32 bit monitor
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** We noticed that our confocal images look amazing (fine details well resolved) as long as they are viewed with the monitor belonging to the microscope, but as soon as we open them on our PCs or Macs they look just normal (fine detail missing). The monitor at the Zeiss mic is a HP ZR30W a pretty expensive model. It seems to support 32 bit colours which would give 12 bit or 4096 grey steps for each of the primary colours. Not sure if this is the secret behind the good looking images but has anyone experience using such monitors to display images? I would think that the graphic card, operating system and image analysis software have to be capable of doing so, which programs would do this? Did i miss an important development in computer hardware or is there another reason for the amazing looking images? Any suggestions welcome. |
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Dear Andreas, I doubt that the connected monitor has 12 bit gray levels. I only know about some monochrome displays for radiologists that deliver 10bit. Maybe the system of the confocal does some contrast enhancement. Or, in case your image data are 12 bit or more in reality, the Zeiss monitor does a proper scaling from the original data to the 8bit world of the display. Did you try to optimize the scaling on your standard PC or Mac screens? With scaling I mean, how do you send the 12bit or more image data to your 8 bit world? with best regards, Gerhard Holst _______________________________ Dr. Gerhard Holst Science & Research PCO AG Donaupark 11 93309 Kelheim, Germany fon +49 (0)9441 2005 36 fax +49 (0)9441 2005 20 mob +49 (0)172 711 6049 [hidden email] www.pco.de -----Ursprüngliche Nachricht----- Von: Confocal Microscopy List [mailto:[hidden email]] Im Auftrag von Andreas Bruckbauer Gesendet: Donnerstag, 13. Juni 2013 16:52 An: [hidden email] Betreff: 32 bit monitor ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** We noticed that our confocal images look amazing (fine details well resolved) as long as they are viewed with the monitor belonging to the microscope, but as soon as we open them on our PCs or Macs they look just normal (fine detail missing). The monitor at the Zeiss mic is a HP ZR30W a pretty expensive model. It seems to support 32 bit colours which would give 12 bit or 4096 grey steps for each of the primary colours. Not sure if this is the secret behind the good looking images but has anyone experience using such monitors to display images? I would think that the graphic card, operating system and image analysis software have to be capable of doing so, which programs would do this? Did i miss an important development in computer hardware or is there another reason for the amazing looking images? Any suggestions welcome. |
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In reply to this post by Andreas Bruckbauer
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Hi Andreas Assuming that your PC or MAC monitors are set to 32-bit true-colour under Display, Adjust Resolution, Advanced Settings (windows 7), the problem is probably the PC monitor isn't set up correctly (colour, brightness, contrast). I'd get an x-rite i1 Display Pro professional display calibration device to calibrate your office monitors (xritephoto.com) - it costs about £150 and can generally calibrate all your screens automatically assuming they are fairly modern (the sensor unit rests on the monitor and adjusts it all correctly for you). Then in theory all your PC monitors will be calibrated to display colours correctly, so the image should look similar on any of them, subject to the basic quality of the monitor. I'd also investigate the likes of a £400 2560x1440 pixel 27" Dell U2713HM IPS screen monitor for your main office Windows PC which can display 1024x1024 confocal images natively at 1 pixel per 1 pixel. Use Zen/LSM Image Browser to view your Zeiss raw lsm confocal files to ensure the software isn't down-sampling the image in some way. I doubt the graphics card is the problem, assuming it's fairly modern graphics card/GPU and it's been setup correctly. Regards Keith http://xritephoto.com/ph_product_overview.aspx?id=1454&catid=109&action=over view ----------------------------------------------------------- Dr Keith J Morris Cellular Imaging Core, The Wellcome Trust Centre for Human Genetics, Roosevelt Drive, Oxford, OX3 7BN, United Kingdom. Tel: +44 ( 0 ) 1865 287568 Email: [hidden email] Webpage: www.well.ox.ac.uk/microscopy-facilities -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Andreas Bruckbauer Sent: 13 June 2013 15:52 To: [hidden email] Subject: 32 bit monitor ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** We noticed that our confocal images look amazing (fine details well resolved) as long as they are viewed with the monitor belonging to the microscope, but as soon as we open them on our PCs or Macs they look just normal (fine detail missing). The monitor at the Zeiss mic is a HP ZR30W a pretty expensive model. It seems to support 32 bit colours which would give 12 bit or 4096 grey steps for each of the primary colours. Not sure if this is the secret behind the good looking images but has anyone experience using such monitors to display images? I would think that the graphic card, operating system and image analysis software have to be capable of doing so, which programs would do this? Did i miss an important development in computer hardware or is there another reason for the amazing looking images? Any suggestions welcome. |
