Cinegear and Samy’s 3D workshop.

Manfrotto Booth at Cinegear

Hello from Culver City, LA. I spent most of this week up in Hollywood showing of the Genus Hurricane 3D rig on the Manfrotto booth at Cinegear. It’s the first time I have ever gotten sun burnt at a trade show! Most of the show is outside on a back lot at Paramount Studios and the weather was just beautiful. The booth was swamped most of the time, sadly not because I was selling lots of 3D rigs but because we were giving away free ice cream! As usual there was good interest in the rig and it was good to meet some of the people already out there shooting stuff with it. I took a little bit of time out to go and mooch around the show… I’ve never seen so many sliders in one place, almost every booth appeared to have one! I also got a sneak peak at the new Cineroid EVF with HDSDi inputs. Looks promising and it’s made of metal rather than plastic so has a very robust feel.

 

Genus Elite Matte Box

Genus were also showing their new Elite matte box which can take 5.65 x 5.65 filters as well as 4 x 4 and 5 x 5. It comes with a nice folding top flag as well as side flags. If you need a matte box for bigger lenses and bigger filters you should definitely take a look. The build quality is very good. Another nifty Genus product is the new lens support bracket for 15mm rods. This can support long or heavy lenses and has a 1/4″ screw to bolt to the lens or a pair of rollers that will support a big lens allowing the focus ring to rotate even if the lens does not have a proper attachment point. Clever stuff! Hopefully I will be able to get one to review properly (and the matte box).

Genus Lens Support for 15mm rods.

Today I was at Samy’s Camera in Culver City running the first day of a 2 day 3D workshop. It was really busy with some well know DoP’s in attendance including Geoff Boyle, I think we had about 50 students in total. It was a fun day (apart from an LG 3D TV that refused to play ball), with some very intelligent questions being asked by the group. Tomorrow we have the second more advanced part of the course with a slightly smaller group. As soon as the class finishes I’m dashing off to the airport to fly to London to meet a courier with my  F3 camera kit and then on to Berlin to shoot the Duran Duran gig at the Tempodrom on Wednesday.

What do you think of the new look to the website? I was getting bored with the old look. This is a little more interesting. Any issues or problems do let me know. Coming soon I will have a review of the Vinten 100 tripod head (big thumbs up) and a SxS to SD adapter card from Sonnet, plus hopefully the full Duran Duran story.

Details of free and paid firmware updates for PMW-F3

From the Sony Cinealta Web Site

With respect to the PMW-F3 firmware updates which should be available any day now:

The following features are free of charge:

  • Dual Link HD-SDI output
  • 4:2:2 10bit 1080  23.98/ 25/ 29.97PsF*
    • *1080  59.94i and 50i are already available with V1.00.
    • SxS software key installation for CBK-RGB01 and CBK-3DL01.
    • Planning metadata functionality same as PMW-350 V1.30 except Wi-Fi.
    • Simultaneous HD-SDI and HDMI output (menu setting)
    • Ability to use the S & Q dial for menu setting (same as jog dial on the rear panel).
    • Display the signal format of the Dual Link output on the STATUS window.
    • In Thumbnail mode, vertical navigation of the cursor is now possible
    • TC output follows the internal Timecode Generator (TCG).
    • One-click adjustment of Peaking, Brightness and Contrast of the LCD/EVF.

The following features are activated with the CBK-RGB01 optional cost-based software key:

  • RGB4:4:4 10bit, 1080  23.98/ 25/ 29.97PsF output on the Dual Link HD-SDI or 3G-SDI.
  • S-LOG Gamma output on the Dual Link or 3G-SDI.
  • Switching HD-SDI Dual Link and 3G-SDI.
    • 3G-SDI is only available on the Link-A connector and Link-B is OFF.
    • LUTs (including x4 preset and x5 user-defined) for on-set video monitoring.
      • LUT On/Off is applied to both HD-SDI output and SxS recording at the same time.
      • LUT name information will be recorded to SxS as NRT metadata of the Clips and it can be seen by the XDCAM browser.
      • User-defined LUTs can be created by CVP file editor for free.
      • Wi-Fi function for Planning metadata (same as V1.30 for PMW-350).

 

I was not expecting to see Planning metadata on the F3, that’s certainly a nice surprise. No mention of how to get 1920/50p or 60P out of the camera. I had thought the F3 was supposed to support that. Nice to see 4 preset LUT’s along with 5 user LUT’s for S-Log along with the software to roll your own LUT.

