Disclaimer: Whatever info I have put here is based on numerous webpages/forums which I referred for setting it up. So all the credits go to them(www.forum.xbmc.org, http://www.audiohobby.com http://www.lifehacker.com, http://www.raspberrypi.org, http://www.xbian.org etc are the major sites which helped me).
As a prelude, would like to say that I am extremely happy to have bought raspberry pi and I dont regret it as for my purpose its more than enough. Quoting from the user vertigo in the xbmc forums one of the post which clearly explains the pros and cons of it, than me trying to rephrase it
I see a lot of people have trouble assessing whether or not a Rasberry Pi is a viable platform to run XBMC on. Let me try to help and summarize what it can and cant do.
Contrary to what you sometimes read, the Pi can indeed decode 1080p30 high-profile (ie, bluray) stutter free. It will even do 3D. But there are some caveats you should be aware off:
- if your media uses VC1 or Mpeg2 as opposed to h.264, divx, etc, then you need to purchase a license to enable hardware accelerated decoding of these codecs. Prices are €1.45 and €2.89 respectively. http://www.raspberrypi.com/license-keys/
- the Pi is not always fast enough to decode DTS or Dolby Digital 5.1 (AC3) to stereo on the fly, but it has no problems passing through these codecs over HDMI to a DTS or AC3 decoder/receiver. If you have an HDMI receiver (or TV) that allows these audio codecs, you will be fine (the work is done by the AVR decoder). If you dont have that hardware, there isnt too much point in using a DTS track, so if possible, you should select a stereo or AAC track instead. Most DTS/AC3 media will have such an audio track. If your source only has DTS audio, and you dont have a DTS capable receiver, you may have a problem.
*update: I actually tested this with my own library. I dont have straight bluray rips, so the highest bitrate I saw was short bursts around ~30Mbps (h264 1080p23.9 + DTS), and my Pi had no problem playing it while decoding the DTS signal, at least when playing it back from a local drive. While playing the same file over the LAN, the Pi did stutter during the high bitrate peaks. One might think its a bandwith issue (100Mbit), but the Pi can serve the same files to my x86 machines, and they wont stutter. In short: it appears to be a problem when playing big files with DTS over the LAN. Local files from a USB drive seem to be fine, though it may not do full rips with DTS decoding, it may not work with some video formats, its widely reported the Pi struggles decoding DTS, but Ive not been able to reproduce this with local files. YMMV.
If you read somewhere that Pi will stutter playing back 1080p, its almost certainly because the user was unaware of one of the above restrictions. It has given the Pi a reputation it doesnt deserve IMHO. When used properly, 1080p playback is utterly smooth, and I would even say it looks better than on my x86 machine.
One more little known feature of the Pi that deserves highlighting, is its built-in HDMI CEC capability. Unlike any x86 videocard Im aware off, the Pi can send and receive HDMI CEC commands. This allow you to use the remote of another HDMI CEC compliant machine, like TV or AVR to control XBMC. On x86 you can achieve the same only buy purchasing a Pulse-Eight adapter kit. HDMI CEC is also known as Easylink, Vierra Link, BRAVIA Sync, Anynet+, etc.
That said, there are a few other aspects of the Pi that may steer you away from it:
- The Pi has no SPDIF out.
If you can not use HDMI audio, the only other option is analog stereo. As an alternative, you can buy a HDMI splitter that splits audio and video and gives you HDMI video and SPDIF audio (example: http://www.amazon.com/ViewHD-Premium-Aud…o+toslink) , but such a device will cost about the same as the Pi and be about as big. The combination is still rather cheap and small, but no longer as impressively so as the Pi alone.
- The Pi currently has no support for HD audio (TrueHD and DTS-HD/MA), even in passthrough. This is a software issue that might be resolved in the future, but for now, playing a DTS-HD stream will result in a DTS signal on your AVR, and playing TrueHD will probably yield nothing or noise.
- While its GPU and videodecode capabilities are respectable, the CPU of the Pi is slow.