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** '32 bit' could be rgb+alpha… I don't think Windoze goes higher than 8 bits per channel? The resolution might relate to the number of pixels your display has. If you have a image of 2048x2048 you need an unusual monitor to display it at full resolution. Cheers On 13/06/2013, at 4:52 PM, Keith Morris <[hidden email]> wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > Hi Andreas > > Assuming that your PC or MAC monitors are set to 32-bit true-colour under > Display, Adjust Resolution, Advanced Settings (windows 7), the problem is > probably the PC monitor isn't set up correctly (colour, brightness, > contrast). I'd get an x-rite i1 Display Pro professional display calibration > device to calibrate your office monitors (xritephoto.com) - it costs about > £150 and can generally calibrate all your screens automatically assuming > they are fairly modern (the sensor unit rests on the monitor and adjusts it > all correctly for you). Then in theory all your PC monitors will be > calibrated to display colours correctly, so the image should look similar on > any of them, subject to the basic quality of the monitor. I'd also > investigate the likes of a £400 2560x1440 pixel 27" Dell U2713HM IPS screen > monitor for your main office Windows PC which can display 1024x1024 confocal > images natively at 1 pixel per 1 pixel. Use Zen/LSM Image Browser to view > your Zeiss raw lsm confocal files to ensure the software isn't down-sampling > the image in some way. I doubt the graphics card is the problem, assuming > it's fairly modern graphics card/GPU and it's been setup correctly. > > Regards > > Keith > > http://xritephoto.com/ph_product_overview.aspx?id=1454&catid=109&action=over > view > > ----------------------------------------------------------- > Dr Keith J Morris > Cellular Imaging Core, > The Wellcome Trust Centre for Human Genetics, > Roosevelt Drive, > Oxford, > OX3 7BN, > United Kingdom. > > Tel: +44 ( 0 ) 1865 287568 > Email: [hidden email] > Webpage: www.well.ox.ac.uk/microscopy-facilities > > -----Original Message----- > From: Confocal Microscopy List [mailto:[hidden email]] On > Behalf Of Andreas Bruckbauer > Sent: 13 June 2013 15:52 > To: [hidden email] > Subject: 32 bit monitor > > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > We noticed that our confocal images look amazing (fine details well > resolved) as long as they are viewed with the monitor belonging to the > microscope, but as soon as we open them on our PCs or Macs they look just > normal (fine detail missing). > The monitor at the Zeiss mic is a HP ZR30W a pretty expensive model. It > seems to support 32 bit colours which would give 12 bit or 4096 grey steps > for each of the primary colours. Not sure if this is the secret behind the > good looking images but has anyone experience using such monitors to display > images? I would think that the graphic card, operating system and image > analysis software have to be capable of doing so, which programs would do > this? > > Did i miss an important development in computer hardware or is there another > reason for the amazing looking images? Any suggestions welcome. Mark B. Cannell Ph.D. FRSNZ Professor of Cardiac Cell Biology School of Physiology & Pharmacology Medical Sciences Building University of Bristol Bristol BS8 1TD UK [hidden email] |
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Yes, each channel still has 8 bits (8 x 4 = 32). AFAIK you cannot buy a commercial monitor that displays more than 8 bits in any one channel. Q for Andreas: Do you use any visualization software on the scope computer other than the proprietary package from Zeiss? If I had to guess I'd suggest that Zen 'cleans up' images a little on-screen in a way that does not carry over when you open the same image in a non-allied software package. I noticed that Elements for Nikon does this, for example smoothing the edges of pixels at > 100% zoom and de-noising a little. Open your images in ImageJ on that same computer and see whether they look substantially better than ImageJ somewhere else. My bet is that you just need to apply a little contrast, noise filtering and (DANGER Will Robinson) gamma in third party software to reproduce what you see in Zen. All the best, TF Timothy Feinstein, PhD Visiting Research Associate Laboratory for GPCR Biology Dept. of Pharmacology & Chemical Biology University of Pittsburgh, School of Medicine BST W1301, 200 Lothrop St. Pittsburgh, PA 15261 On Jun 13, 2013, at 12:31 PM, Mark Cannell wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > '32 bit' could be rgb+alpha… I don't think Windoze goes higher than 8 bits per channel? > The resolution might relate to the number of pixels your display has. If you have a image of 2048x2048 you need an unusual monitor to display it at full resolution. > > Cheers > > > On 13/06/2013, at 4:52 PM, Keith Morris <[hidden email]> wrote: > >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> ***** >> >> Hi Andreas >> >> Assuming that your PC or MAC monitors are set to 32-bit true-colour under >> Display, Adjust Resolution, Advanced Settings (windows 7), the problem is >> probably the PC monitor isn't set up correctly (colour, brightness, >> contrast). I'd get an x-rite i1 Display Pro professional display calibration >> device to calibrate your office monitors (xritephoto.com) - it costs about >> £150 and can generally calibrate all your screens automatically assuming >> they are fairly modern (the sensor unit rests on the monitor and adjusts it >> all correctly for you). Then in theory all your PC monitors will be >> calibrated to display colours correctly, so the image should look similar on >> any of them, subject to the basic quality of the monitor. I'd also >> investigate the likes of a £400 2560x1440 pixel 27" Dell U2713HM IPS screen >> monitor for your main office Windows PC which can display 1024x1024 confocal >> images natively at 1 pixel per 1 pixel. Use Zen/LSM Image Browser to view >> your Zeiss raw lsm confocal files to ensure the software isn't down-sampling >> the image in some way. I doubt the graphics card is the problem, assuming >> it's fairly modern graphics card/GPU and it's been setup correctly. >> >> Regards >> >> Keith >> >> http://xritephoto.com/ph_product_overview.aspx?id=1454&catid=109&action=over >> view >> >> ----------------------------------------------------------- >> Dr Keith J Morris >> Cellular Imaging Core, >> The Wellcome Trust Centre for Human Genetics, >> Roosevelt Drive, >> Oxford, >> OX3 7BN, >> United Kingdom. >> >> Tel: +44 ( 0 ) 1865 287568 >> Email: [hidden email] >> Webpage: www.well.ox.ac.uk/microscopy-facilities >> >> -----Original Message----- >> From: Confocal Microscopy List [mailto:[hidden email]] On >> Behalf Of Andreas Bruckbauer >> Sent: 13 June 2013 15:52 >> To: [hidden email] >> Subject: 32 bit monitor >> >> ***** >> To join, leave or search the confocal microscopy listserv, go to: >> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy >> ***** >> >> We noticed that our confocal images look amazing (fine details well >> resolved) as long as they are viewed with the monitor belonging to the >> microscope, but as soon as we open them on our PCs or Macs they look just >> normal (fine detail missing). >> The monitor at the Zeiss mic is a HP ZR30W a pretty expensive model. It >> seems to support 32 bit colours which would give 12 bit or 4096 grey steps >> for each of the primary colours. Not sure if this is the secret behind the >> good looking images but has anyone experience using such monitors to display >> images? I would think that the graphic card, operating system and image >> analysis software have to be capable of doing so, which programs would do >> this? >> >> Did i miss an important development in computer hardware or is there another >> reason for the amazing looking images? Any suggestions welcome. > > Mark B. Cannell Ph.D. FRSNZ > Professor of Cardiac Cell Biology > School of Physiology & Pharmacology > Medical Sciences Building > University of Bristol > Bristol > BS8 1TD UK > > [hidden email] |
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In reply to this post by Andreas Bruckbauer
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** I think I know what is going on if you are using ZEN; the reason the images look so good is because you have interpolation ON. Look in the maintain tab of Zen, LSM options, under Image Display. If you want your images to look exactly like they do on the monitor, you need to export the image as "contents of Image Window". Hope it helps, Brian Hagen -----Original Message----- From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Andreas Bruckbauer Sent: Thursday, June 13, 2013 10:52 AM To: [hidden email] Subject: 32 bit monitor ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** We noticed that our confocal images look amazing (fine details well resolved) as long as they are viewed with the monitor belonging to the microscope, but as soon as we open them on our PCs or Macs they look just normal (fine detail missing). The monitor at the Zeiss mic is a HP ZR30W a pretty expensive model. It seems to support 32 bit colours which would give 12 bit or 4096 grey steps for each of the primary colours. Not sure if this is the secret behind the good looking images but has anyone experience using such monitors to display images? I would think that the graphic card, operating system and image analysis software have to be capable of doing so, which programs would do this? Did i miss an important development in computer hardware or is there another reason for the amazing looking images? Any suggestions welcome. |
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In reply to this post by Mark Cannell-2