TSA – What can you do?

Oh I just hate the TSA.

OK, OK, they have a job to do, to keep us travellers safe, but come on. When you spend an age packing camera kit so that it won’t get damaged in transit while it is hurled about by airline baggage handlers only to arrive at your destination, to find your careful packing was a waste of time as a TSA inspector has unwrapped your valuable cameras from their bubble wrap and padded bags and just tossed them back in the case, then piled all the now loose accessories on top of the cameras in a big heap. It just pisses me off.

No major damage on this occasion, just some scratches and dings to the camera body, but there should be some accountability. I recently had a flight case inspected by German security officials in Berlin. Inside the case was a detailed letter explaining what was done during the search. It told me that items had been removed and then replaced, it was signed by the inspector with his ID number and then countersigned by his manager. Everything was correctly packed and I have no issue with that inspection. But the TSA inspectors remain anonymous, so who do you complain about? It should be mandatory that each inspector should have to leave a card with his/her ID on it so that those that can’t be bothered to replace items as they found them can be held accountable for any resulting damage. I don’t have an issue with my luggage being searched, provided reasonable care is taken in the process. I try to pack the kit so that it’s easy to open and see what it is, I even give instructions on how to open and re-pack some items so they are not damaged. My luggage is often TSA inspected. Sometimes you’d never know except for the little white anonymous notification card, but this time my case looked like it had been gone though by a starving gorilla looking for a banana.

End Rant.

EX1 and EX3 Picture Profiles.

These are the picture profiles that I am currently tending to favour for the EX1, EX1R and EX3. Please remember that picture profiles are entirely subjective. These settings work for me, that doesn’t mean they are perfect or for everyone. I like the images the cameras produce when I use these profiles. Please feel free to adapt them or modify them any way you choose. They work on any of the current EX cameras.

Vivid – Designed to help match the EX to a PDW-700. Gives vivid colours with a small shift away from yellow.

Matrix – Cinema, Matrix Level +60

R-G +8,  R-B +10,  G-R 0,  G-B +15,  B-R +5,  B-G +6

Detail Level -10 Frequency +20, Crispening -40 (if using gain use crispening +14)

Gamma Cinegamma 1

Black level -3, Black Gamma -35

Low Key Saturation -10

Natural C4 – Designed to give a neutral, natural looking image.

Matrix – Cinema, Matrix Level +35

Detail level -7, Frequency +30, Crispening -40 (if using gain use crispening +20)

Black Level -3, Low key Saturation -15

AC Punch – Gives a very high contrast, bold look.

Matric – Cinema, level +40

Gamma Standard 2, Knee level 80, Slope 0

R-G 0,  R-B +1,  G-R +12,  G-B +2,  B-R +11,  B-G 0

Detail Level -10, Frequency +30, Crispening -45

Black Level -4, Black Gamma -20.

AC Good to Grade – a general purpose setup to give good grading possibilities.

Matrix – Cinema, Level +25

Gamma Cinegamma 1 (Do not use -3db gain)

Detail Level -7, Frequency +45, Crispening -45 (use +35 if using gain)

Black Level -3.

AC-SD Camera look. To mimic an older SD camcorder based on a DSR400, good for HD to SD conversion.

Matrix – Cinema, Level +15

Detail Level +20, Detail Frequency -35, White Limit +35, Black limit +45

Knee, Manual, Level 90, Slope 0.

Gamma Standard 2, Gamma Level +5

Black Gamma -10

Black Level -10

 

 

Enjoy! Any feedback or suggestions welcome. Let me know of any profiles that you come up with that may be of interest to others.

 

S-Log. A Further In Depth Look.

Well I posted here a few days ago about how Data was distributed across the S-Log curve. David williams (thanks David) questioned some of the things in my post raising some valid questions over it’s accuracy, so I withdrew the post in order to review it further. While the general principles within the post were correct (to the best of my knowledge and research) and I stand by them, some of the numbers given were not quite right and the data/exposure chart was not quite right.

