Tag Archives: high frame rate

HFR, New ‘Silver Screen’ and 2 Hobbit Projectors

Analytics for US Patent No. 7,898,734, Polarization preserving front projection screen by Coleman, David A;Sharp, Gary D

The Christie PR on the dual projector set up is at the end of this article for download.

Here are some interesting articles on HFR (High Frame Rate): 

Beyond DCI – The Need for New D-Cinema Standards – Rajesh Ramachandran, CTO of Qube

Setting Standards for High Frame Rate Digital Cinema – Creative COW

Setting Standards for High Frame Rate Digital Cinema PART 2 – Creative COW

Variable HFR (High Frame Rate) Film Blog #1 | S3D Centre

Q&A ON HFR 3D Peter Jackson answers with some details on S3D48

HFR, New ‘Silver Screen’ and 2 Hobbit Projectors

Analytics for US Patent No. 7,898,734, Polarization preserving front projection screen by Coleman, David A;Sharp, Gary D

The Christie PR on the dual projector set up is at the end of this article for download.

Here are some interesting articles on HFR (High Frame Rate): 

Beyond DCI – The Need for New D-Cinema Standards – Rajesh Ramachandran, CTO of Qube

Setting Standards for High Frame Rate Digital Cinema – Creative COW

Setting Standards for High Frame Rate Digital Cinema PART 2 – Creative COW

Variable HFR (High Frame Rate) Film Blog #1 | S3D Centre

Q&A ON HFR 3D Peter Jackson answers with some details on S3D48

Beyond DCI – The Need for New D-Cinema Standards

Those of us who create and manufacture digital cinema projection equipment face the challenge of knowing what standards to aim for as frame rates jump from 24 to 48, 60 and beyond. At 24 fps, the DCI-specified peak bit rate of 250 Mbps for the picture is satisfactory. It seems logical then that, by doubling the frame rate to 48, we also need to double the bit rate to 500. Indeed, the general industry direction for exhibiting 48 fps 3D material is leaning toward a bit rate of 450 Mbps, leaving some room for peaking to 500.

As we move toward HFR and its necessary twin, high bit rate (HBR), the whole production and exhibition chain must move in unison. Cameras, servers, IMBs and projectors all have to be modified and advanced to keep up with the necessary speeds. Nowhere is this more evident than in the giant screen venues, which require multiple synchronized projectors and servers that can handle high bit rates and high frame rates. As an industry facing change, we need to come to agreement on what is necessary and update the DCI and SMPTE specs for the D-cinema industry. Before we can, we need to address some technical issues, namely the need for HFR content to test, how to measure frame rate specs of equipment, and what to do with mixed content within the same show. An additional concern is the special needs of Giant Screen exhibition, namely servers capable of streaming 4K 3D data to dual synchronized projectors.

First, there is the problem that testing new equipment at high frame rates and high bit rates requires content. This won’t be an issue if filmmakers begin filming at 48 or 60 fps. We’re looking forward to The Hobbit presentations later this year to see the full potential of the media.

Another technical issue is the varied ways in which bit rate is measured. We saw at NAB and CinemaCon this year that most manufacturers of D-cinema projection equipment now stream 48 fps data at aggregate speeds of 500 Mbps. However, this does not necessarily mean that all the internal independent components within the JPEG 2000 codestream, each of which may have limitations, can run at bit rates of 500 Mbps. DCP providers need to be aware that these limitations exist when making decisions about mastering. We will need to ensure that manufacturers report both aggregate and component bit rates.

An interesting dilemma that has not yet been solved is what to do with content of different speeds played in the same show. Servers and projectors will behave differently when switching between content with different frame rates and this can lead to viewing problems. What if a 24 fps trailer is played before a 48 fps presentation of The Hobbit? We will need to hear from exhibitors and content owners about want they want to provide in terms of an acceptable user experience. The Inter-Society Digital Cinema Forum (ISDCF) is aware of this problem and has been conducting tests with various manufacturers and content owners involved.

One major limitation to implementing HFR stereo 3D that we have solved is that of moving data at sufficient speeds from server to projector. This has been accomplished by swapping the HD-SDI cable for an Ethernet connection, as well as embedding IMBs in projectors. IMBs have now become industry-standard equipment shipped with all servers, and a necessary part of any new spec. Coupled with improvements in Series 2 projectors, including image brightness, the IMB’s increased speeds will certainly enhance image quality and alleviate some of the viewer discomfort during stereo 3D projection.

How Qube handles these challenges

The Qube XP-I server is capable of a bit rate of 1 Gbps, while each Xi IMB can handle up to 500 Mbps, with no component bit rate limitation. This is in keeping with current storage throughput and image decoder specs. Qube servers have the same component and aggregate bit rates.

The Qube XP-I server and Xi IMB are capable of frame rates up to 120 fps per eye. This gives a frame rate of up to 240 fps for dual projection driven by a single server streaming a single DCP for stereo 3D.

Qube has also shown that exhibition of 4K 3D content on Giant Screens is possible from a single XP-I server, streaming data at 1 Gbps and 30 fps to dual synchronized ultra-bright projectors. This greatly enhances the 3D viewing experience at Giant Screen venues.

When updating digital cinema specifications, we should aim high with respect to HFR in anticipation of where filmmakers might go. In this way we will be future proofing the next set of standards.

Rajesh Ramachandran is the CTO of Qube Cinema.