There is no way to sugarcoat it. The CPU is an ARM11 based design, which puts it roughly in the performance ballpark of the iPhone 3G (not 3GS) or HTC Legend. In PC terms, roughly a Pentium 2 – 300 Mhz for those of you old enough to remember. This CPU is considerably slower than the better known ARM Cortex A8 cores found in Samsung Galaxy S1 or iPhone 3GS, and far slower than all the cheap Cortex A9 based android devices you can buy today. Oh and incomparable to even the slowest celeron on the market. You do notice this slowness. Not while playing video, but while using the XBMC GUI, its not quite as buttery smooth and responsive as x86 media centers. If you use simple skins like confluence or Quartz, IMO its completely acceptable, and far from frustrating; but dont expect miracles. If in doubt, I would advice you to watch some video’s on youtube and see if it lives up to your expectations. Here is one I just uploaded myself:
(note that the white screen corruption is mostly solved now)
- The network interface is 100T.
Even using USB to Ethernet adapters, you will still be limited to 100T. It wont do gigabit ethernet.
- It uses Linux
Yeah, it does, but that doesnt mean you have to know anything about Linux. Think of your (smart) tv or AV receiver; it probably runs on Linux too, but its not like you need to use a command line interface or edit text files in VI to use it . Same with openelec. It turns your Pi (or x86 box for that matter), in to a real consumer appliance and almost completely hides the fact there is an OS underneath XBMC. But for those that do know Linux, there is still SSH thank God
- Its not much good as a general purpose PC
XBMC linux distro’s are stripped down to the bone. You wont even find a browser. If you intend to use your HTPC for other tasks besides XBMC, like internet, social media, gaming, etc, you want to look elsewhere. Sure, you can dualboot openelec with some more general purpose linux distro for the Pi, but if you can figure that out and think thats an acceptable solution, then you are far more of a geek than me, and not likely to be reading anything in this post you didnt know already.
- The hardware is old, almost obsolete, why not buy a much faster android device?
In the near future, and for XBMC users, the Pi will almost certainly be obsoleted by far more capable hardware (typically designed for Android). Some of them already hardly cost more than the Pi today, while giving you goodies like dual core A9 chips and more adequate IO. Thing is, the Pi is (probably) fast enough, while having the advantage of being very popular among 1+ milion geeks for almost a year now, and as a result, it has a pretty mature software stack. Android devices arent there yet. Im sure they will eventually, so if the time comes to switch to Xios or some other Android device, at least know that thanks to its GPIO interface there are a million other uses for your Pi. Like serving as the brains of a home made pinball machine, a quadcopter, coffee machine, or whatever else you can come up with .
If none of the above issues are show stoppers for you, the Pi will offer you a ridiculously small, cheap ($35-$50 if you count codecs, case, etc) , power efficient (~3,5W!) and surprisingly capable media center.
Original Thread link is http://forum.xbmc.org/showthread.php?tid=152339&highlight=raspberry+pi
Some people always ask, why do you want raspberry Pi/XBMC if you have a smart TV which can do most of the things. The quick answer to that is XbMC on raspberry pi can do much more things than a smartTV, some of which are
- Scraper: XBMC has some built-in scrapers which can automatically search the contents of the media and autodownload information related to it from popula sites like IMDB etc. What it means if you select a movie, it will say a brief plot of the movie, its IMDB rating etc.
- Subtitle download: Downloading subtitles for a movie is very easy in XBMC using the subtitle add on.
- Automated torrent downloads: Using XBMC add-ons like couchpottato, sickbeard,headphones and transmission torrent client you can automate the process of movie/TVshows/Music downloads. [This is one of the biggest advantage]. In couchpotatto you can mention what movies are you looking for and the quality of the movie file (HD,DVDRip,Blueray rip etc], couchpotatto will look into popular torrentsites/NZB sites for the movie of your choice and automatically download the movie using the transmission bittorrent client, the movie.
So much said about the Pi and XBMC. Now lets move to the OS which I want to load in the Pi. Following were the options for me
- Xbian : Based on Raspbian and have a good support community. Currently in Beta.
- OpenElec: Already successful in other platforms (x86) and gives an appliance feel to the XBMC.
- Raspbmc: One of the first distro’s that came up when Pi was out. Only disadvantage is its not that stable compared to the others and only one single developer behind this,
I choose Xbian primarily based on the reviews as it was slightly faster than other distro’s.
- Raspberry Pi
- SD Card (I used a 16GB Class-10 Transcend Card)
- USB DAC (Optional, you can use the onboard sound if you are ok with the sound quality)
- An HDMI TV which supports HDMI CEC (Braviasync, LG Simplink, VierraConnect etc)
- A laptop/Desktop PC with a SD Card reader
- An android phone/tablet/ipad/iphone
- External hard disk which has all the movies/music.