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Generally "32 bit" is 8 bit Red, 8 bit Green, 8 bit Blue, 8 bit Alpha = 32 bits per pixel. In fact, if you have the proper monitor, the proper graphics card, it is possible to run 32 bit color as: 10 bit Red, 10 bit Green, 10 bit Blue, 2 bit Alpha, and Proper cable (Display Port or Dual Link DVI, or HDMI 1.3a or later) Presuming the Graphics card + Graphics card drive + Monitor support it, Windows allows per application Bit depth - thus it is possible with to have 40 bit color, aka, 10 bit Red, Blue, Green and Alpha, and even 48 bit Color ... 12 bits per channel. To my research, only 10 bit per color is supported by current LCD monitors, there were old SGI graphics adapters which supported 12 bit per channel, not sure how it was actually displayed or used.. To be fair, I think there are roughly between 5 and 10 current LCD monitors which offer true 10 bit per pixel color, most conventional monitors are truly only displaying 6 bit per pixel color, and most of us are none the wiser. ---- On Thu, Jun 13, 2013 at 9:31 AM, Mark Cannell <[hidden email]>wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > '32 bit' could be rgb+alpha… I don't think Windoze goes higher than 8 bits > per channel? > The resolution might relate to the number of pixels your display has. If > you have a image of 2048x2048 you need an unusual monitor to display it at > full resolution. > > Cheers > > > On 13/06/2013, at 4:52 PM, Keith Morris <[hidden email]> wrote: > > > ***** > > To join, leave or search the confocal microscopy listserv, go to: > > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > > ***** > > > > Hi Andreas > > > > Assuming that your PC or MAC monitors are set to 32-bit true-colour under > > Display, Adjust Resolution, Advanced Settings (windows 7), the problem is > > probably the PC monitor isn't set up correctly (colour, brightness, > > contrast). I'd get an x-rite i1 Display Pro professional display > calibration > > device to calibrate your office monitors (xritephoto.com) - it costs > about > > £150 and can generally calibrate all your screens automatically assuming > > they are fairly modern (the sensor unit rests on the monitor and adjusts > it > > all correctly for you). Then in theory all your PC monitors will be > > calibrated to display colours correctly, so the image should look > similar on > > any of them, subject to the basic quality of the monitor. I'd also > > investigate the likes of a £400 2560x1440 pixel 27" Dell U2713HM IPS > screen > > monitor for your main office Windows PC which can display 1024x1024 > confocal > > images natively at 1 pixel per 1 pixel. Use Zen/LSM Image Browser to view > > your Zeiss raw lsm confocal files to ensure the software isn't > down-sampling > > the image in some way. I doubt the graphics card is the problem, assuming > > it's fairly modern graphics card/GPU and it's been setup correctly. > > > > Regards > > > > Keith > > > > > http://xritephoto.com/ph_product_overview.aspx?id=1454&catid=109&action=over > > view > > > > ----------------------------------------------------------- > > Dr Keith J Morris > > Cellular Imaging Core, > > The Wellcome Trust Centre for Human Genetics, > > Roosevelt Drive, > > Oxford, > > OX3 7BN, > > United Kingdom. > > > > Tel: +44 ( 0 ) 1865 287568 > > Email: [hidden email] > > Webpage: www.well.ox.ac.uk/microscopy-facilities > > > > -----Original Message----- > > From: Confocal Microscopy List [mailto:[hidden email]] > On > > Behalf Of Andreas Bruckbauer > > Sent: 13 June 2013 15:52 > > To: [hidden email] > > Subject: 32 bit monitor > > > > ***** > > To join, leave or search the confocal microscopy listserv, go to: > > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > > ***** > > > > We noticed that our confocal images look amazing (fine details well > > resolved) as long as they are viewed with the monitor belonging to the > > microscope, but as soon as we open them on our PCs or Macs they look just > > normal (fine detail missing). > > The monitor at the Zeiss mic is a HP ZR30W a pretty expensive model. It > > seems to support 32 bit colours which would give 12 bit or 4096 grey > steps > > for each of the primary colours. Not sure if this is the secret behind > the > > good looking images but has anyone experience using such monitors to > display > > images? I would think that the graphic card, operating system and image > > analysis software have to be capable of doing so, which programs would do > > this? > > > > Did i miss an important development in computer hardware or is there > another > > reason for the amazing looking images? Any suggestions welcome. > > Mark B. Cannell Ph.D. FRSNZ > Professor of Cardiac Cell Biology > School of Physiology & Pharmacology > Medical Sciences Building > University of Bristol > Bristol > BS8 1TD UK > > [hidden email] > |
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In reply to this post by Andreas Bruckbauer