Beyond DCI – The Need for New D-Cinema Standards

Those of us who create and manufacture digital cinema projection equipment face the challenge of knowing what standards to aim for as frame rates jump from 24 to 48, 60 and beyond. At 24 fps, the DCI-specified peak bit rate of 250 Mbps for the picture is satisfactory. It seems logical then that, by doubling the frame rate to 48, we also need to double the bit rate to 500. Indeed, the general industry direction for exhibiting 48 fps 3D material is leaning toward a bit rate of 450 Mbps, leaving some room for peaking to 500.

As we move toward HFR and its necessary twin, high bit rate (HBR), the whole production and exhibition chain must move in unison. Cameras, servers, IMBs and projectors all have to be modified and advanced to keep up with the necessary speeds. Nowhere is this more evident than in the giant screen venues, which require multiple synchronized projectors and servers that can handle high bit rates and high frame rates. As an industry facing change, we need to come to agreement on what is necessary and update the DCI and SMPTE specs for the D-cinema industry. Before we can, we need to address some technical issues, namely the need for HFR content to test, how to measure frame rate specs of equipment, and what to do with mixed content within the same show. An additional concern is the special needs of Giant Screen exhibition, namely servers capable of streaming 4K 3D data to dual synchronized projectors.

First, there is the problem that testing new equipment at high frame rates and high bit rates requires content. This won’t be an issue if filmmakers begin filming at 48 or 60 fps. We’re looking forward to The Hobbit presentations later this year to see the full potential of the media.

Another technical issue is the varied ways in which bit rate is measured. We saw at NAB and CinemaCon this year that most manufacturers of D-cinema projection equipment now stream 48 fps data at aggregate speeds of 500 Mbps. However, this does not necessarily mean that all the internal independent components within the JPEG 2000 codestream, each of which may have limitations, can run at bit rates of 500 Mbps. DCP providers need to be aware that these limitations exist when making decisions about mastering. We will need to ensure that manufacturers report both aggregate and component bit rates.

An interesting dilemma that has not yet been solved is what to do with content of different speeds played in the same show. Servers and projectors will behave differently when switching between content with different frame rates and this can lead to viewing problems. What if a 24 fps trailer is played before a 48 fps presentation of The Hobbit? We will need to hear from exhibitors and content owners about want they want to provide in terms of an acceptable user experience. The Inter-Society Digital Cinema Forum (ISDCF) is aware of this problem and has been conducting tests with various manufacturers and content owners involved.

One major limitation to implementing HFR stereo 3D that we have solved is that of moving data at sufficient speeds from server to projector. This has been accomplished by swapping the HD-SDI cable for an Ethernet connection, as well as embedding IMBs in projectors. IMBs have now become industry-standard equipment shipped with all servers, and a necessary part of any new spec. Coupled with improvements in Series 2 projectors, including image brightness, the IMB’s increased speeds will certainly enhance image quality and alleviate some of the viewer discomfort during stereo 3D projection.

How Qube handles these challenges

The Qube XP-I server is capable of a bit rate of 1 Gbps, while each Xi IMB can handle up to 500 Mbps, with no component bit rate limitation. This is in keeping with current storage throughput and image decoder specs. Qube servers have the same component and aggregate bit rates.

The Qube XP-I server and Xi IMB are capable of frame rates up to 120 fps per eye. This gives a frame rate of up to 240 fps for dual projection driven by a single server streaming a single DCP for stereo 3D.

Qube has also shown that exhibition of 4K 3D content on Giant Screens is possible from a single XP-I server, streaming data at 1 Gbps and 30 fps to dual synchronized ultra-bright projectors. This greatly enhances the 3D viewing experience at Giant Screen venues.

When updating digital cinema specifications, we should aim high with respect to HFR in anticipation of where filmmakers might go. In this way we will be future proofing the next set of standards.

Rajesh Ramachandran is the CTO of Qube Cinema.

File Festival Deliverables

Only a few years ago there were no festivals which offered to take DCPs (Digital Cinema Packages) as a regular item, then the big ones made the effort by making the DCPs from digital masters. Two years ago it was confusing and still uncommon for a DCP to be accepted, but rules were being set out and tested. This year it would be uncommon for a festival not to have a procedure for accepting a DCP.

But it is still a complicated process, for a lot of obvious and a lot of obscure reasons. The first question always seems to be, “Can’t I just deliver a QuickTime file? DCPs are soooo expensive.” The answer is: Yes you can. You can deliver something on tape as well, or an 8 bit DVD or 10 bit Blu Ray. (Oops! There is no 10 bit Blu Ray!!! only 8 bit.) You can introduce yourself in a suit that has been in mothballs for 10 years as well and give away 5 day old pre-buttered popcorn with your festival submission. But you don’t want to. The difference in quality between those and a correctly made DCP will be too striking, doing an injustice to your great plot and characters.

This will be the first in a series of festival information articles, and we start with a good package of data from Cine Tech Geek in the form of YouTube videos.

One last note before CineTech Geek’s great videos: DCinemaTraining.com would like to accept any materials to make a Film Festival Course. If you have interest in contributing, please write the editor of dcinematraining


James at CineTech Geek has been working as an integrator for cinemas in Australia, and also as a manufacturer and software engineer. His various websites are:

Company Site: DigitAll: http://www.digitall.net.au

YouTube – http://www.youtube.com/cinetechgeek

Personal Tech Blog – http://www.crafted.com.au/blog/

The clips begin with an ad for the digitAll dcpPlayer Version 2. If you are interested in DCPs, you should be interested in spending a mere $250 for a program that will allow you to play several formats of dcp. Previewing your work is a topic that will be fleshed out in a future article. Using a tool like this isn’t the same as trying out the DCP on the exact models of server and projector that is used in the festival, but it is an advisable start. In one of the videos, James shows a high frame rate 3D DCP playing through a portable computer.