- LAN Connectivity to Pi through a wireless router/any other means.
Since already the Xbian installation wiki is there I dont think I have to explain it here. Refer the below link for the Xbian Installation wiki.
XBMC User guide
If you are new to xbmc refer the XBMC quick start Wiki.
Adding Media to the Xbian
Connect the External USB hard disk to one of the free USB ports in the Pi. Note that if you are having a hard disk of 1 TB/more capacity its recommended to connect it via a powered USB hub as raspberry pi wont be able to give enough power to bring up the harddisk.
Notes: At the time of this writing, Xbian latest version was 1.1 beta and that somehow dont automatically show the USB hardisk in the XBMC menu. You have to go and manually add the folder from /media/. Hopefully this will be fixed in subsequent versions. For adding the folder in the XBMC (Refer http://wiki.xbmc.org/index.php?title=Quick_Start_Guide#Adding_videos_to_the_library )
Now enjoy the movie collection.
Custom Remote key mapping for LG TVs
Even though the HDMI CEC great for basic navigation and playback functionality, I noticed that there was no remote button for the right click/Conterxt menu in USB. This is a higly required one if you want to play lot of videos at once by adding it to play list or if you want to do some scrapper functionality(More of scrapper functionality can be found in the quick start guide). Xbmc uses a file called remote.xml which stores the keybindings for remotes and forunately I was able to get a keymap.xml file created for LG tv’s in one of the forums (I think its stmlabs forum). So thought of sharing the XML file here so that people having LG HDMI TV can make use of that. Currently as per the keymap file, the context menu is assigned to the fastforward button in the LG remote.Download the remote.xml and keep it in the folder ‘/home/xbian/.xbmc/userdata/keymaps/’
Get the remote.xml from this link
Some Commonly required shortcurts
To get XBMC ContextMenu Press the FastForward button when in Menu’s
To get the OSD (On screen Display) Press the FastForward button when playing a movie
To Fastforward Video, Press the right Arrow Key (this will skip slowly)
To FastForward a video but want to skip more portions then Press the UP Arrow key.
Installing Couchpotato/Sickbeard/headphones Add-ons for Xbian
Before starting with the installation, I will briefly touchup what these tools will do
- Sickbeard (For TV shows): This is a web application that automatically downloads your favourite/wanted TV shows as soon as it is available on torrent sites. As soon as a Show is aired, Sickbeard searches the torrent search sites and downloads the episodes which matches your desired video quality.
- Couchpotato (For Movies): This is almost the exact same type of service as Sickbeard, but this works with Movies. You put movies in your Wanted list and Couchpotato checks for releases in your desired quality and with the meta data, subs, trailers and so on, that you have asked for.
- Headphones (For Music): This is yet another web application, but this one takes care of Music Artists and Albums. You scan your library or add new artists, and Headphones keeps a lookout for new albums of your favorite artists.
- Transmission: Its a light weight bit-torrent client.
There are two ways for installing
- Follow the steps in http://www.xbian.org/2013/01/a-one-in-all-download-package/
- Do it manually (Courtesy: http://forum.xbian.org/thread-196.html)
SSH to the pi and issue the following commands
sudo apt-get update
sudo apt-get install xbian-package-transmission
sudo apt-get install xbian-package-headphones
sudo apt-get install xbian-package-couchpotato
sudo apt-get install xbian-package-sickbeard
Once the installation is done, Managing it is easy. Open a web browser on your laptop/tablet/minipc and enter the below
where x.x.x.x is the xbian IP.
Default username and password is xbian and raspberry respectively.
Setting up the same Pi which has Xbian as a Music player
The same Pi can be used as a audio source/music player by installing the following packages.
- Music Player Daemon (MPD) : This is a small program which acts as a music player server and can be controlled via a client
- Music Player Client (MPC) : MPC is a music player client which can connect to a MPD server and allow users to play,skip, add playlist etc. MPC can be installed on the Xbian itself, but then you need a ssh access to the Xbian shell and control via CLI which is difficult. So for that we use the below tool.
- MpDroid: Its a Music Player client for android/iphone/ipad/tablets. It has a good GUI and can be controlled from the phone or tablet. I personally use a 1st generation Nexus 7 for the same.
