In Part 1 of this series I covered three strategies for ultra mobile video editing and decided that the traditional, PC-based solution was the only real choice for today. I also set out some parameters.

The solution comes in three parts.

1 The Camera

2 The PC

3 The Editing Software

The parameters I’ve set for the project are:

• PC and software to cost less than 600 Euros
• PC to be less than 1.5KG with 12 inch screen or less.
• Total camera + PC solution to weigh less than 2KG and cost less than 1000 Euro
• Source video should be 720p
• Video sent to YouTube should be 480p minimum
• Editing solution must include watermarking, overlays, crossfades, and multiple audio tracks.

I have personal requirements for the camera that mean it also needs to be able to take photographs for the site. It should also include self-shooting (front or swivel viewfinder), built-in stereo microphone. 28mm wide-angle capability. Good low-light performance and long zoom range for close-up to press conference zoom-ins. An external mic input and hot-shoe would be an advantage.

It this stage I have two cameras in mind. The Canon SX20IS and the new (currently unavailable) Fujifilm HS20 EXR which is said to have some good, and very helpful, low-light options. It doesn’t have the self-shooting viewfinder though. I’m still looking at other solutions but for this post I want to refine the choice of PC down to a shortlist.

The current shortlist is shown below. Please feel free to propose alternatives.

• 12 inch Intel Atom solution: Asus 1215N (Intel N550 + Ion2 with 16-core CUDA) 1.45KG
• 12 inch AMD Fusion Solution: Asus 1215B (AMD E-350 APU) 1.4KG or HP DM1Z (AMD E-350)
• Intel Core i3 solutions: Lenovo Edge 11 (Intel Core i3 1.5KG) or Acer Travelmate-8172T (Core i3 1.4KG)
• Netbook solutions (*1): Samsung NC210 (N550 dual-core + 6-cells 1.22Kg) or N350 (N550 + 3 cells 1KG) or NF310 (N550 + 6 cells + 1366×768 screen 1.3KG) or ASUS 1015PN (N550+Ion2 1.25KG)  or ASUS 1015B (AMD C-50) or Toshiba NB550D (AMD C-50) or Acer Aspire One 522 (with AMD C-50)

13 inch devices will remain out of scope because of size. I have to draw the line somewhere and I feel that 13 inch just goes beyond what is acceptable on a seat-back table, in one hand and in a small bag.

(*1) At this stage it seems fairly clear to me that a dual-core Intel Atom alone isn’t going to be enough on its own to process 720P video which means the pure netbook solutions fall away leaving only the Ion2-enhanced Asus 1215N where CUDA could help push the performance. The E-350 CPU performance isn’t a huge step forward from the N550 but with the 3D and HD decoding support, should help the editing experience and, possibly, a 720p-to-480p conversion stage that allows faster editing. Note that the ION2 in the Acer P1015PN doesn’t have the CUDA core required for enhanced video rendering performance. The AMD C-50 based solutions aren’t as powerful as Intel N550 for general purpose computing but do include video decoding support (not hardware encoding) which could help in a 720p to 480p pre-editing conversion process. Due to this, the NB550D and 1215B stay in the shortlist.

Interestingly, the new Intel Oaktrail platform includes 720p encoding and decoding in hardware. Unfortauntely this won’t help much in the video rendering process where almost everything is done in software. It could help with a 720p to 480p conversion process before editing but the CPU and GPU is then unlikely to be strong enough to support a smooth video editing experience.

Am I considering tablets like the Hanvon B10 and the EeePC Slate E121? No, because being lap-capable is critical and inputting text around a video is a requirement for almost everyone. Adding a USB or Bluetooth keyboard is considered a point-of-failure and would bring the weight up by 200gm.

In summary, we have an entry point of 11.1 inch screen and a minimum weight of 1.3KG. I’m surprised that I can’t find anything in the 1.0-1.2KG range. The only solutions available are all close to 1K Euro which puts them out of scope.

Prices of the items on the shortlist range from €300 to just over €600

Note: Why limit the price? I want to come up with a solution that as many people as possible can consider.

Where do we start?

I will say now that I’m looking for someone that can supply these devices for testing because i’m not about to go out and buy 5 laptops so – Free series sponsorship to any reseller that can help us with this project – but I will put my own funds into the pot and start with the smallest, lightest, cheapest option. Later today I will be heading out to pick up the 299 Euro Acer Aspire One 522 with the AMD Fusion CPU and 720p screen. For that price, it would be stupid not to!