This digitAll software is a Windows application, so it plays natively on a Windows PC, or on a speedy Mac with a virtual partition. (Either the free Apple Bootcamp, or VirtualBox from Sun (now Oracle), or systems from VMWare or Parallels (each about $79.)

One thing that James doesn’t bring up is the interface between bluray (and other consumer format) audio, which is different than most cinema theater set-ups, in many ways. Consider buying or renting the Gefen Inc EXT AVCINEMAAD A/V Cinema Scaler. You may think, “I don’t need a scaler.” In reality, if you are screening many different types of inputs, you probably will need a scaler. But the audio transitions between different consumer and professional deliverables are the real difficulty in interfacing. (James points out that those cinemas with a Dolby 750 Audio Processor will have the required audio interchange capability already. It should also be pointed out that Christie’s new SKA-3D is the latest iteration of Gefen’s everything to everything box. But we digress.)

On with the show(s):

Film Festival Deliverables: Part 1 Media

Film Festival Deliverables: Part 2 – On the Cheap

Fim Festival Devliverables: Part 3 – Film Producer

Film Festival Deliverables: Part 4 – Festival Producer

The presentation can also be found in PDF format at:

http://www.d-cine.net/cinetechgeek/FilmFestivalDeliverables.pdf

File Festival Deliverables

Only a few years ago there were no festivals which offered to take DCPs (Digital Cinema Packages) as a regular item, then the big ones made the effort by making the DCPs from digital masters. Two years ago it was confusing and still uncommon for a DCP to be accepted, but rules were being set out and tested. This year it would be uncommon for a festival not to have a procedure for accepting a DCP.

But it is still a complicated process, for a lot of obvious and a lot of obscure reasons. The first question always seems to be, “Can’t I just deliver a QuickTime file? DCPs are soooo expensive.” The answer is: Yes you can. You can deliver something on tape as well, or an 8 bit DVD or 10 bit Blu Ray. (Oops! There is no 10 bit Blu Ray!!! only 8 bit.) You can introduce yourself in a suit that has been in mothballs for 10 years as well and give away 5 day old pre-buttered popcorn with your festival submission. But you don’t want to. The difference in quality between those and a correctly made DCP will be too striking, doing an injustice to your great plot and characters.

This will be the first in a series of festival information articles, and we start with a good package of data from Cine Tech Geek in the form of YouTube videos.

One last note before CineTech Geek’s great videos: DCinemaTraining.com would like to accept any materials to make a Film Festival Course. If you have interest in contributing, please write the editor of dcinematraining


James at CineTech Geek has been working as an integrator for cinemas in Australia, and also as a manufacturer and software engineer. His various websites are:

Company Site: DigitAll: http://www.digitall.net.au

YouTube – http://www.youtube.com/cinetechgeek

Personal Tech Blog – http://www.crafted.com.au/blog/

The clips begin with an ad for the digitAll dcpPlayer Version 2. If you are interested in DCPs, you should be interested in spending a mere $250 for a program that will allow you to play several formats of dcp. Previewing your work is a topic that will be fleshed out in a future article. Using a tool like this isn’t the same as trying out the DCP on the exact models of server and projector that is used in the festival, but it is an advisable start. In one of the videos, James shows a high frame rate 3D DCP playing through a portable computer.

This digitAll software is a Windows application, so it plays natively on a Windows PC, or on a speedy Mac with a virtual partition. (Either the free Apple Bootcamp, or VirtualBox from Sun (now Oracle), or systems from VMWare or Parallels (each about $79.)

One thing that James doesn’t bring up is the interface between bluray (and other consumer format) audio, which is different than most cinema theater set-ups, in many ways. Consider buying or renting the Gefen Inc EXT AVCINEMAAD A/V Cinema Scaler. You may think, “I don’t need a scaler.” In reality, if you are screening many different types of inputs, you probably will need a scaler. But the audio transitions between different consumer and professional deliverables are the real difficulty in interfacing. (James points out that those cinemas with a Dolby 750 Audio Processor will have the required audio interchange capability already. It should also be pointed out that Christie’s new SKA-3D is the latest iteration of Gefen’s everything to everything box. But we digress.)

On with the show(s):

Film Festival Deliverables: Part 1 Media

Film Festival Deliverables: Part 2 – On the Cheap

Fim Festival Devliverables: Part 3 – Film Producer

Film Festival Deliverables: Part 4 – Festival Producer

The presentation can also be found in PDF format at:

http://www.d-cine.net/cinetechgeek/FilmFestivalDeliverables.pdf

HFR-S3D Post SMPTE/CinemaCon Hobbit

Your analogy Michael, of going from standard definition to high definition or from VHS to DVD is a good one, but it doesn’t inform one of how it is similar. It is not that there are more pixels, it is that more pixels are able to be a discernible part of the picture…or can be if the director chooses. Another analogy would be to say that there is more depth of field, but instead of talking about the amount of available focus behind the point of focus, we get more ability to focus in front of the point of focus. Normally all that area in front is not only out of focus, but during any kind of motion in the scene or the camera, there is a smearing that contributes to destroying contrast in the picture. It is also very tiring for the eyes.

