Articles

All © Jeremy Daalder

You may also find these areas of the site interesting:

Articles Index
Digital Fine Print Notes
Miscellaneous Tips

Or use the menus at the top to find out more about all our services and products - all of which are backed up by real experience and fantastic support!

Cross Rendered Proofing

Using affordable inkjet printers as accurate proofing devices for CMYK (or any other) print process!

Introduction

The modern dye based inkjet printer is a near ideal device for inexpensively simulating other print processes, due to it's versatility with different media, extremely wide colour gamut, stability in terms of colour output, and cost of running. When set up properly it can provide proofs that are very accurate to the final output, and the process is fairly simple.

While not as cheap as to run laser based devices (such as the Fuji Xerox Phaser devices which are often used in this context), the print quality (and therefore proof accuracy) on offer from inkjets is much higher. In many environments, it will make sense to have two proofing devices - a cheap-to-run laser printer, for proofing of layouts and the proofing of very long documents, and an inkjet printer for final colour accurate proofing.

Please note I am discussing the production of proofs for your own benefit in this article. I am not discussing what is known as a 'contract proof'.

A contract proof is one produced by your printing company that you agree to - this then constitutes a binding agreement between you and your printing company as to what the final output will look like. The proofs we discuss here are perhaps better termed 'guide prints' that you can use to simulate the final printing process as you develop your work. However, many printing companies can't (or won't) provide contract proofs, and so then this is perhaps the next best possibility of getting some idea of what your final output will look like.

Selecting an inkjet To use as a proofing device

The key qualities you need from an inkjet printer that you wish to use as a proofing device are:

• Wide colour gamut (so that you can simulate the entire gamut of your final output device, and have some room to spare)
• Versatility with media (so you can proof for a variety of final output media)
• Speed and size are of course two other physical characteristics together. In a busy office, waiting 30 minutes for a full page print is often simply not practical. Size refers to how large can the printer print - for most users, an A3+ proof is about as big as you every really need in practice, even if the final output will in fact be bigger. A3+ (19 by 13 inches) is a pretty substantial proof.
• Relatively cheap to run. Of course if the proofs cost you a few dollars but save you thousands by preventing you from making a more costly mistake downstream in the process, then they're well and truly worth it!

The key qualities you don't need in a proofing device are:

• Pigment inks - since these are simply proofs, it makes sense to use cheaper dye based inks that have a wider colour gamut and significantly better print quality.
  
• The one exception to this rule is if you want to very do high quality black and white proofing, in which case you will need a pigment ink printer with a specialist black and white printing mode such as the Epson 3800.

The two major players in the inkjet market are unquestionably Epson and Canon. HP also have some nice printers but they're a very small player in the Australian market in comparison to the other two.

Epson pretty much abandoned the dye based inkjet printer market several years ago. In this time, Canon have become the clear leaders in this field, and their range of printers are very fast, cheap to run, work with a huge variety of media, and have a colour gamut that is unparalleled by the pigment ink printers popular in the fine art market.

At time of writing in August 2007, the Canon Pixma Pro 9000 (about AU $890 street price) is pretty much the ideal proofing device - up to A3+ printing with 8 inks on a wide variety of media - fast, cheap, and with a fantastic colour gamut.

If you don't need such a large model, the A4 version is the Canon 6700D at about AU $350 (although this is a six colour printing device not quite up to the standards of its bigger brother).

The three things you require for produce an accurate proof

To achieve an accurate proof for a printing process requires the following three things:

1. A properly calibrated high quality monitor (for initial soft proofing on screen)
2. Accurate knowledge of the final printing process (in the form of a measured ICC profile, or the name of a printing standard)
3. A properly profiled inkjet printer using paper stock that is a good match for the final output stock

More details on these three things below.

1. Monitor Selection and Monitor Calibration

We discuss monitor calibration at length here, so won't repeat ourselves. We also have an overview of available calibrators. If you can afford one, the $399 Eye One Display Version 2 is pretty much the industry standard - fast, easy to use, and accurate, it is exactly what you want in a calibrator.

The best monitors for colour are unquestionably Eizo monitors. We have an article on how to choose the right Eizo monitor for your needs, but suffice it to say ANY of them will be significantly more accurate than almost any other brand, even the baby 17" Flexscan model is excellent. Once calibrated, these screens are second to none for accurate imaging work.

The 24" widescreen CG241W allows you to proof two A4 pages at the same time on screen, which is very nice indeed! These screens can accurately display 96% of the AdobeRGB gamut, which is superb, and means you will be able to proof accurately for CMYK output processes.

Once you have a high quality, colour accurate (i.e. calibrated) monitor, you will be able to accurately soft proof your final output on screen before making any prints at all. This is great, but no real substitute for an actual hard proof. We have some notes on soft proofing here, although this discusses soft proofing with a custom RGB inkjet profile, the process is the same if you are soft proofing using a CMYK profile or a printing standard. Simply go into Proof Setup in Photoshop, choose your ICC profile or printing standard, and follow the instructions in those notes to perform a basic or advanced soft proof.

2. Accurate knowledge of your final print process

To create an accurate proof of a final print process, you need to have some understanding of that process and the final output stock that will be used.

You will need to discuss this with the company doing your printing. Presses and POD (Print On Demand) machines are generally run in one of two ways - either the printer can supply you with an accurate ICC profile that is a true measurement of their device's behaviour on the actual output stock (this is the ideal scenario, but it's very rare to see this in practice with presses, although increasingly more common with POD systems), or they will be able to identify to you what printing standard they are printing to. If your printer can not give you either of these things (an ICC profile or the name of a printing standard), then it's very bad sign - ask your printer how you can possbly achieve accurate colour if they're not able to describe their printing processes to you.