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Andreas, I am bit confused here. Human eye is only 5 bit per color, isn't it? Though it can see millions of colors, but only 25-30 shades of the same color (up to 5 bit). The rest what you see is something else... Cheers, Vitaly ________________________________ From: Andreas Bruckbauer <[hidden email]> To: [hidden email] Sent: Thursday, June 13, 2013 10:52 AM Subject: 32 bit monitor ***** To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** We noticed that our confocal images look amazing (fine details well resolved) as long as they are viewed with the monitor belonging to the microscope, but as soon as we open them on our PCs or Macs they look just normal (fine detail missing). The monitor at the Zeiss mic is a HP ZR30W a pretty expensive model. It seems to support 32 bit colours which would give 12 bit or 4096 grey steps for each of the primary colours. Not sure if this is the secret behind the good looking images but has anyone experience using such monitors to display images? I would think that the graphic card, operating system and image analysis software have to be capable of doing so, which programs would do this? Did i miss an important development in computer hardware or is there another reason for the amazing looking images? Any suggestions welcome. |
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In reply to this post by Andreas Bruckbauer
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** There are likely several reasons the HP ZR30W shows details where these are lost on the other monitors. One was mentioned: probably some kind of interpolation of the image like what is seen in Image J (especially noticeable when images are zoomed in and --what?-- no discrete pixels!). The other is that most laptop monitors display at 6 bits/channel. And don't get confused about the 32-bit: it's generally 3, 8-bit channels and an 8-bit alpha channel. The other reason comes with the viewing angle, which in common language, "sucks" for most monitors. When your head is slightly off-angle, the screen darkens and colors are incorrect. See for how bad your monitor is by going to http://www.lagom.nl/lcd-test/viewing_angle.php. Monitor viewing angles of 180 degrees or better aid with viewing the image, since a person does not generally look at an image while moving their head around the screen. The HP ZR30W is at 178 degrees. The technology, as well, determines color fidelity: TN = Twisted Nematic. This is the technology used for most laptops. These are fast for refresh, but have narrow viewing angles, low brightness, and inaccurate color reproduction. VA = Vertical Alignment. Better color correction and viewing angles than TN and generally higher brightness, but lag with refresh rates. IPS = In Plane Switching. This is the technology for the HP ZR30W. These have wide viewing angles and produce the most accurate colors, but blacks aren't as deep as VA panels. These are the slowest in regard to response time, but on a confocal that isn't critical. PLS = Plane-line Switching. Developed by Samsung with characteristics matching IPS except for deeper blacks. In the ideal world, as those concerned about what displays the visual data, we would all have at least one decent monitor with good color reproduction and wide viewing angles calibrated with a hardware device and placed in a darkened room. It would use technology one step up from Twisted Nematic (TN). I have no commercial interest with monitor manufacturers, though I'd love to get my hands on a Eizo monitor. Jerry Sedgewick On 6/13/2013 9:52 AM, Andreas Bruckbauer wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > We noticed that our confocal images look amazing (fine details well > resolved) as long as they are viewed with the monitor belonging to the > microscope, but as soon as we open them on our PCs or Macs they look just > normal (fine detail missing). > The monitor at the Zeiss mic is a HP ZR30W a pretty expensive model. It > seems to support 32 bit colours which would give 12 bit or 4096 grey steps > for each of the primary colours. Not sure if this is the secret behind the > good looking images but has anyone experience using such monitors to display > images? I would think that the graphic card, operating system and image > analysis software have to be capable of doing so, which programs would do this? > > Did i miss an important development in computer hardware or is there another > reason for the amazing looking images? Any suggestions welcome. > . > |
 
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ZR30w monitor is great, especially in a dark room ... Re: 32 bit monitor
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In reply to this post by Andreas Bruckbauer
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Hi Andreas, The HP ZR30w monitor is great, especially in a dark room. Current amazon.com price is $1,128, which I do not consider that expensive. I standardized onsingle or dual ZR30w's while I managed a core in Miami, and now have a dual ZR30w on my lab's main microscope here in Houston. Being in a darkened microscope room also helps compared to offices with overhead fluorescent lighting, windows, etc. George On 6/13/2013 9:52 AM, Andreas Bruckbauer wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > We noticed that our confocal images look amazing (fine details well > resolved) as long as they are viewed with the monitor belonging to the > microscope, but as soon as we open them on our PCs or Macs they look just > normal (fine detail missing). > The monitor at the Zeiss mic is a HP ZR30W a pretty expensive model. It > seems to support 32 bit colours which would give 12 bit or 4096 grey steps > for each of the primary colours. Not sure if this is the secret behind the > good looking images but has anyone experience using such monitors to display > images? I would think that the graphic card, operating system and image > analysis software have to be capable of doing so, which programs would do this? > > Did i miss an important development in computer hardware or is there another > reason for the amazing looking images? Any suggestions welcome. > > -- George McNamara, Ph.D. Single Cells Analyst L.J.N. Cooper Lab University of Texas M.D. Anderson Cancer Center Houston, TX 77054 |