Cameron’s demonstration a year ago at CinemaCon made use of sword fighting and sweeping the camera around a fairly large room. The most vivid shot that allowed the technology to prove itself was a long, medium speed pan of several actors and actresses sitting at a long table with food and candles in front of them. There was also another set of actors whose backs were to us, so we’d see the back of their heads, with the view of the candles going in and out. At 24 frames per second (fps) the scene was typical, in-focus faces and quasi-focused candle flames with smeared blurs of the actors backs in front. At 48 frames per second, the smearing left. It wasn’t so important that the backs of these heads and shoulders were in focus, but that the smearing was gone so the discernible luminance of the scene increased – loosely, more contrast means colors and more colors means more natural feeling. The candle flames were brighter without being any more in focus.

Now I will bring 3D into the conversation and tell you that you are wrong Michael. 3D is not just a gimmick, and not just another tool. In fact, each picture that we see has dozens of clues of dimensionality without the parallax clues that stereoscopy brings. Everything from colors fading as we see them in the distance, to a fuzziness at the intersection of two objects (notice the shoulders compared to their background) to comparative sizes and not seeing a person’s legs when a table is in front of them, all tell the human visual system of eyes and brain and mind that there is a third dimension in the scene we are looking at. On the other hand, my guess is that most technical people in the business generally dislike the current implementations of Stereoscopic 3D, but for reasons that don’t have to do with the ugliness of the glasses or the upcharge or whether a well written scene could have served just as well. Most dislike it because even with the inherent horrors of the combination of high gain and silver screens (each with their own set of insurmountable problems), there isn’t enough light to do the process justice. And again, less light means more in-the-mud colors and fewer colors overall, especially whites and the light subtle colors that we normally use to discern subtle things.

I also was not a fan of S-3D until I saw the ‘dimensionalization’ of the final scene of Casablanca. I thought it was marvelous. It was on the other side of compelling. It was as if there needed to be an excuse to leave out the parallax. That doesn’t make badly shot or poorly dimensionalized S-3D OK, but it does make any S-3D ‘Not Ready for Prime Time’ when it isn’t then presented correctly – and that mostly has to do with the amount of light from the screen to the eyes. Which brings us back to High Frame Rates.

There was a two day set of SMPTE seminars dealing with digital cinema before NAB, which was the week before CinemaCon. Several thousand engineers got full geek treatment with an hour of ‘why lasers in the projector’ then seeing 6 minutes of demonstrations of Sony projectors with retrofit Laser Light Engines, Inc.’ laser systems, and 40 minutes on the various problems that high frame rates bring to the post production workflow, then 20 minutes of presentation from a technical representative from Peter Jackson’s team who explained some technical considerations of HFR.

There is a commonly held misconception that 24 frames per second was chosen because testing determined that this speed had something to do with the natural flutter rate of the eyes. In fact, 24 fps was chosen because it brought a movies sound to the point where it was not horrible. Similarly, there is some magic above 50 something fps and as we also learned (while Sperling was at Coachella missing the SMPTE event), there are potential problems to be wary of at 48 frames per second, demonstrated by Dr. Marty Banks of Cal Berkeley. So…

To answer one of your questions Michael, 48 frames was chosen at the time because they weren’t certain if equipment manufacturers would be able to get a working high frame rate system available by the time that The Hobbit was going to be released. But anyone who reads the trades most certainly knows that frame rates up to 60 have been in the specifications and doable since Series II projectors became available from Texas Instruments. Ah! but not in S-3D. As Sperling pointed out, this requires “in the projector” electronics to be fitted (or retrofitted) and a whole new way of thinking servers for the projector. An example: Sony announced to their 13,000 customers – give us $3,000 and we will retrofit your software to do S3D-HFR.

Going back though, to the demonstrations that Cameron did a year ago. In addition to 48fps S3D – which got rid of the front of focus blur – there were also identical shots taken at 60fps S3D. They were less WOW! but still importantly beneficial. Because of time constraints and the fact that we were sitting among Cameron’s other several thousand friends in the auditorium, there wasn’t a lot of time to look at these shots, but they reminded me of the arguments that George Massenburg made in a famous 3 part article entitled Lace and Filigree, written during audio’s transition to digital in the mid-80’s. There is something special as the speed improves akin to the benefits of increasing signal to noise in its various forms. Perhaps it all serves to put technology into the sphere of philosophy where it belongs. It certainly reminds us that all technology involves the art of compromise.

Last short aside, during the SMPTE event with the HFR panelists still on stage. One engineer came to the open mic and made a statement about government S3D skunkwork experiments that he had been part of which indicated that there was something that ‘popped’ at 53 fps and wondered if anyone else had run into that phenomena. The chair answered with a few speculations then expressed regret that Douglas Trumbull wasn’t there to give insights to his experiments in the field, since he not only had the longest record of making high frame rate movies but just opened a new digital high frame rate studio that has made several technical break-thoughs. And just like the Annie Hall/Marshall McLuhan moment, Doug came to the mic and added a few quips… OK; so that’s all we geeks get for high-level entertainment.

Keep up the good work. I enjoy the show and don’t begrudge any extra minutes you take to get all the interesting news of the week to us.

[Author’s salutations]

References:

 

High Frame Rates – The New Black, Getting to Speed

Combine 3, Drop 2, 120 becomes 24

 

HFR-S3D Post SMPTE/CinemaCon Hobbit

Your analogy Michael, of going from standard definition to high definition or from VHS to DVD is a good one, but it doesn’t inform one of how it is similar. It is not that there are more pixels, it is that more pixels are able to be a discernible part of the picture…or can be if the director chooses. Another analogy would be to say that there is more depth of field, but instead of talking about the amount of available focus behind the point of focus, we get more ability to focus in front of the point of focus. Normally all that area in front is not only out of focus, but during any kind of motion in the scene or the camera, there is a smearing that contributes to destroying contrast in the picture. It is also very tiring for the eyes.