Before going further lets consider the differences between the a video sensor works and the way our eyes work. A video sensor is a linear device while our own visual system is a logarithmic system. Imagine you are in a room with 8  light fittings, each one with the same power and light output. You start with one lamp on, then turn on another. When you turn on the second lamp the room does not appear to get twice as bright even though the amount of light in the room has actually doubled. Now with two lamps on what happens when you turn on a third? Well you wouldn’t actually notice much of a change. To see a significant change you would need to turn on 2 more lamps. Now with 4 lamps on to see a significant difference you would need to turn on a further 4 lamps. Only adding one or two would make little visual difference. This is because our visual system is essentially a logarithmic system.

Now lets think about F-Stops. An f stop (or T-stop) is a doubling or halving of exposure. So again this is a logarithmic system. If with one light bulb your scene is one stop then to increase the scene brightness by one stop you must double the amount of light, so you would add another light bulb. Now to increase the scene brightness by a further stop you would have to take your existing two light bulbs and double it again to 4 light bulbs, and so on… 2, 4, 8, 16, 32, 64….

Now going back to a video sensor, take a look at the illustrative graph below. The horizontal scale is the number of lightbulbs in our hypothetical room and the vertical scale is the video output from an imaginary video sensor in percent. Please note that I am trying to illustrate a point, the numbers etc are not accurate, I’m just trying to explain something that is perhaps miss-understood by many, simply because it is difficult to understand or poorly explained elsewhere. The important thing to note is that the plotted blue line is a straight line, not a curve because the sensor is a linear device.

Linear Output from Camera Sensor

 

Now look at this very similar chart. The only difference now is that I have added an f-stop scale to the horizontal axis. Remember that one f-stop is a doubling of the amount of light, not simply one more lightbulb. I have also changed the vertical scale to data bits. To keep things simple I’m going to use something close 10 bit recording which actually has 956 data bits or steps (bits 64 to 1019 out of 1024 bits), but lets just round that up to 1000 data bits to keep life simple for this example.

Sensor data and f-stops

So we can see that this imaginary  video sensor uses bits 0-50 for the first stop, 50-100 for the second stop, 100-200 for the third stop, 200-400 for the fourth and 400-800 for the fifth. So it is easy to see that huge amounts of data are required to record each stop of over exposure. The brighter the image the more data that is required. Clearly if you want to record a wide dynamic range using a linear system you need massive numbers of data bits for the highlights, while the all important mid tones and shadow areas have relatively little data allocated to them. This is obviously not a desirable situation with current data limited recording systems, you really want to have sufficient data allocated to your mid-tones so that in post production you can grade them satisfactorily.

Now look what happens if we allocate the same amount of data to each stop of exposure. The green line is what you get if, in our imaginary camera we use 200 data bits to record each of our 5 stops of dynamic range. Does the shape of this curve look familiar to anyone? The important note here is that compared to the sensors linear output (the blue line) as the image brightness increases less and less data is being used to record the highlights. This mimics the way we see the world and helps ensure that in the mid ranges where skin tones normally reside there is lots of data to play with in post. Our visual system is most acute in the mid range. that’s because some of the most important things that we see are natural tones, plants, fauna and people. We tend to pay much less attention to highlights as these are rarely of interest to us. Because of this we can afford to reduce the amount of information in video highlights without the end user really noticing. This technique is used by most video cameras when the knee kicks in and compresses highlights. It’s also used by extended gamma curves such as cinegamma’s and hypergamma’s.

Log Curve, 200 bits for each stop.

Anyone that’s seen a hypergamma curve or cinegamma curve plot will have seen a similar shape of curve. Hypergammas and Cinegammas also use less and less data to record highlights (compared to a linear response) and in many ways achieve a similar improvement in the captured dynamic range.

Sony Hypergamma Curves

Hypergammas are not the same as S-Log however. Hypergammas are designed to be useable without grading, even if it’s not ideal. Because of this they stay close to standard gammas in the mid range and it’s only really the highlights that are compressed, this also helps with grading if recording using only an 8 bit codec as the amount of pushing and pulling required to get a natural image is less extreme. However because the Hypergammas allocate more data in the 60 to 90 percent exposure range to stay close to standard gamma the highlights have to be more highly compressed than S-Log so there is less highlight data to work with than with S-Log.  If we look at the plot below which now includes an approximate S-Log curve (pink line) you can see that log recording has a much larger difference from a standard gamma in the mid ranges, so heavy grading will be required to get a natural looking image.

Hypergammas and S-Log curves

Because of the amount of grading that will normally be done with S-Log, recording the output using a 10 bit recorder is all but essential.