Update: Unboxing and first impressions article is now up.

Stay tuned because I’m likely to do a live session with it if I get it. (Follow @chippy on Twitter for  notifications.)

I’m ready to consider an 11.6 or even a 12 inch screen now and its based on my requirement to run some more complex software on a device that has a higher resolution. The problem is, while I can bear a bigger footprint, I can’t bear much more weight.

My Gigabyte Touchnote with its Runcore SSD and 2GB upgrade has served me well for 2 years but with the extended battery I’m down to 4hrs so it really is time to think about something new. The Touchnote weighs 1.45KG in its current form and there’s no way I want to go above that; In fact I’m looking to get as close as I can to 1KG. I’m also looking to stay with ‘just enough’ CPU which keeps the price down and allows me to stay in the low-power, long-battery life bracket. For me though, ‘just enough’ means dual-core Atom N550/N570 or AMD C-50 and if I consider my video editing project, it could be higher than that.

As I look at devices like the ASUS EeePC 1015PN and the Samsung NC210 I see Windows Starter, 1GB and 1024×600 screens but weights below 1.25KG. There’s also the AMD C-50-based Toshiba NB550D and the EeePC 1015b which at 1.3KG offers 2GB and, we hope, Windows options. The Fujitsu Lifebook PH530 is an interesting 1.33KG option with Core i3 and an 11.5 inch screen but in the 12 inch range you really are looking at 1.5KG unless you are prepared to pay serious money.

With my Android tablet PC taking over some of my netbook work now (many of my shorter posts last week were done with the Galaxy Tab) I’m not worried about having 8hr battery life. A solid 4-5hrs is fine so perhaps that means I can go up with the CPU and down with the battery life.

I get the feeling that there are a lot of you out there that are in the same position. You’ve had your netbook for a year or two and you’re looking for another mobile productivity solution. So what’s your preference? Do you want to keep it small or light? Do you want to break out of the Intel netbook restrictions or are you happy to carry on inside their restrictions? Feel free to comment below and of course, if you have buying tips, lets hear them.

Thanks to Notebook Italia and Netbook News who gave me a chance to get some private hands-on with the new Samsung NC210 at CeBIT last week. It’s very much the Samsung N350 with the badly needed 6-cell battery. Unfortunately, the silver finishing on the back of the screen is one of the cheapest I’ve ever seen from Samsung.

It’s difficult to position the NC210 in the Samsung range. On one hand the engineering on platform in terms of efficiency is just stunning. on the other hand, the quality of the plastics appears to be lower than the normal high standards but with USB 3.0, Bluetooth 3.0+HS and the clearest, loudest, wide-ranging speakers I’ve heard on a netbook for a very long time you have to consider this one carefully. The NF310 is bigger, slightly heavier, without the high-speed Bluetooth extension, a touch more expensive but you do get the hi-res screen.

The Intel Atom N550 CPU brings you the current high-performer in the Atom range (N570 at 1.66Ghz is due soon tho) and allows 720p local playback without problems. Windows 7 Home Starter works smoothly, the mousepad is great and the keyboard excellent. Samsung’s Fast-Start is included and trust me, if it’s the same implementation that I tested on the Samsung N350, it’s worth having. At 1.22KG you’ll struggle to find a 6-cell (6600 mAh no-less) netbook that’s lighter.

Full specifications, videos, links in our database.

In idle tests I had no problem getting an indicated 11 hours out of the device and minimum drain goes right down to below 3.6W which is a great achievement. Average battery life should be in the 7hr range. CrystalMark scores indicate best-in-class all-round so if  you drop an SSD and 2GB into this, you’ve got something special. The matt screen is nice too but it would really have been the icing on the cake to see  high resolution version. 1024×600 is fine for most applications though.

Check out all the pics in the NC210 Gallery

But that plastic silver. It has to go Samsung…

Availability is confirmed for UK and Germany where it’s showing as available NOW for £300 or €350

After I had tested the N570-based S1080 tablet yesterday I had a great discussion with Gigabyte about mobile video editing. Gigabyte have always explored new features and pushed the boundaries in some way another so I guess I shouldn’t have been surprised when the representative told me I should wait for Computex to see the T20xx range of devices that will come with the latest, Sandy Bridge versions of Intel’s Core i3 or i5 CPUs. I understood that they would be convertible too.

That’s going to be something to test as soon as possible because if they manage it, we could have another low-cost power-option on our hands. If they manage to get some decent battery life out of it and keep it under 1.5KG too, it’s going to be very interesting indeed. I sincerely hope that the rep knew what he was talking about and can’t wait to hear more.