Cameron’s demonstration a year ago at CinemaCon made use of sword fighting and sweeping the camera around a fairly large room. The most vivid shot that allowed the technology to prove itself was a long, medium speed pan of several actors and actresses sitting at a long table with food and candles in front of them. There was also another set of actors whose backs were to us, so we’d see the back of their heads, with the view of the candles going in and out. At 24 frames per second (fps) the scene was typical, in-focus faces and quasi-focused candle flames with smeared blurs of the actors backs in front. At 48 frames per second, the smearing left. It wasn’t so important that the backs of these heads and shoulders were in focus, but that the smearing was gone so the discernible luminance of the scene increased – loosely, more contrast means colors and more colors means more natural feeling. The candle flames were brighter without being any more in focus.

Now I will bring 3D into the conversation and tell you that you are wrong Michael. 3D is not just a gimmick, and not just another tool. In fact, each picture that we see has dozens of clues of dimensionality without the parallax clues that stereoscopy brings. Everything from colors fading as we see them in the distance, to a fuzziness at the intersection of two objects (notice the shoulders compared to their background) to comparative sizes and not seeing a person’s legs when a table is in front of them, all tell the human visual system of eyes and brain and mind that there is a third dimension in the scene we are looking at. On the other hand, my guess is that most technical people in the business generally dislike the current implementations of Stereoscopic 3D, but for reasons that don’t have to do with the ugliness of the glasses or the upcharge or whether a well written scene could have served just as well. Most dislike it because even with the inherent horrors of the combination of high gain and silver screens (each with their own set of insurmountable problems), there isn’t enough light to do the process justice. And again, less light means more in-the-mud colors and fewer colors overall, especially whites and the light subtle colors that we normally use to discern subtle things.

I also was not a fan of S-3D until I saw the ‘dimensionalization’ of the final scene of Casablanca. I thought it was marvelous. It was on the other side of compelling. It was as if there needed to be an excuse to leave out the parallax. That doesn’t make badly shot or poorly dimensionalized S-3D OK, but it does make any S-3D ‘Not Ready for Prime Time’ when it isn’t then presented correctly – and that mostly has to do with the amount of light from the screen to the eyes. Which brings us back to High Frame Rates.

There was a two day set of SMPTE seminars dealing with digital cinema before NAB, which was the week before CinemaCon. Several thousand engineers got full geek treatment with an hour of ‘why lasers in the projector’ then seeing 6 minutes of demonstrations of Sony projectors with retrofit Laser Light Engines, Inc.’ laser systems, and 40 minutes on the various problems that high frame rates bring to the post production workflow, then 20 minutes of presentation from a technical representative from Peter Jackson’s team who explained some technical considerations of HFR.

There is a commonly held misconception that 24 frames per second was chosen because testing determined that this speed had something to do with the natural flutter rate of the eyes. In fact, 24 fps was chosen because it brought a movies sound to the point where it was not horrible. Similarly, there is some magic above 50 something fps and as we also learned (while Sperling was at Coachella missing the SMPTE event), there are potential problems to be wary of at 48 frames per second, demonstrated by Dr. Marty Banks of Cal Berkeley. So…

To answer one of your questions Michael, 48 frames was chosen at the time because they weren’t certain if equipment manufacturers would be able to get a working high frame rate system available by the time that The Hobbit was going to be released. But anyone who reads the trades most certainly knows that frame rates up to 60 have been in the specifications and doable since Series II projectors became available from Texas Instruments. Ah! but not in S-3D. As Sperling pointed out, this requires “in the projector” electronics to be fitted (or retrofitted) and a whole new way of thinking servers for the projector. An example: Sony announced to their 13,000 customers – give us $3,000 and we will retrofit your software to do S3D-HFR.

Going back though, to the demonstrations that Cameron did a year ago. In addition to 48fps S3D – which got rid of the front of focus blur – there were also identical shots taken at 60fps S3D. They were less WOW! but still importantly beneficial. Because of time constraints and the fact that we were sitting among Cameron’s other several thousand friends in the auditorium, there wasn’t a lot of time to look at these shots, but they reminded me of the arguments that George Massenburg made in a famous 3 part article entitled Lace and Filigree, written during audio’s transition to digital in the mid-80’s. There is something special as the speed improves akin to the benefits of increasing signal to noise in its various forms. Perhaps it all serves to put technology into the sphere of philosophy where it belongs. It certainly reminds us that all technology involves the art of compromise.

Last short aside, during the SMPTE event with the HFR panelists still on stage. One engineer came to the open mic and made a statement about government S3D skunkwork experiments that he had been part of which indicated that there was something that ‘popped’ at 53 fps and wondered if anyone else had run into that phenomena. The chair answered with a few speculations then expressed regret that Douglas Trumbull wasn’t there to give insights to his experiments in the field, since he not only had the longest record of making high frame rate movies but just opened a new digital high frame rate studio that has made several technical break-thoughs. And just like the Annie Hall/Marshall McLuhan moment, Doug came to the mic and added a few quips… OK; so that’s all we geeks get for high-level entertainment.

Keep up the good work. I enjoy the show and don’t begrudge any extra minutes you take to get all the interesting news of the week to us.

[Author’s salutations]

References:

 

High Frame Rates – The New Black, Getting to Speed

Combine 3, Drop 2, 120 becomes 24

 

500Mbps Good Enough Tests

hfr test logo image mattersMany eyes and many tests later, the specifications for quality digital cinema playback was decided upon by the community. Then, in the spirit of ‘good enough’, Stereoscopic 3D quality problems were ignored. And more recently, it appears that High Frame Rate (HFR) and in particular HFR S3D is moving like an unexamined juggarnaut into the future.