When I wrote this article I spent a lot of time studying the Sony S-Log white paper and reading up on S-Log and gamma curves all over the place. One thing that I believe leads to some confusion is the way Sony presents the S-Log data curve in the document. The exposure is plotted against the data bits using stops as opposed to image brightness. This is a little confusing if you are used to seeing traditional plots of gamma curves like the ones I have presented above that plot output against percentage light input. It’s confusing as Sony forget that using stops as the horizontal scale means that the horizontal scale is a log scale and this makes the S-Log  “curve”  appear to be a near straight line.

I have not used S-Log on an F3 yet. It will be interesting to see how it compares to Hypergamma in the real world. I’m sure it will bring some advantages as it allows for an 800% exposure range. I welcome any comments or corrections to this article.

 

Duran Duran Mega Shoot – Berlin – Almost!

The Berlin Duran Duran shoot was quite an adventure that twisted and turned this way and that. The plan was to shoot a Duran Duran concert using a range of Sony Super 35mm camcorders, however in the days running up to the shoot the band had been forced to postpone some other gigs due to illness. On the Monday before the shoot we were all sat at home waiting for the go – no-go phone call from the producers. The call came at 9pm, we were go, so first thing Tuesday I was off to the airport with 75kg of kit to fly out to Berlin with the very real threat of either Heathrow airport or Berlin airport getting shut down by Volcanic ash from Iceland. In the end my flight left 20 mins early and the plane was even backing away from the gate well before everyone had taken their seats in a mad dash to get to Berlin before airspace got closed.

The first of the cameras arrive.

My self and Den Lennie (of F-Stop Academy) in the advanced party got into Berlin OK and spent Tuesday collecting some of the rented and borrowed kit and getting it in to the venue.
However by the Wednesday morning the whole shoot was turning into a serious challenge as Berlin airport was closed by the Ash cloud from the Iceland volcano just as key members of the crew including Gavin the director and James the producer were due to fly in. They ended up going to Dusseldorf and getting the train up to Berlin. In addition some of our rented kit was delayed as well as the stage and rigging crew, so everyone was running behind, frantically trying to source more kit locally. We have to say a BIG thank you to FGV Schmidle in Berlin who went out of their way to help us out.

 

5 of the 6 PMW-F3's awaiting setup.

We had 6 F3’s, 2 FS100’s the SRW9000PL and an EX3. The EX3 was going to be used on the back of a Canon HJ21x7.5 Cinestyle lens with a 2x extender from the back of the venue to get some close up shots that we just could not get with any of the PL mount lenses we had on the 35mm sensor cameras. Long, fast 35mm lenses are few and far between.

 

To get the look that we wanted the cameras were all set up with custom picture profiles. I designed a picture profile for the F3’s that would give maximum latitude to help handle the high contrast range that the concert lightning would bring as well as de-saturating the image to prevent the coloured lights from clipping and thus give more scope for grading and post work. Detail correction was set up to give a small amount of very fine detail boost to keep the images crisp without looking like video.

Optimo 24-290 Zoom Lens on F3

 

 

Two of the Sony PMW-F3’s were kitted out with Angenieux Optimo 24-290 T2.8 lenses and Pre-Production Zacuto EVF’s. What a gorgeous lens, the EVF’s aren’t bad either! Hopefully I’ll get more time to play with both of these in the future and a review of the EVF’s should come soon. The Optimo’s allowed us to get beautiful mid and close up shots from the venue sides with nice bokeh and super shallow DoF. At the rear of the venue as well as the EX3 we had an F3 with an Angenieux Optimo 15-40 on a track to shoot wide shots of the stage through the crowds. The remaining F3’s were to be used with Nikon DSLR lenses in the 75 to 300mm range via MTF adapters (thanks Mike) and a prototype Adaptimax adapter (Thanks Steve). The other F3’s were going to go on tracks at the front of the stage or on the stage wings to pick off close ups of instruments and band members. We also had a pair of Sony MC1P mini-cams but we could not rig these until the stage crew arrived and we weren’t expecting them until early on Thursday morning, the day of the shoot. The FS100’s would be on stage, hand held and on tracks using prototype Birger mounts and Canon L series lenses.