Computex starts on May 31st and we’re planning to be there.

Available with the C-30 or C-50 AMD Fusion platform this is the Eee PC 1015B.

Max 2GB RAM breaks the mould a bit and we suspect this could come with Windows 7 OS options unlike many 10″ Netbooks

Posted from WordPress for Android with the Galaxy Tab

I wrote a few days ago on my personal blog about my mobile video editingI project aims. Soon after I posted that, I had a long talk with @jkkmobile who, like me, is always looking for ways to improve speed and quality while keeping the weight down. We both deeply understand the tech involved, the requirements and challenges and have come up with a set of initial thoughts that we hopebare worth sharing.

To recap, the three areas of interest are cloud-based processing, arm-based smartphone and tablet processing and traditional x86 laptops. The target for this project is a sub €600 solution that is able to post 16:9 HQ quality (480p) edited content with watermarks, titles, crossfade and other cpu-bound processes. The computer solution should weigh less than 1.5 kg. Trust me, this is quite a challenge as you’ll see below.

We quickly discussed the idea of cloud-based editing but while that might be possible over good cable networks, over 3g networks it is too unreliable and too slow. We’re both interested in this as a future possibility and Clesh is a service we’re watching closely.

As for ARM based editing on smartphones and tablets, again, there are issues. While the technology is maturing quickly and there are some interesting software solutions out there (Reel Director on IOS, Movie Studio on Honeycomb Android) these solutions need tight integration of hardware and software. We’re thinking of future cameras that include camera hardware you just don’t get in ‘general purpose’ smartphones and Tablets. For a smooth and fast editing experience we also need to wait for at least the next generation of ARM platforms. There’s definitely an opportunity for someone to make a niche ARM/ANDROID camera for mobile reporters although we’re not sure that the carriers would be too pleased about the upload usage! Software needs to mature too. Of course, it doesn’t mean you can’t post the occasional 30 second clip from a phone without editing. I plan to do some of that using the Galaxy Tab which, although not a 16:9 solution, records in 720×480 and has some very simple and easy sharing tools.

Todays video editing solutions are very much about traditional computing. X86 processors, desktop operating system, rich software, common file formats and separate devices for the camera and editing parts of the process. Many will actually tell you that you shouldn’t even think about a low cost laptop. As for netbook, people that do video editing for a living often laugh.

Having used a netbook for editing and posting videos at expos’s I know its possible. Don’t let anyone tell you you can’t do it because JKK and I have over 20 million combined YouTube views and most of these were done on-the-go with a netbook but as I mentioned in the last post, the requirements have changed over the last 2 years and 4:3 VGA videos aren’t acceptable to many. Its a trend, it works against the mobile user but I (JKK already produces videos in 16:9) have to play along now if I’m to be taken seriously.

JKK and I agree that there are a number of approaches that can be made in the x86 world.

Firstly we’ve discounted the idea of using Apple Mac products with iMovie for mobile video editing due to the import process which converts video into the AIC format usable by the video editing software. The process simply takes too long. There are other software solutions though which could be interesting on the MacBook Air product, as long as there is no import processing. This needs further research but even if the import problem could be solved, the price of the Apple MBA products is outside our range. I’m focusing this project on low-cost and lightweight solutions.

In our discussion we repeatedly came back to Nvidias CUDA technology which allows a certain amount of general purpose computing to be done on the graphics module. It is truly a game-changing technology but it does require software to be re-written to take advantage of it.

You see, graphics modules (gpu) are very specific processing engines for 2d, 3D and video decoding. In some cases the GPU can also handle encoding but these basic processes are often not what you need for video editing. Consider a fade, an overlay, a watermark or a transition. These processes require general purpose processing on a frame by frame basis. This is why CUDA is so interesting for mobile and low power video editing; it breaks the requirement for pure CPU processing.

CUDA doesn’t just appear in high end graphics solutions because it also appears in the Nvidia ion2 platform that is offered with the netbook-class Pinetrail CPU. Beware though, this ion2 variant doesn’t include the CUDA you need for video processing. The lowest power processing platform that we have found that includes full CUDA capability is the Ion2 12″ Netbook platform. it couples the D525 dual-core, 1.8Ghz Atom with the full 16-core CUDA engine. They are not the best mobile cpus (speedstep is missing) but they are in a processing class that easily outpaced traditional netbook platforms. The ion2 solution also allows the platform to fall back to the embedded graphics thus saving power when the GPU is not needed. The platform also idles down to a very low power drain state. For our purposes, its a very interesting platform.