P.S: You may ask why I cant use XBMC itself for playing back audio. There are three reasons for that
- XBMC on Raspberry Pi as of now doesn’t support audio engine, so from XBMC you can’t direct the audio output to a external USB DAC.
- Due to the point 1 only option left is to play the audio through HDMI, but for that to happen my TV has to be turned on when ever I want to listen to audio.
Another alternative option is to use the analogue audio out in the Pi for both Audio and video. But that’s not a good quality one(Still I think its ok kind of thing for most of the people). But if you are specific to sound quality then MPD is the way to go.
Installing MPD on Xbian/Pi
Before installing MPD we need to install alsa-base and alsa-utils package. Issue the below command to install them
xbian$ sudo apt-get install alsa-base alsa-utils
Since already a great blog is there for the MPD installation and configuring it for a USB DAC. Please refer the audiohobby blog. Here is the link.
Note: In the audiohobby.com link, it hasn’t mentioned how to get which is the DAC device which we are having. It assumes its hw:0,0 . This can vary if you have the DAC connected to a USB hub. So below command will help you find that
xbian:~$ sudo aplay -l
**** List of PLAYBACK Hardware Devices ****
card 1: Device [Schiit USB Audio Device], device 0: USB Audio [USB Audio]
Subdevice #0: subdevice #0
So in My case also its hw0:0. What we need look is device and the subdevice numbers.
Now the remaining things are
- Install the MPDROID on the android phone/tablet/iphone/ipad (This I hope most of the people knows)
- Configure the MPDROID to connect to the Xbian IP
Go to settings in MPDRoid–>Connection Settings->Add the server IP. Put the Port number as default.
- Start Playing and enjoy
Controlling MPD using USB MCE remote
One of the problems with my above setup was that, you always need a tablet/smart phone/PC to play, pause or stop songs, which I felt is not good. So I decided to connect my unused Windows MCE (Media center Edition) remote to my PI to control the music play back.
Now you may ask why you need an MCE remote for the same when pi supports CEC, the reason is HDMI CEC works only when the TV is on and for music playback i dont want to turn on the TV, So I used the old MCE remote. I got the steps from the below sites and the credits goes to the owners of that thread/site
For Xbian I have summarized the steps below
“get rid of Lirc. Remove it from the default services.
install ir-keytables (apt-get install ir-keytables)
copy the appropriate keytable to /etc/rc_keytables
modify the keytable as you need – it creates keyboard events, so you can tailor your remote to the keys expected by xbmc.
add the command “ir-keytable -c -w /etc/rc_keytables/<your keytable>
And that’s it. It is simple, it survives reboots. It doe NOT require changing the lirc keyboard.xml”
Tips ‘N’ Tricks for Customizing Xbian
Note: All the below tweaks are collected from xbian forums and the credit goes to the original poster.
Changing the Xbian Boot Logo:
The steps to change splash logo are very simple and require no system edit / changes (simply no hacking).
1) Logo and supplemental graphics is under /usr/bin/splash.images as jpg files
2) change logo.jpg, start splash you will see result immediately
3) if ok, just run “sudo xbian-update-initramfs”
Workaround: check /boot/initramfs.gz.old, if is still in tact. rename it to /boot/initramfs.gz and try to boot.
Miscellaneous performance tweaks
- disable “Show RSS news feeds” in Settings>Appearance>Skin
- disable “Download actor thumbnails when adding to library” in Settings>Videos>Library
- disable “Extract thumbnail and video information” in Settings>Videos>File lists
- use the ip adres instead of server name
- disable “use dns lookup” in mysql settings
In this post I wanted to showcase my audio video setup and the reason why I chose those components. I hope it may help people looking to setup a decent htpc/audio system.
As a disclaimer I am neither an audiophile nor an expert in this area. I got introduced to all these equipments through multiple forums and websites and thought of sharing my experience.
- Wanted to have a decent audio system which is equally good for music and Movies.
- Not interested in multichannel speaker systems as I don’t want to run cables across my living room.
- Wanted to have a audio system which can take inputs from multiple audio sources and can switch between those inputs easily using a remote.
- Wanted to have a single remote to control all the devices as I don’t like a pile of remotes and don’t want to look around for the right remote when in need.
- Power consumption has to be low or devices should have some facility to turn off if not in use.
- Wanted to have HTPC (Home Theater PC) kind of device: Should support the great application called XBMC which gives a Menu based GUI which can be easily controlled using a remote and the addons which comes along with it.
