Not a thought of what it takes to actually build a 21st century learning environment. If there was, then it would be obvious that a technology "free-for-all" is completely unrealistic lunacy that amounts to little more than opening up access to the school's wireless network. Look closely at the depth of activities in BYOD programs that claim to be successful, and you'll find little but the shallow and trivial, with little-to-no evidence of measurable effectiveness.
If you think critically about it, the impracticalities become clearly evident. A broad variety of device capabilities, screen sizes, battery life, reliability, ability/inability to afford/run applications, software licensing, etc. creates an environment where teachers are faced with crippling limitations and workarounds to accommodate the least capable device in the room. This naturally promotes marginalized, "activity-centric" models of technology use, makes staff development extraordinarily difficult, and creates natural barriers to truly systemic change. Worse yet, if students are bringing "whatever they want/can afford", schools actually promote an environment of "haves" and "have nots", and leave themselves open to all sorts of problems with equity, which will likely (or perhaps inevitably) lead to greater social segregation and its accompanying strife.
While I'm sure we all agree that every student should have a personal device, ultimately the problem with the typical BYOD "program" is primarily a software problem - a software problem that creates a hardware problem. Multiple, differing operating systems with different capabilities is a software problem. Application compatibility is a software problem. Licensing costs to provide applications is a software problem. The ability to run that software creates the expensive hardware problem. Thus, to take on the hardware problem, schools either give up and hope it all works out (technological utopianism), or find themselves back in the "providing the hardware" business, hence the rise of the school-provided 1:1 program, of which the ubiquitous, ever-more-expensive and costly (there's a difference) iPad is the flavor of the month. And let me head this one off now before you fill up my comments with arachnoid dreams - the web is not a leveler, as not all platforms conform to common web standards or are capable of accessing/running all web applications effectively.
Of course, beyond the software and hardware we must think about exactly what role the technology will actually play in the classroom. The most important things to consider are what our vision for technology in the classrooms is (ie what we believe) and how will our technology decisions lend themselves to realizing that vision. Will technology use be activity - dare I say "app" - centric, or will it be something more? Will we view technology merely as something supplemental, or something greater? Will the technology be the curriculum, or will the focus be on using technology to empower students to participate in and take responsibility for their own learning? And if it is to be the latter, what technologies will best facilitate that vision, and how will we go about preparing our people to transform the culture of school, so that we might realize that vision?
Ultimately, realizing that vision depends upon providing a consistent, flexible, affordable, reliable, sustainable, and scalable technology in the learning environment. Is that possible with "free-for-all" BYOD? I don't think so. There are too many of those words - consistent, flexible, affordable, reliable, sustainable, and scalable - that just can't be met by the free-for-all model. Fortunately, I think we are at a tipping point at which the fundamental components of a realistic, parent provided technology infusion in the learning environment has the potential to become a practical reality for all of us, much more so than it ever has in the past.
So what are those components? Remember before that I said fundamentally we have a software problem that drives a hardware problem. The software we use has to provide a consistent, flexible environment. It has to work reliably on a variety of hardware types and brands, preferably the hardware the majority of our students already have (or have access to) and/or hardware that is inexpensive enough to be practical for our parents to provide. It has to be capable enough to access all of tools and resources at our disposal, while providing a broad array of rich, capable applications that empower students not only to build and create, but also to share and participate. It has to be easy-to-use, so that our teachers can stop worrying so much about teaching technology and start worrying about creating opportunities for learning. And, perhaps most-importantly, it has to be something teachers can know that they know that know is going to work when they need it to work. And we need all of this for free, because not only do we not have any money, but we also want to be able to give it away and install it on everything our students can bring.
Impossible, you say? I say, not so, and humbly offer you the ubermix as a potential solution. The ubermix is an answer to achieving cell phone reliability and ease of use on almost any device. By leveraging Linux and open-source software, ubermix strips away all the complexities of typical proprietary operating systems, leaving an elegant, cell-phone like interfaces of simple icons, with reliable and secure underpinnings that are not prone to failure, malware, or general instability. All the tools you would expect are there, along with dozens more that you wouldn't. Built-in quick recovery features empower users to reset their systems in seconds, should something go awry, leaving devices no longer needing to be "managed" to "save users from themselves," as many tech directors might put it. In short, you gain software and interfaces that do not impede the use of the system, rather they enable it by empowering users through simplicity of design and freedom to explore without risk.