Examples of devices that use this platform are the Acer EeePC 1215n and the Acer Lamborghini VX6 which even offers a useful 3GB of memory. Both are around 1.5kg in weight.

But what about dropping CUDA and going for a general purpose CPU with a bit more power than Atom? It’s possible. The Lenovo U160 offers CPU options up to core i5. Could a boost in cpu equal the CUDA solution? It would certainly be more useful for general purpose activities and opens up the choice of software to that which isn’t optimized for CUDA. Using a higher-end architecture with faster bus speeds and one well matched to a GPU for more efficiency might bring benefits.

Two choices in the low-cost area that I’m looking at are the Lenovo U160 and the Acer Aspire 1830T. Both are available with a low power Core i5 and weigh about 1.4kg. The Acer has the better performance and battery life of the two according to reports I’ve read. Cost is relatively high though and it is going to be tough to find a solution under 600 Euro.

The other interesting thoughts we discussed was that of the keyboard requirement. Could we used Tablet PCs and save weight and space?

Editing movies is largely a mouse operation which means it could be suited to tablet operation. In general though, battery sizes are smaller (and spares more expensive.) I haven’t seen any Tablets with the CUDA 12″ netbook platform and there are only a few low cost options with laptop cpus. The Hanvon B10 is one of them. We see the advantage of the ‘modular’ tablet solution but we’re both wanting to keep or lapping scenario, the keyboard and the protection it brings when folded together.

JKK and I discussed a bunch of other important items too. Fast SSD helps a lot. Using fast SD cards means you can edit from the SD card without having to copy it to the hard drive first.

We also discussed file formats, bitrate and sizes. We’re currently in agreement that h.264 is the format that provides most flexibility but there’s a huge CPU load associated with h.264 that is used to compress files down much further than standard mpeg4 part 2 codecs. The important thing to note is that our initial and most important file transfer is from an SD card in a PC. The bitrate and file size can be large without affecting the transfer time significantly. Final compression into h.264 at 2 or even 3 mbps doesn’t save that much in final file size and its not important to us how YouTube sends the file out so why even bother with h.264?.

It seems to me that a recording format of Mpeg-2 at a bitrate of 10mbps would be acceptable for our sub 10 minute clips. They would be relatively easy to work with. One thing to note on this is that CUDA  might not work with mpeg2 which brings us back to using a general purpose CPU. Testing is needed here. If we can find video editing software that uses CUDA for mpeg-2 editing (note that we also need to choose our output file format carefully too) then mpeg2 could be exactly the right choice of source codec.

There is other slight problem here in that there are very very few cameras that record in mpeg2 now.

Resolution, bitrate and aspect ratio.
16:9 is the ratio we need to aim for with YouTube. The lowest acceptable resolution is 854×480 with a bitrate of around 2mbps. This triggers HQ encoding in YouTube although I’ve had no problems with my 640×480 resolutions showing as HQ. Another option would be 720×480 which isn’t quite 16:9 but doesn’t look as bad 640×480.

Note: Recording in the resolution you want to output in will save processing.

Recording in 720p (1280×720) is another option but could require re-encoding to 480p before using in an editor because it’s a huge jump in pixels per frame. Ideally the camera will allow 480p and 780p at various bitrates. If you consider the requirement for viewfinder and Mic input you will only really find solutions in the video camera world. Combining a digital camera with these video requirements results in very little choice.

As for bitrates for the final upload file, it will depend on final codec and resolution. To ensure a reasonable chance of using 3g services to upload the file, a bitrate of around 2mbps needs to be used. For a 480p resolution it means you really need an advanced codec like h.264 to preserve the quality.

So in summary, mpeg2 at 854×480  at a relatively high bitrate seems like a good source and editing choice. Output files should be the same resolution but at around 2mbps bitrate in the h.264 codec.

What does jkkmobile use? He currently records in mpeg2 at a 16:9 ratio. Resolution is 960×540, bitrate either 6 or 9mbps. He converts that down to 854×480 which is 480p resolution. I’m not sure what format and bitrate he outputs to send to YouTube. If he has enough cpu power he will be using h.264 but he may be using wmv or something else that it is a little easier on the CPU. He certainly has the optimal settings for source files.  His camera is a Canon FS100 which you can’t buy any more. There are other SD cameras from Canon that also offer 16:9 capture though.