At the SMPTE event last month held in conjunction with NAB, Dr. Marty Banks tossed some landmines into the Knowledge Base. Then one of the people who did tests that made the 48 frame per second decision for the Hobbit gave their historical view. His bombshell was that 48 was chosen because it wasn’t known whether (enough…any?) hardware manufacturers  could come to the plate with working equipment by the time of the release in late 2012.

One part of the DCI and SMPTE and ISO Specification for D-Cinema is a 250Mbps interface between the projector and the media player. In the early days this meant the link from the server, but since Series II TI systems capable of running 4K material (and all systems from Sony), this means an internal media block.

[Update: Qube announced at CinemaCon that their IMB supplies a 1Gig stream to the projector. A quick scan of the interwebz and the memory of other visits at CinemaCon puts the rest of the manufacturers at 500Mbps.]

24 frames per second times 2…OK, let’s double the Mbps into the projector…500Mbps is the bar that seems to be accepted wisdom for ‘good enough’ 48 frames per second stereoscopic 3D material, such as The Hobbit. Anyone got a problem with that? Answer: Who could? No one really has varied sources of material or even firm software to test it with.

Enter the new company image-matters. They have assembled equipment that will be able to show material at speeds above and below 1Gbps. They will show this at 6 cities around the world for the next 6 months. People will look and talk.

Here is the link for the press announcement:

High Frame Rate & High Bit Rate Test Equipment and Test Series

April 14, 2012, NAB Show, Las Vegas, for immediate release.

Image Matters, intoPIX, MikroM and Virident collaborate beyond the state of the art. The target is a series of tests on June 7 and 8 2012 in Burbank CA, coordinated by Michael Karagosian of MKPE Consulting, and cinematographers Kommer Kleijn SBC and David Stump ASC, as co-chairs of the SMPTE 21DC Study Group for Higher Frame Rates.

These tests will be conducted in collaboration with studios and the creative community. They will measure the minimum JPEG 2000 codestream bit rate requested by high frame rate content to reach the visually lossless quality demanded by digital cinema applications.

The experimental equipment set will enable playback of JPEG 2000 codestream bit rate higher than 1 Gbps (i.e. more than 4 times the current DCI specification). The decoded 2K images will be transmitted to a single projector at a frame rate of up to 120 fps (i.e. 60 fpe for Stereoscopic 3D content).

In order to speed up the test process and to allow the easy production of multiple encoding flavours, the equipment set will also be capable of encoding high frame rate content from uncompressed files in near real-time.

The assembled equipment will consist of one server incorporating 4 Virident FlashMAX boards and one intoPIX JPEG 2000 PRISTINE-P4 board. The PRISTINE will playback the decoded codestream on four 3G SDI links to the MikroM IMB inserted into the projector. The MikroM’s IMB will receive the four 3G-SDI links and pass the uncompressed image data directly to the projector backplane. Image Matters will insure project coordination and integration.

The integration has enough headroom to allow, on request, multiple equipments to be combined to achieve higher bit rates and/or higher frame rates.

Storage

  • Four 1.4 TB Virident FlashMAX MLC cards: 
    • total capacity of 5.6TB
    • total read bandwidth of 5.2 GB/s
    • total write bandwidth of 2.2GB/s on XFS file system.
  • Each Virident card has: 
    • a half height and half length form factor
    • a PCIe x8 Gen1 bus • power consumption of 25 W
    • a sustainable random read of 1,3 GB/s

JPEG 2000 Encoding/decoding

  • One intoPIX PRISTINE P4 board
    • 2K & 4K JPEG2000 decoder FPGA IP-cores
    • high frame rates capacity: up to 120 Fps
    • high bitrate capacity: up to 1 Gbps
    • four 3G-SDI outputs
    • one Genlock input
    • One MikroM Integrated MediaBlock MVC 201
      • four 3G-SDI input
      • Formatting and pass through of uncompressed image data
      • Up to 120 2K fps

      Information

      Please contact Jean-François Nivart
      [email protected]
      +32 495 23 00 08

      About Image Matters

      Image Matters offers innovative hardware and software modules for professional image and sound handling. This new venture helps OEMs, integrators and end-users to develop advanced imaging systems and applications easily and quickly.

      More information on www.image.matters.pro

      About intoPIX

      intoPIX is a leading supplier of image compression technology to audiovisual equipment manufacturers. We are passionate about offering people a higher quality image experience and have developed FPGA IP cores that enable leading edge JPEG 2000 image compression, security and hardware enforcement. Achieving a major breakthrough in digital cinema, intoPIX has achieved a leading position in the professional image compression industry based on the JPEG 2000 standard. More information on our company, customers and products can be found on www.intopix.com

      Interested in HFR technology? Contact Gael Rouvroy, intoPIX C.T.O. – [email protected] – +32479774944

      About MikroM

      MikroM is a leading design house and provider of state-of-the-art audio/video technologies for selected professional markets. The portfolio covers silicon-proven IPs, ASICs, PCBs and Systems in combination with professional design services. With a variety of products and services MikroM focus on application-specific and reliable solutions for system integrators and OEMs in quality-driven markets as HD Broadcast, Digital Cinema and Advertisement/Presentation.