Then the bombshell dropped. The event was postponed. The lead singer Simon LeBon has been suffering from Laryngitis and he still wasn’t well enough to sing. So the remainder of the evening was spent packing all the kit away and rebooking flights and schedules. The concert will now be held on the 8th of June, again in Berlin. I’m going to be flying back to London from Cinegear and a 3D event at Samy’s cameras on the 6th, passing through London ( 3 hours between flights) on the 7th where I will pick up my F3 kit and then travel on the Berlin, where we will once again try to complete the shoot. Photo’s and more gear porn to follow.

Testing, testing…. Canon 800/1600 mm lens on F3

Canon 800mm lens on PMW-F3

In preparation for the big Duran Duran shoot in Berlin later in the week I was out with Den Lennie of F-Stop academy along with Duran Duran video producer Gavin Elder and James Tonkin of Hangman Studios testing the Canon 800/1600 f5.6 lens on my F3. This is an adapted DSLR lens fitted with a PL mount. What a lens! The bokeh was simply gorgeous from this lens and I’m really excited about putting it to use in Berlin on Thursday night. Keep tuned for more info on this BIG project shooting with F3’s, FS100’s and SRW9000PL’s. We’re even throwing in a VG10 or 2 for good measure! Nine cameras in total, ultra shallow DoF is the goal, gonna be hard to do, but it should look awesome.

PMW-F3 and FS100 Pixel Count Revealed.

This came up over on DVInfo.

An F3 user was given access to the service manual to remove a stuck pixel on their F3. It was found in the service manual that you can address pixel manually to mask them. There are  pixel positions  1 to 2468 Horizontally and  1 to 1398 vertically. This ties in nicely with the published specifications of the F3 at 3.45 Million Pixels.

At the LLB (Sound, Light and Vision) trade fair in Stockholm this week we had both a SRW9000PL and PMW-F3 side by side on the stand, both connected to matching monitors. After changing a couple of basic Picture Profile settings on the F3 (Cinegamma 1, Cinema Matrix)  Just looking at the monitors it was impossible to tell which was which.

Sonnet QIO Review – Really, really fast!

Sonnet QIO

I had heard about the QIO some time ago, so I approached Sonnet to see if I could borrow a unit to review. I was given the loan of a Sonnet QIO at NAB. I have been playing with it since then and you know what, it’s a great device. So what exactly is it? Well it is an extension box that allows you to connect a range of peripherals and flash memory cards to your computer via the PCI bus. The reason I wanted to borrow one was because the QIO is one of the few devices (the only device?) that allows you to connect SxS, Compact Flash and P2 cards to a computer using the high speed PCI bus with hot-swappable functionality.  Hot Swap means you can eject and remove cards without having to re-boot the computer or do anything else, something that some of the other adapters on the market force you to do.

PCI-E extension board.

Installation was very straight forward. On my Mac Pro workstation I had to plug in a small PCI-X card into one of the vacant slots inside the rear of the machine. This is easy to do and should not put anyone off buying the device, it took me all of 5 minutes to plug the card in and install the drivers. Then a short cable runs from the back of the Mac Pro to the QIO and a separate power supply is plugged into the QIO for power.

 

 

 

On my Mac Book Pro I simply slotted the Sonnet express card PCI bus expansion adapter into the express card slot and then connected this to the main QIO unit via the extension cable and installed the drivers, again a 5 minute job, very simple.

PCI-E Express Card Slot adapter

If you do want to use it with a Mac Book Pro, you will need a model that has the express card slot. At the time of writing the device only works with Mac’s, but Windows support should be coming very soon. When buying a QIO there are two versions. The desktop version supplied with the desktop adapter or the laptop version with the express card slot adapter. The functionality is the same for both, it’s just a case of which adapter you need. You can buy the alternate adapter should you want both as an accessory.

So, I have it installed, how is it to use?

It’s really extremely straight forward. You simply pop your media into the slot and away you go. When your done with that card you eject it as you would with any other removable media and stick in the next card. On the workstation this was so much better than plugging in my XDCAM camcorder via USB.

Of course convenience is one thing, but how about performance? The QIO is fast, very fast. I was able to offload a full 16Gb SxS card in about 150 seconds, less than 3 minutes to the internal drive on the Mac Pro. That equates to an hours worth of XDCAM EX material in around 3 minutes or 20x real time. The performance for compact flash cards doesn’t disappoint either at around 15 seconds per Gb so clearly the transfer speed is limited by the speed of the CF card and not the connection as would be the case with USB or firewire. If you want to use the QIO for SD cards then you can use the supplied adapter. Again the performance is very good, but not as good as SxS and CF due mainly to the lower speeds of the SD cards.