If they supply you with an ICC profile, then you can follow these instructions to install and use the profile.

If they give you the name of a printing standard, it will have a name such as 'US Web Coated SWOP' or 'Euroscale uncoated' or FOGRA 39 Coated, or similar - these are installed with Photoshop by default. Your printer may alternatively give you a disk with a '.CSF' file on it that you can load into Photoshop.

Either way, once you have accurate knowledge of the final print process (and assuming your printing company actually achieves this colour in practice), then you are well on your way.

3. Setting up your inkjet as a proofing device

The final piece of the accurate proof puzzle is a custom ICC printer profile for your inkjet printer on a stock that is as close as possible to your final output stock.

You should consider the following characteristics when choosing a proofing stock - the goal of course being the closest possible match to the final output stock:

• Surface qualities (matte, gloss, semi-gloss etc)
• Weight and thickness of the stock
• And most importantly - colour and brightness of the stock.
  
  Brightness is typically expressed in ISO terms (eg. ISO 87), and the colour can be judged pretty well by eye, although for best results you will want to match the presence or absence of optical brighteners in the two stocks. You can measure (and thus match) the colour of paper white using a spectrophotometer (or you could ask a company like us to do it for you for a small fee!)
  
  All that said, the proofing process itself (see below) will compensate to a large extent for difference in the proofing stock and the output stock however the proofing stock should be at least as bright as the final output stock. Ink can be used to make a bright stock duller, but it can not be used to make a dull stock brighter!

A classic proofing stock is Epson Archival Matte paper (we stock this). It's cheap, has great print quality, and is a very bright white. At 180 gsm, it is similar in weight to many stocks used in high quality books etc. Canson PhotoSatin is a very effective proofing stock for satin output.

Once you have chosen your proofing stock, you must then have an accurate custom profile made for your printer and this stock. Full details of this process can be found here. The process costs around $75, and involves making a special print on your printer (carefully following the instructions) and sending that in to us. From this we can create an accurate colour map of your specific printer on this specific stock. We email this back to you in the form of an ICC profile with instructions, and you plug this into Photoshop and follow the process below to achieve your accurate proof prints.

You can of course use the profile both for proofing another printing process AND for simply making very high quality, colour accurate prints on your chosen stock.

Putting the pieces together - Absolute Colorimetric Proofing

Putting it all together, the final proofing process is fairly simple.

Firstly, you can leave your files in whatever form they are currently in - RGB/CMYK etc makes no difference, there is no need to do a conversion when making the proof, Photoshop can automatically do this for you 'on the fly'.

At this stage, your monitor should be properly calibrated, and you should have a custom ICC profile for your printer and proofing stock. If not, see above and sort these things out first, or you won't get very far with the notes below.

Stage One - Basic Soft Proofing

Follow the instructions here and soft proof the final print process (that is, set up a soft proof using either the ICC profile you have been given by your printer of by choosing the ICC profile for the print standard they have specified such as FOGRA39).

At first, try a basic soft proof (i.e. do not simulate the paper colour or ink black). This will show you colour (but not density/contrast) shifts. Prepare to be dismayed! CMYK processes can be....less than wonderful...and particularly with reproduction of primary, saturated Red Green and Blue colours (because the inks used are Cyan Magenta Yellow and Black, these colours reproduce very well, but the opposite colours (RGB) can be difficult).

You can edit your image with this soft proof turned on, to try and correct any shifts in colour. However you are now working within the boundaries of a specific print process, so it may simply not be possible to achieve the colours you hope for. Remember - it's usually more important to be convincing with colour than technically accurate.

Stage Two - Advanced Soft Proofing

Now, go back in to Proof Setup and turn on advanced soft proofing (tick the simulate paper colour and ink black boxes). You will now see a generally pretty dramatic shift in the contrast of your image. The soft proofing notes explain this in greater detail, but be aware that simulating a low contrast print on a high contrast monitor is very difficult for the eye to get used to. You should really just use this view to look specifically at difficult areas within your image - deep shadows, very high highlights, very saturated colours etc, to see if these areas are holding detail and remaining as smooth as you need them to be.

Don't be alarmed by the sudden drop in contrast - the final print, when viewed as a print under any normal conditions, will not look as weak and wishy washy as the on-screen proof probably does.

Again, you can edit your image with this proof view on to try and get your image into a better state for printing with this process. That said, you may be better off making a hard proof at this stage as the advanced soft proof view can fool you into thinking you have a problem which may not actually be a problem in the final print - this type of screen view is generally a lot less forgiving than the actual print.

Stage Three - Making a hard proof

This process is known as cross rendered proofing.

It's pretty simple to set up. The screenshot below is from Photoshop's 'Print With Preview' command (from CS2 but the process is exactly the same in CS3):

The following points are important:

• The document profile should have whatever colour space your image is currently in
• You should select 'Proof' below this as you're not doing a straight print of the file, but a proof print of a print process
• We let Photoshop Determine Colours
• We choose the custom ICC profile for our printer plus proofing stock
• Under Proof Setup Preset we choose 'Current Custom Setup' which uses the same settings we set up above in the Advanced Soft Proof section.
• We tick 'Simulate Paper Colour' so that Photoshop will use ink to simulate the paper colour of the final output stock if necessary.

Now, hit print. Make sure you set the settings in the printer driver into the exact state required for your custom ICC profile (as per the instructions which came with your profile).

The proof print you will now receive from your printer should now accurately reflect the final print process. How accurate this really is comes down to how a number