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In reply to this post by Andreas Bruckbauer
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** Thanks for the useful replies to my post. I see i got my bit numbers wrong, the HP ZR30W is capable of delivering 10 bit per colour which generates 1.07 billion colours, (2^10)^3. I installed ImageJ on the microscope computer and the images look just as good in imageJ than in the Zen software. I don't think ImageJ uses fancy 10 bits for the colour, so I guess the bit depth is not so important as Vitally pointed out. We have the analysis workstations in the same room and I see the same effect, so it has nothing to do with the room light, but definitely has to do with the monitor or calibration. When i wrote detail, i actually meant the ability to see dim and bright features in the image, not so much the size of the features. While i think it is definitely worth calibrating the monitor, i also found that the red colour looks much better on the HP monitor. The following review shows how it exceeds the Adobe 2008 colour space http://www.anandtech.com/show/3754/a-new-30-contender-hp-zr30w-review/4 To test this i put a small spectrometer in front of the monitor and it has a nice peak at 660 nm while our other monitors have the maximum wavelength around 620 nm. I now think it is these nice colours combined with the brightness of 370 cd/m2 which make the images look so good! Well it would be nice if projectors in lecture rooms would have the same capability, until then we will have to display images in false colours to show all the data. Andreas |
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To join, leave or search the confocal microscopy listserv, go to: http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy ***** It is good to know that proprietary software like Zen does not change the images too much. You had me worried for a minute. At the same time you are really selling those HP monitors. This raises an interesting point about preparing images with the later viewer in mind. The HP ZR30W sounds fantastic but most people do not have one. At best readers see pics as an onscreen .pdf, otherwise projected in a darkish room or mangled by an inexpensive color printer. It makes some sense to check image products on a non-awesome monitor to make sure the key point still comes across. For projectors we note which ones have decent contrast, and for the vast majority we need to boost brightness and contrast until it looks a little nuts on the computer screen before it projects well. Of course this also argues strongly for non-arbitrary quantitative image measurements. Even a cheap color printer cannot ruin those. All the best, TF Timothy Feinstein, PhD Visiting Research Associate Laboratory for GPCR Biology Dept. of Pharmacology & Chemical Biology University of Pittsburgh, School of Medicine BST W1301, 200 Lothrop St. Pittsburgh, PA 15261 On Jun 14, 2013, at 8:22 AM, Andreas Bruckbauer wrote: > ***** > To join, leave or search the confocal microscopy listserv, go to: > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy > ***** > > Thanks for the useful replies to my post. I see i got my bit numbers wrong, > the HP ZR30W is capable of delivering 10 bit per colour which generates 1.07 > billion colours, (2^10)^3. > > I installed ImageJ on the microscope computer and the images look just as > good in imageJ than in the Zen software. I don't think ImageJ uses fancy 10 > bits for the colour, so I guess the bit depth is not so important as Vitally > pointed out. > > We have the analysis workstations in the same room and I see the same > effect, so it has nothing to do with the room light, but definitely has to > do with the monitor or calibration. > > When i wrote detail, i actually meant the ability to see dim and bright > features in the image, not so much the size of the features. While i think > it is definitely worth calibrating the monitor, i also found that the red > colour looks much better on the HP monitor. The following review shows how > it exceeds the Adobe 2008 colour space > http://www.anandtech.com/show/3754/a-new-30-contender-hp-zr30w-review/4 > To test this i put a small spectrometer in front of the monitor and it has a > nice peak at 660 nm while our other monitors have the maximum wavelength > around 620 nm. I now think it is these nice colours combined with the > brightness of 370 cd/m2 which make the images look so good! > Well it would be nice if projectors in lecture rooms would have the same > capability, until then we will have to display images in false colours to > show all the data. > > Andreas |
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