Archived posting to the Leica Users Group, 2001/07/22
[Author Prev] [Author Next] [Thread Prev] [Thread Next] [Author Index] [Topic Index] [Home] [Search]I want to try to establish some understanding for what a digital camera can and can not be expected to do..... First, there are x by y pixels in a digital camera 's sensor. Without comment or arguing about the current state of the art, and for the ease in the math, let us suppose there are 1000 x 1500 pixels in a particular sensor of discussion. When you blow up an image to say 10 times the area of the sensor ( say a 16x20 print from a 35mm neg) there are 2 choices open to the printer: Use the original 1.5 million pixels and have the final print look pixelated ( fairly large square boxes of monotonic behavior ) or you can INVENT some new "things" that go between the original pixels, and somehow bleed the real pixels and the invented ones together to get a more pleasing result. If you were to use the original 1.5M Pixels, the result would be blocky. So no one does this. What does happen is that there are algorithms designed to make up new, smaller pixels as combinations of those real pixels. Therefore our finished print is made up of 1.5 BILLION pixels, of substantially smaller size per pixel. The customer is happy because his resultant picture looks "better"... it is not blocky. Enter the Leica-nut. He wants Bokeh, he wants smooth out of focus areas. He wants high microcontrast but low overall contrast. HE wants ( do you get the point that he is picky?) HE also wants to keep the quality of analog film, but in a digital world. This requires a sensor of size 1.5 BILLION pixels. Mr Leica Engineer can calculate this number precisely. OK.... now Mr Schmidt at Leica Solms is now designing a new M camera, the Leica M-DF ( M camera for the Digital Film). He can buy only the 1.5 M pixel sensor. His customers want the old results..... remember he is picky. So he visits Intel to make a new sensor.,..... 1.5 BILLION Pixels with high micro contrast , etc.etc.etc..... Intel says the sensors are possible using silicon wafers that were made by drawing the ingots during the last 3 Space Shuttle shots, cost of $7.8 billion dollars each, just like NASA pays. Mr Schmidt now heads home to visit marketing... SWITCH TO SOLMS> MEETING ROOM M6-DF. 6 MARKETING GUYS< HERR COHN, AND 47 ACCOUNTANTS.. Can you imagine how well this Intel data is received? The veritable disgusting item in the punch bowl. Mr. Schmidt then says...... We can get a relationship going with Adobe for a new set of Photoshop plug-ins....the BOKEH Filter..... $100,00 later and we can all have digital Leica prints from Kodak P+S digital cameras. Now if you prefer the Nikon or Canon lens characteristics, or maybe the GOerz Dagor from 1865, that too can be designed...." BY INVENTING an algorithm that makes up pixels just like you want them to look.....You want Bokeh, you can have Bokeh. All you want. But there is no need for a Leica lens or camera anywhere in the equation. Remember that now, your pixels are being created not by photons, but some computer geek ( present party of course excused) that does strange things to small animals on weekends. You wanted the future of the digital M camera from Leica, you just got a shot of reality. This is not to say that Leica will not have a more sophisticated digital camera than the Digilux, but rather that the quality of Leica glass can not today, nor maybe within our lifetimes, be actually CAPTURED using digital sensor techniques. GO take some pictures, or like I am doing today, print up some from a previous adventure. D5 Enlarger, Aristo Cold Light head, No computer. Frank Filippone red735i@earthlink.net