      About Virident

      Virident Systems’ professional Storage Class Memory (SCM) solutions deliver unconditional consistent performance that supports the most data-intensive content and applications. Virident Systems is backed by strategic investors, Intel®, Cisco® Systems and a leading storage hardware and software solutions provider as well as venture investors Globespan CapitalPartners, Sequoia Capital, and Artiman Ventures. For more information visit www.virident.com.

      References:

      High Frame Rates – The New Black, Getting to Speed

      HFR-S3D Post SMPTE/CinemaCon Hobbit

      Combine 3, Drop 2, 120 becomes 24

500Mbps Good Enough Tests

hfr test logo image mattersMany eyes and many tests later, the specifications for quality digital cinema playback was decided upon by the community. Then, in the spirit of ‘good enough’, Stereoscopic 3D quality problems were ignored. And more recently, it appears that High Frame Rate (HFR) and in particular HFR S3D is moving like an unexamined juggarnaut into the future.

At the SMPTE event last month held in conjunction with NAB, Dr. Marty Banks tossed some landmines into the Knowledge Base. Then one of the people who did tests that made the 48 frame per second decision for the Hobbit gave their historical view. His bombshell was that 48 was chosen because it wasn’t known whether (enough…any?) hardware manufacturers  could come to the plate with working equipment by the time of the release in late 2012.

One part of the DCI and SMPTE and ISO Specification for D-Cinema is a 250Mbps interface between the projector and the media player. In the early days this meant the link from the server, but since Series II TI systems capable of running 4K material (and all systems from Sony), this means an internal media block.

[Update: Qube announced at CinemaCon that their IMB supplies a 1Gig stream to the projector. A quick scan of the interwebz and the memory of other visits at CinemaCon puts the rest of the manufacturers at 500Mbps.]

24 frames per second times 2…OK, let’s double the Mbps into the projector…500Mbps is the bar that seems to be accepted wisdom for ‘good enough’ 48 frames per second stereoscopic 3D material, such as The Hobbit. Anyone got a problem with that? Answer: Who could? No one really has varied sources of material or even firm software to test it with.

Enter the new company image-matters. They have assembled equipment that will be able to show material at speeds above and below 1Gbps. They will show this at 6 cities around the world for the next 6 months. People will look and talk.

Here is the link for the press announcement:

High Frame Rate & High Bit Rate Test Equipment and Test Series

April 14, 2012, NAB Show, Las Vegas, for immediate release.

Image Matters, intoPIX, MikroM and Virident collaborate beyond the state of the art. The target is a series of tests on June 7 and 8 2012 in Burbank CA, coordinated by Michael Karagosian of MKPE Consulting, and cinematographers Kommer Kleijn SBC and David Stump ASC, as co-chairs of the SMPTE 21DC Study Group for Higher Frame Rates.

These tests will be conducted in collaboration with studios and the creative community. They will measure the minimum JPEG 2000 codestream bit rate requested by high frame rate content to reach the visually lossless quality demanded by digital cinema applications.

The experimental equipment set will enable playback of JPEG 2000 codestream bit rate higher than 1 Gbps (i.e. more than 4 times the current DCI specification). The decoded 2K images will be transmitted to a single projector at a frame rate of up to 120 fps (i.e. 60 fpe for Stereoscopic 3D content).

In order to speed up the test process and to allow the easy production of multiple encoding flavours, the equipment set will also be capable of encoding high frame rate content from uncompressed files in near real-time.

The assembled equipment will consist of one server incorporating 4 Virident FlashMAX boards and one intoPIX JPEG 2000 PRISTINE-P4 board. The PRISTINE will playback the decoded codestream on four 3G SDI links to the MikroM IMB inserted into the projector. The MikroM’s IMB will receive the four 3G-SDI links and pass the uncompressed image data directly to the projector backplane. Image Matters will insure project coordination and integration.

The integration has enough headroom to allow, on request, multiple equipments to be combined to achieve higher bit rates and/or higher frame rates.

Storage

  • Four 1.4 TB Virident FlashMAX MLC cards: 
    • total capacity of 5.6TB
    • total read bandwidth of 5.2 GB/s
    • total write bandwidth of 2.2GB/s on XFS file system.
  • Each Virident card has: 
    • a half height and half length form factor
    • a PCIe x8 Gen1 bus • power consumption of 25 W
    • a sustainable random read of 1,3 GB/s

JPEG 2000 Encoding/decoding

  • One intoPIX PRISTINE P4 board
    • 2K & 4K JPEG2000 decoder FPGA IP-cores
    • high frame rates capacity: up to 120 Fps
    • high bitrate capacity: up to 1 Gbps
    • four 3G-SDI outputs
    • one Genlock input
    • One MikroM Integrated MediaBlock MVC 201
      • four 3G-SDI input
      • Formatting and pass through of uncompressed image data
      • Up to 120 2K fps

      Information

      Please contact Jean-François Nivart
      [email protected]
      +32 495 23 00 08

      About Image Matters

      Image Matters offers innovative hardware and software modules for professional image and sound handling. This new venture helps OEMs, integrators and end-users to develop advanced imaging systems and applications easily and quickly.

      More information on www.image.matters.pro

      About intoPIX

      intoPIX is a leading supplier of image compression technology to audiovisual equipment manufacturers. We are passionate about offering people a higher quality image experience and have developed FPGA IP cores that enable leading edge JPEG 2000 image compression, security and hardware enforcement. Achieving a major breakthrough in digital cinema, intoPIX has achieved a leading position in the professional image compression industry based on the JPEG 2000 standard. More information on our company, customers and products can be found on www.intopix.com

      Interested in HFR technology? Contact Gael Rouvroy, intoPIX C.T.O. – [email protected] – +32479774944

      About MikroM

      MikroM is a leading design house and provider of state-of-the-art audio/video technologies for selected professional markets. The portfolio covers silicon-proven IPs, ASICs, PCBs and Systems in combination with professional design services. With a variety of products and services MikroM focus on application-specific and reliable solutions for system integrators and OEMs in quality-driven markets as HD Broadcast, Digital Cinema and Advertisement/Presentation.