- Wanted to stream Videos from my Android tablet to the TV so that I can watch it in the big screen.
- Wanted to redirect the audio of cable TV/Settopbox to the amplifier.
- Wanted a Decent CD/DVD/BD Player.
- Wanted a Turntable?Grampahone player as I had some old records.
- Display/TV: LG 32LD650 LCD TV (2010 Model, basic smart tv features, youtube, facebook etc. But I hate searching for videos using the smart tv interface in that model, that’s why I wanted some other device). This TV has 3 HDMI Ports, 1 audio optical digital out, 1 audio co-axial out, 1 3.5mm analogue audio out , 2 AV inputs and 1 VGA connector for connecting computers. It also has a builtin LAN port for smart TV features.
- Stereo Amplifier: Denon PMA-510AE (45w *2). I got a good deal for this amplifier and hence jumped on it before the offer was over. It has got 1 Phono input for turntables and 4 audio RCA inputs.
- Stereo Speakers: KEF Q100 Bookshelf Speakers. [Went for it as the India price was less than the International prices. I was eying on its big brother KEFQ300, but demo at the shop convinced me the other way which saved me some money as well
- Universal/All in one Remote: Logitech Harmony 300i. Up to 4 devices can be controlled using this one. It has a quite extensive database for different kind of remote controlled devices as well as it has a learning mode (If in case your device's model is not there in the harmony database, then you can make this remote learn its functions by placing the IR Sensors of the device remote and the Harmony remote face to face and then configure the required functions via the software client.)
- Low Powered XBMC/HTPC device: Raspberry Pi Model B. This is the heart of the Audio video setup. Raspberry Pi runs on very low power and it can be powered using a USB port and hence no need to turn off the device at all. I used an OS called XBIAN which is a debian based distro for raspberry PI which boots in to XBMC directly. I use XBMC only for movies and for audio playpack, I use MPD(media player daemon) which is a server app that can run on any linux (in my case xbian) and I use the MPC client in android called MPDROID(which is installed in my Nexus7) which can be used for selecting/searching/skipping playlists/artists. So for Music I will be using the high quality Schiit DAC and for movies I use the Fiio DAC.
- Powered USB Hub: Belkin 4 Port Powered USB hub. I bought this for 2 reasons. One being, raspberry pi wont be able to power a 1 TB/2TB USB HDDs if connected to its USB ports. So I needed a USB hub with external power adapter. Another reason is Raspberry pi comes with only 2 ports and I wanted to increase it. All my movies are stored in a Western Digital Passport 1TB USB HDD and that's connected to this hub
- USB DAC(Digital to Analogue Converter): Schiit Modi. Pronunciation is as you expected ..The reason why I bought this was the Onboard analogue audio out (3.5 mm Headphone out) in Raspberry pi is of very bad quality (this is what I read from reviews) and hence it cannot be used as a good music player. Since my requirement was to use it as audio and video player, I wanted good sound. So I went for this purely based on the positive reviews.
For people who are not aware of what a DAC the simple explanation I can think of is as follows. Most of the the motherboards or systems comes with a low quality audio chipset/DAC. This is to reduce the cost of the overall product, so for people who are looking for good quality audio, the workaround is to buy a external good quality DAC and use it. So this DAC will take the digital audio out from the Pi through a USB cable and then converts it to analogue and give it via a RCA Cable (which is the standard Red/Green wire). Now you may ask why can't we fed digital out directly to amplifier. The reason is most of the integrated amplifiers(including mine) takes only analogue inputs, so there should be some intermediary device which can convert digital audio signal to analogue audio signal.
Note: Currently XBMC on raspberry Pi as of now doesn't support audio through DAC's. So I cannot use this DAC for watching movies. Note that XBMC on a normal PC supports this. This is a limitation only for raspberry pi.
- Co-axial/Optical DAC : Fiio DAC.For this there are 2 reasons
1. As mentioned in my requirements I wanted to get the audio of my cable/Set top box through my amplifier. So for that why do I need a DAC? I should have directly connected the analog audio out from my set top box to one of the amplifier inputs. But I couldn't do that as I needed a back up plan where if my parent come I don't want them to worry about turning on amp and all these other stuffz to watch TV. So I wanted some way where both the video and audio connection directly connected to the TV and when I require I can turn on the amp and play it through the amp. For this I had two options, one which doesn't involve any cost and the other one which involves buying a DAC. First let me explain the method which doesn't involve any cost, My TV has a 3.5mm headphone out which I can connect to my one of the amplifier inputs. But the problem was that the sound coming from that was not good enough/ I didn't like it. So i took the second option and I was fortunate to have a TV with Digital Optical audio out. So Bought a optical/Coaxial DAC which will take the Digital optical audio out from my TV and converts it to analogue for the amplifier. This had one clear advantage I just need to sue the amplifiers volume control as when we take digital out, there is no audio processing which is done by the TV.