Laptop Performance and Expansion.

One of the issues with Laptops is how do you expand them? It’s all very well being able to put an SxS card into the express card slot for fast off load, but where do you then put the material? On a Mac Book Pro you do have firewire 800 but this is still nowhere near as fast as the SxS card. As the SxS card is in the express card slot you can’t use it to add an eSATA drive, so your a little stuck. But not with the QIO. You see the QIO has a built in eSATA controller and 4 eSATA connectors on it’s rear. This means that you can plug in one or more eSATA drives to the QIO and transfer directly from the SxS card to an eSATA drive or drives. So now even on my Mac Book I can make multiple eSATA copies of my media at speeds of up to 200MB/s (total). So once again the speed is usually limited by the card and not the interface.

Torture Test:

For a real torture test I put two full 16Gb SxS cards into the QIO and offloaded both cards at the same time to the Mac Pro’s raid drive. Where one card had taken a little under 3 minutes, two cards took abut 190 seconds, just a little over 3 minutes. Transferred this way, two cards at a time you could offload 2 hours of XDCAM EX material in around 4 mins, that’s an incredible 30x real time. I tried the same test with CF cards  and again there was little difference in transfer speed between one card and two cards.

Conclusions:

This is one fast device. If you have lots of media to off-load and backup it’s going to save you a lot of time. If you are a production company that works with large volumes of solid state media it will pay for itself very quickly in saved man-hours. If your working in the field with a Mac Book Pro the ability to connect both the media and eSATA devices at the same time makes the QIO a very interesting proposition. It is well constructed, simple to install and use, what more could you ask for.

Value for money?

That’s a little harder to answer. It depends on how much material you work with. It’s a fairly pricey device at around $800US or £700GBP for a card reader, but the time savings are substantial, especially if you are asking people to back up material at the end of a days shoot. The faster it can be done, the more likely it is that it will be done straight away, rather than put off until later. It’s also a lot more than just a card reader, the eSATA ports make it so much more useful for connecting drives or even a raid array to a laptop. Overall I think it is actually well worth the investment for the time savings alone. 8/10 (it would have been 9/10 if it didn’t require the power adapter). Great product.

 

I approached Sonnet and requested a loan QIO for this review, which Sonnet provided. I was not paid to write this and the views expressed are entirely my own. Speed tests were conducted using my own SxS (blue) cards with the QIO attached to a 1.1 first generation Mac Pro with an internal 4 drive raid array, or with a 15″ Mac Book Pro.

Why rendering form 8 bit to 8 bit can be a bad thing to do.

When you transcode from 8 bit to 8 bit you will almost always have some issues with banding if there are any changes in the gamma or gain within the image. As you are starting with 8 bits or 240 shades of grey (bits 16 to 255 assuming recording to 109%) and encoding to 240 shades the smallest step you can ever have is 1/240th. If whatever you are encoding or rendering determines that lets say level 128 should now be level 128.5, this can’t be done, we can only record whole bits, so it’s rounded up or down to the closest whole bit. This rounding leads to a reduction in the number of shades recorded overall and can lead to banding.
DISCLAIMER: The numbers are for example only and may not be entirely correct or accurate, I’m just trying to demonstrate the principle.
Consider these original levels, a nice smooth graduation:

128,    129,   130,   131,   132,   133.

Imagine you are doing some grading and you plugin has calculated that these are the new desired values:

128.5, 129, 129.4, 131.5, 132, 133.5
But we cant record half bits, only whole ones so for 8 bit these get rounded to the nearest bit:

129,   129,   129,   132,   132,   134

You can see how easily banding will occur, our smooth gradation now has some marked steps.
If you are rendering to 10 bit you would get more in between steps.
If you render to 10 bit then when step 128 is determined to be be 128.5 by the plugin this can now actually be encoded as the closest 10 bit equivalent because for every 1 step in 8 bit there are 3.9 steps in 10 bit, so (approximately,translating to 10 bit) level 128 would be 499 and 128.5 would be 501
128.5 = 501

129 = 503

129.4 = 505

131.5 = 513

132 = 515

133.5 = 521

So you can see that we now retain in-between steps which are not present when we render to 8 bit so our gradation remains much smoother.

Cinematographer and film maker Alister Chapman's Personal Website