Because ubermix is extremely efficient and lightweight, it runs well on almost any hardware - even older desktops, laptops, and inexpensive netbooks, which enables schools to overcome nearly all of the hardware obstacles to students bringing technology into the classroom. Netbooks, in particular, are low cost, typically less than half that of a traditional laptop or iPad. They provide incredible battery life which enables them to easily be on a students desk all day, ready to be used at a moment's notice. They are also extremely durable, especially if one uses the flash-based models which have no moving parts. In short, schools can get cell phone durability and battery life, with tons of flexibility, plenty of performance, aolong with ease-of-use and reliability that can make all the difference between seamless use and constant disruption in the classroom.
Of course, that's just hardware and software - powerful, but not enough to transform the culture of school. With the hardware and software in place, the final piece of the puzzle is this: leveraging our students' natural drive to create, share, and connect - to be social - through extensive use of social media and web 2.0 tools. The use these tools in the classroom creates a powerful, participatory learning environment. Not only does the mere production of content for an audience bring about a certain authenticity to common tasks, it also breaks down barriers, makes the classroom porous, and creates a sense of community among students, teachers, and parents. What does it mean when 2nd grade students can see the work of fourth grade students and decide to take on that task themselves in a self-directed, online activity? What happens to learning when students create content with the express intent of helping other students understand key concepts? What is the impact of teachers being able to connect with students at any hour, regardless of whether they are in their class or not? Concepts such as these shake the very foundations of 19th century learning models and bring powerful new ideas about teaching and learning in the 21st century.
When we combine these three, I believe we have the ingredients of transformation at our fingertips. Does it work? Absolutely yes, we've seen this success in our SWATTEC program. We've done nearly zero training on the technology itself, yet the students are using it to learn, create, and share in amazing ways on a daily basis, and teachers have embraced technology to the degree that it is regularly used all day, every day in the learning environment.
So what's the magic? How do we make these into school supplies? My thoughts are as follows:
- Establish a framework of mutual understanding with the parents of students of the school/district in which everyone understands the school's/district's vision for technology in the learning environment. As part of that framework, provide a minimum set of technology requirements, along with suggestions for devices/models that would be able to meet those goals, and where one might purchase them. For parents who wish to provide a device for their students, the incentive would be that the students would own the device and be able to take it home, as well as carry the same device through grade level changes, etc. Minimum recommendations like a low cost netbook places the device purchase well within reach of a typical family (most have expensive cell phones, after all.)
- Make as many devices available at school as possible for those who are unable/unwilling to purchase one. Again, these could easily be carts of inexpensive netbooks. These devices typically cost about half that of a desktop computer, so stop refreshing your computer labs and classroom desktops and buy a couple of carts of netbooks instead.
- Use the ubermix to ensure consistency in applications, processes, and performance are in place on every machine on campus, and give the software to parents to install on their home computers. All of the software can be installed on any machine running any operating system, be they classroom computers or those in a student's home, without restriction or expense, creating an environment of ubiquitous technology access.
- Develop a nurturing and supportive plan to develop our teachers and assist them as they restructure learning in the classroom around student empowerment, while also creating opportunities for them to share what works, what doesn't, and what's next, both face-to-face on a regular basis and continually via the same social tools students will be using in school.
So, if we accomplish all this, have we not achieved our goal? If we no longer have to teach students how to use the laptops themselves, no longer have the burden of providing significant support for them or training on how to use them, we make sure all of the tools are free and easily accessible no matter what device the student uses, and we develop our teachers and environment to support this sort of student empowerment, does the device suddenly become like a calculator? When does technology become school supplies? I think if we are willing to leverage the power of ubermix and couple it with a consistent effort and energy towards classroom transformation, the dream might just become a reality!