      About Virident

      Virident Systems’ professional Storage Class Memory (SCM) solutions deliver unconditional consistent performance that supports the most data-intensive content and applications. Virident Systems is backed by strategic investors, Intel®, Cisco® Systems and a leading storage hardware and software solutions provider as well as venture investors Globespan CapitalPartners, Sequoia Capital, and Artiman Ventures. For more information visit www.virident.com.

      References:

      High Frame Rates – The New Black, Getting to Speed

      HFR-S3D Post SMPTE/CinemaCon Hobbit

      Combine 3, Drop 2, 120 becomes 24

ShowEast [Update]: HFR, 3D Sound, HI/VI Glasses, Test Tools and Duqu

In a clever move, Christie took the URL highframerate.com – It now points to a story on their site: Expect a higher standard- higher frame rates. They tell the hyped part of the story, and don’t tell any of the grusome details like, how is the technology going to get there? what standards are going to need to change? How many of these standards are going to be backwards compatable? But it is good to see an effort to educate their audience.

What we can glean is that Christie now has their own internal media block and screen management system for their projectors. We’ll post the PR for you to read yourselves. When people start touting “Future Proof Your Long Term Investment”, it might be read as “We haven’t paid attention to this before, but we have nailed it now!”

| | | | | | | | |

Barco has two facilities with their new Auro 3D Sound system now…one in Moscow and a new one in Antwerp at Kinepolis. Barco announced IMB/SMS integration at CineEurope.

That makes a lot of parties interested in selling IMBs. We seem to remember a ShoWest that <3 letter company> secretly showed a network panel and IMB that would do the same over a high speed network several years ago…and everyone said it was too early to talk about. We also remember Laser Light Engine’s Bill Beck describing the vision of fibre running from an engineering room to some DLP chips and a lens at the port hole back in 2004. Looks like the time is going to be here before we know it.

| | | | | | | | |

[Update] USL has just released some new information about their new IMB, which will be used for several of the demonstrations of HFR at ShowEast – The input is 500 Megabits per second, twice the DCI spec datarate of 250 for a DCP. It will push to the projector the data rate of just over 10 Gigabits per second, displaying 60 fps stereoscopic 2K (2048×1080), 12 bit JPEG 2000 color plates. An interested party describes it as absolutely stunning.

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Sony showed the incredible Closed Caption glasses at CinemaCon – then the project went into silent mode. They were working with the USL system (speaking of 3 letter companies), which is the gold standard in the market for several reasons; the first being what was mentioned before – they did a good job of evolving their product line so that a client could upgrade without throwing away their current product.

USL also invested heavily to get people noticing the the closed caption space in general, and the glasses idea in particular. They showed them at plugfests and conventions for a few years, and really invested the time for the industry and client’s benefit.

Closed Caption in glasses is a big deal. Other solutions work, like the small screens that fit into popcorn holders. But they seperate the kids who can’t from the kids who can’t…and we all know how kids are. So a product that allows people with impairments, but who can read, now have a pair of glasses available that don’t look bizarre. The effect of placing the words out in the distance is great, so that they don’t have to keep changing focus. There are many questions to follow-up on, and we are expecting a call with Sony immenently – it sure looked as if USL was going to be able to incorporate the Sony technology into their sales flow, so it could be the best of both worlds.

| | | | | | | | |

Harkness has an announcement that is under embargo until Monday and USL has a rumored announcement. Both show a certain maturity to the industry, and just in time. Several cinematographers have measured light levels in hundreds of cinemas around the world and found deplorable circumstances. One got the impression that, until recently, putting any impediments like quality in the stream would be too much for the industry to bear. In the next update we will have links to articles that are embargoed for pre-release, but the potential for Quality Control takes a couple steps forward at ShowEast.

===>> So now it can be revealed. Hopefully we will get more news as the product matures toward release, which is promised to be early next year.

Like IMBs above, the topic of test tools deserves a full article. Doremi has a new product in test, USL has a new product in test, Harkness has a new product in test, Digital Test Tools has a new product in test. Perhaps the industry is ready for a good examination of luminance on the screen.

The Harkness product is called a Digital Screen Checker, and looks like this.

Harkness Screen Checker
Just what the doctor ordered, though we don’t know much about it. What is the price? What corrolation does it have with a NIST certified device? The viewfinder window leaves some confusion in our simple minds. And is this a plot to impose Foot Lamberts on the other 96% of the world that uses the ISO standard unit of candelas per meter.

On/Off us interesting on something that looks like a USB device. But maybe it is also battery powered? Does the USB aspect imply some database and/or network capability?

The press release is attached at the bottom of this document.

 


USL is also in the process of introducing its LSS-100 Light and Sound Sensor. This product is based upon our 2006 design which combined proprietary luminance and audio level measuring technologies. Their other products in this field are pretty inclusive so, like the Harkness device we look forward to seeing people actually use these devices to make the audience experience more like the director’s intent.USL LSS100


One thing that won’t be talked about at ShowEast is Stuxnet and its new evolution, Duqu. Why would the dcinema industry need to concern itself with a virus that randomly attempts to get into any network to find out information about machine control? We present the link above without comment.