2. Second Reason was Raspberry Pi which is my HTPC has a HDMI port which I was using for connecting to TV. For people who doesn't know, if we use a HDMI port, then it can carry both AUdio and video signals, so we don't need to run separate cables for audio and video.(Apart from this there are other advantages as well). Using a single HDMI cable we can send both video and audio.And I wanted to watch movies from the raspberry pi and the sound has to come from amplifier. With HDMI alone the sound will come from the TV built in speaker and I didnt want that, So this little device helped me with that.
Now another argument/option which we can use is to buy a DAC which accepts both USB and optical/coaxial inputs. But good quality ones are very costly and I went for this approach as I wanted good quality in music than in movies. But I am very much happy for this purchase as the sound quality of this DAC is also excellent for the price.
- Blue-ray Player: Panasonic BD220. I wanted a decent CD player/Blueray/DVD player and this one was available in US for half the Indian price which prompted me to buy this. The decision was completely based on reviews as this was one of the best player which has a good audio chipset(DAC) built in. My friend Vijay Wilson has compared this with a ARCAM CD player costing 50K and he said that this player was a clear winner.
- Turntable/Gramaphone Player: Audio Technica AT-LP60.The reason for this was as I wanted to get the Nostalgia where I used to listen to the old Malayalam/German/English records which my Father used to play during my childhood days. Unfortunately I destroyed the old Gramaphone player(a german made one) when I started playing with the electronic stuffz. I bought this one also from US for a cheap price as in india the starting price itself is around 9K INR. Also for people who are planning to buy this, this one has a built in phono amp, so you can directly connect it to any amplifier or Home theatre in a box setup which can take an RCA input.
- Nexus7 Android Tablet: I use this for browsing as well as as my music player.
Software Tools used
- Xbian: Debian/Raspbian based OS which runs on raspberry PI. This has got XBMC package installed by default and boots in to XBMC.
- MPD & MPC : Media player Daemon and media player client for music playback.
- MPDROID: MPD client for android can used in phones or tablet.
- YATSE Remote: An android application which is a network based XBMC remote and allows playing videos from tablet to XBMC.
- Couchpotato: An automatic movie downloader.
- Sickbeard: An automatic tv-show downloader
- Headphones: An automatic music downloader
- Transmission: A light-weight bit torrent client.
A Block diagram representation of my audio video setup
Some Pics of my setup. Its a slideshow, click on the photo to pause or move.
Disadvantages of this setup
- Very difficult to set it up for a non-technical people.
- Old people or people who are not familiar with electronic gadgets will have a tough time to use this setup. (Especially the universal remote itself is difficult for people who haven’t heard about it. I always have to educate my parents on how to use it).
- Too much of cabling and devices involved which some people may not like.
- Currently all the OS’s which are released for raspberry pi are still undergoing optimizations, so its not very snappy/smooth interface when compared to a normal PC. But being used both I can confidently say that the delay/sluggishness is not that bad.
Advantages of this setup.
- All the advantages of XBMC and raspberry pi are valid here as well. I am not going to discuss all. The most important one for me is the user interface which XBMC provides, and the subtitle download functionality.
- Since the raspberry PI consumes very less power, it can be used as a torrent downloader as well as a NAS (Network Attached Storage) apart from the existing Audio & Video functionality.
- Using Yaste android app, you can send youtube videos/other videos/music to the raspberry pi/XBMC and thus can be viewed in the TV. Also this avoids the typing hassles using remote.
- Raspberry PI and XBIAN supports HDMI CEC, which means if you have a HDMI CEC TV(LG calls it as simplink, panasonic as Vierra connect and Sony as Bravia sync), you can use the TV remote to control the XBMC.
- Being an Ipod Nano owner I can say that raspberry Pi + SChiit Dac will any day beat ipod as a audio source and which means u get a decent audio source.