A quick step back to the world of camera products shows that 1080p rules and it’s difficult to know exactly what alternative resolutions a device will offer. In addition, h.264 is the popular codec which at anything bigger than 480p resolution, will be a problem.

Can CUDA do all that we require or are we going to have to rely 100% on a general purpose CPU? From what I have read and been told, most video editing software that is CUDA-enabled is doing so on output to h.264 only. I’ve seen test result with mpeg2 source formats too so mpeg2 again looks like the best source format.

There is only one way to find out. I’m arranging an Asus 1215n loan device for CeBIT next week and I plan to do as much testing as I can. I will use JKKs cam to create some 16:9 mpeg2 source and test it with some CUDA-enabled software. Power Director from Cyberlink looks like a good starting point.

Many thanks to Think4IT Solutions for offering to help us with this project.

Stay tuned for part 2 which should come after CEBIT.

Posted from WordPress for Android with the Galaxy Tab

Meet:Mobility Podcast 64 is now available.

Sashca, JKK and Chippy discuss the Nokia news from Fridays announcement and how that impacts MeeGo. We cover new netbook news and discuss MWC 2011

Listen, subscribe and download at MeetMobility here.

This is the sixth report on sizing trends in PCs below 12 inch screen size (and above 5 inch) appearing in the German market through the popular price comparison engine, Geizhals.at (*1)  The last one was done in August 2010 In this report you’ll see  a big jump in overall numbers, a reversing of the decline in 7 inch devices and a turnaround in the 10 inch segment.

Number of SKUs in the market.

Screen size distribution

The big jump in numbers is clear to see from the top graph. Total numbers jumped by 83 and this is likely to be due to the Christmas season and introduction of new model ranges following IFA 2010. Surprisingly, the 10 inch segment has grown in numbers and %. A lot of this is attributable to dual-core Atom N550 devices.

• Over 20 Intel Atom N550 devices appeared exclusively in the 10 inch category.
• 62% of the devices are running on Intel Atom. One year ago, this figure was 78%  Remember that the segment includes some devices running laptop-grade CPUs and there’s an influx of AMD and ARM devices in the top and bottom end of the 5-11 inch range.  This is not just an analysis of ‘netbooks.’
• The 7% segment had the biggest percentage growth (over 300%, from a very low starting point) and the 10% segment had the biggest numeric growth (63)
• Including Android, over 14% of the segment runs a Linux kernel. One year ago this figure was 5%.  Almost all of this growth is within the ‘tablet’ style of devices.
• Only 13% of the devices weigh 1KG or less. (up from 10% one year ago again, growth is in the tablet segment)
• 18 devices now include Nvidia ION2.  All of these are from a single manufacturer – ASUS.
• Total number of tablet form-factor devices 60 (not including 4.8 inch) which is about 10% of the total sub 12% screen size market.

The cheapest devices (based on lowest price offered) are:

• X86/Windows Laptop Samsung N145 at 228 Euro
• ARM Tablet Nexoc Pad 7 (Android 1.5) at 99 Euro
• X86/Windows Tablet Archos 9 at 402 Euros.

Also of note is the larger spread of GPU technologies, the increased us of SSDs (even in the X86/Windows segments) and a large number of dual-core CPUs. Dual core CPUs make up a 30% of the 10-11.6 inch bracket now.

In the last report I talked about a netbook freeze.  Certainly the trends for search and news seem to be heading south (see below for ‘netbook’ trend)  but the increase in numbers of 10 inch devices indicates that there is still interest from manufacturers. The increase in SKU’s, however, could be misleading as we’re seeing an increase in the number of colour options, CPU options, GPU options and screen options that use the same chassis. Acer and ASUS each have over 90 different model types in the German market in the 10-11.6 inch category.

I think most people in the netbook field would agree we’re seeing a levelling of interest and manufacturers are using offers and personalisation to attract sales in this mainstream part of the segment lifecycle.

For mobility fans though the message is clear. There are more options than ever and competition is increasing which will drive improvements in software and hardware very quickly. Certainly we will see the tablet segment grow and it will be interesting to see how the 5-9 inch segments move when we do the next analysis in about 3 months time.

Warning: Please remember that this is a single data-source analysis of what is happenning today, in the German market. This is not a complete market analysis report. You may use the data and images but please also reference this article which includes this warning.

*1 Based on SKUs, not model families. Note that Geizhals have now moved all tablets to a new category called ‘tablets.’ This category was included in the analysis. An English language (and UK market) version of Geizhals is available at Skinflint.