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- 分类:视频设计
- 标签:gammas gamma adjusts adjust gammas gamma corrections correction calibrates calibrate ambients ambient colorsyncs colorsync calibrations calibration multiples multiple settings setting documents document retrieves retrieve sett
- 时间:2018年04月12日 更新 文件大小: 1.45 MB
- 开发商:Michel Fortin 官网首页
- 支持类型: Mac Mac OS X10.7或更高版本
- 支持语言:英文等
来自Mac App Store官方介绍
Gamma Control is used by designers, photographers, and filmmakers to improve color reliability or adjust screens so they fit within various lighting conditions in pictures or videos. It can also be used when playing games or viewing videos to reveal details normally too subtle to be seen.
UNVEIL SECRETS LURKING IN SHADOWS
The middle point adjusts the tint for grays and can lighten or darken intermediate colors. The setting applies to the whole screen in real-time so you don’t need to take a screenshot and open an image editor. Just start your video or play your game and enjoy the lack of darkness.
AVOID FLICKER WITH LED-BACKLIGHT PANELS
Many LCD panels today adjust the brightness of their backlight using PWM (pulse width modulation), switching it on and off quickly like a strobe. Generally invisible to the naked eye, this will often result in horizontal or vertical lines when captured on camera.
To avoid this, maintain the screen at its maximum brightness and instead reduce the luminance of the white point using Gamma Control.
BLENDING IN THE DECOR
Gamma Control lets you balance the screen’s colors with the ambiant light. If the screen looks too blueish or is otherwise clashing with its surroundings, adjust the white point to better match the the environnement and lighting.
If you are filming with a camera and the mid-range colors appear too bright (washed out) or too dark, adjust the middle point until the camera sees things the way you want.
CALIBRATION PATTERNS
Gamma Control has calibration patterns integrated in its control window. Click on them to enlarge in a separate resizable window you can look at from a few feet away.
CONFIGURE FROM A DISTANCE
Use Gamma Board to you can change the settings remotely from an iPhone or iPad on the same network. Check Allow remote configuration in the preferences and this Mac is ready for Gamma Board.
Important: remote configuration can only be active for one Mac at a time on the local network with the Mac App Store version of Gamma Control.
MORE POSSIBILITIES
• Toggle between dark mode and light mode following your preferences.
• Move the Gamma Control icon to the menu bar to save space in the dock.
• Calibrate each screen by moving the control window from one to another.
• Make the control window appear under your mouse pointer at anytime with a key combo.
• Hold Shift while dragging the red, green, or blue slider to move all three simultaneously.
• Use a global keyboard shortcut to activate and deactivate the settings.
• Use arrow keys to increase or decrease values in text fields.
• Save your settings to transfer them to another Mac.
• Touch Bar support for the newest MacBook Pros.
REQUIREMENTS
Dark mode requires OS X 10.10 Yosemite or later.
Remote configuration requires Gamma Board, sold separately.
…更多…
v6.2.1版本新功能
- In most computer display systems, images are encoded with a gamma of about 0.45 and decoded with the reciprocal gamma of 2.2. A notable exception, until the release of Mac OS X 10.6 (Snow Leopard) in September 2009, were Macintosh computers, which encoded with a gamma of 0.55 and decoded with a gamma of 1.8. In any case, binary data in still image files (such as JPEG) are explicitly encoded.
- . True hardware level control of your webcam. View changes in Real-time to your video as you move sliders and change other settings. Fully plug-and-play; Webcam Settings, automatically recognizes your USB webcam when it’s connected to your Mac. Automatically identifies various settings that your webcam supports.
To see all Mac key symbols, you need to select Show Emoji & Symbols option from the same language flag menu, or use a shortcut Control + Cmd + Space. Here, you’ll see all kinds of categories on the left: Emoji, Arrows, Currency Symbols, etc.
• Fixing an issue with some video adapter misreporting its serial number. (Gamma Control uses the serial number to identify screens when possible.)
• Reseting gamma curve more proactively on quit, instead of counting on macOS to do it for us. This does not change the behavior of the app but resolves a somewhat nebulous issue with video capture and/or playback with certain applications on particular hardware configurations.
…更多…
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| 文件名 | 版本 | 下载次数 | 上传时间 | 上传者 | 下载类型 | 操作 | |
|---|---|---|---|---|---|---|---|
| 0. | https://michelf.ca/projects/gamma-control/官网下载 | 最新 | - | - | 官方 | Mac | 点击下载 |
| 1. | Mac App Store官方下载价格:¥123元 | v6.2.1 | 71 | 2018-04-12 | Michel Fortin | Mac | 商店下载 |
| 2. | littoral.michelf.ca官方原版 | v6.0 | 69 | 2017-07-24 | 网友共享 | Mac 版 | 点击下载 |
| 3. | littoral.michelf.ca官方原版 | v6.1 | 83 | 2018-04-12 | 网友共享 | Mac 版 | 点击下载 |
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Who is responsible for applying gamma correction?If you are viewing these images on a Mac or Silicon Graphics (SGI) workstation(the latter is now obsolete), the operating system applies gamma correction foryou by loading a colormap into the display hardware that recomputes pixelvalues on their way to the monitor using the second formula given above. Inthis case, our older images will look fine to you. If you are viewing theseimages on a Windows PC, then you must configure your video card, browser, orexternal image viewer application to apply gamma correction (see below forinstructions). If your system cannot be configured to apply gamma correction,then you must download our images and correct them yourself, e.g. by applyingthe second formula in software. If you do none of these things, then our olderimages will look too dark to you.
How do I know if my system is applying gamma correction?Look at the two images above. The left image is not gamma corrected. It looksfine on an SGI, but too dark on a PC. In particular, on a PC the sky inthe upper-right corner looks inky, almost as dark as the trees. The rightimage has been gamma corrected to 1.7. It looks fine on a PC, but washed outon an SGI - so washed out that you can see noise from this early-model digitalcamera in the black jackets. On a Mac, the story is somewhere between thesetwo extremes.
How do I configure my system to apply gamma correction?If you have configured your browser to launch an external viewer like 'xv' todisplay your images, you can ask it to apply gamma correction for you. Forexample, if your browser is Netscape Communicator (or more recently, Mozilla'sFirefox), your image viewer is xv, and the gamma of your display monitor is2.0, then you can ask xv to apply gamma correction as it displays an image bychanging the invoking command in Netscape to 'image/*; xv -gamma 2.0 %s'. Tofind out the gamma of your monitor, look at the hardware specifications thatyou threw away on the day you unpacked the monitor. Some operating systems andprograms provide an interactive utility to help you determine your monitor'sgamma, typically by asking you to change the brightness of a gray patch untilit matches an adjacent checkerboard of black and white squares that, if yousquint to blur the checkerboard pattern, simulates a 50% gray. As mentionedearlier, most monitors have a gamma between 1.7 and 2.7. Fortunately, asmonitors are replaced by LCDs, the world is slowly converging on a monitorgamma of 2.5.
I don't use an external viewer. What else can I do?If you use your browser to display images, rather than an external viewerapplication, there is currently, and unfortunately, no way to configurebrowsers to apply gamma correction. In that case, you'll have to change thegamma of your entire system. If you use a PC, the 'Display' control panel may,for some video cards, allow you to reset your video card's gamma to compensatefor your monitor. If you use a PC, Linux, and XFree86, it has a program called'xgamma' that will allow for XServer-wide adjustment. (Thanks to Seth Nickellfor pointing this out.) If you use a Mac running OS 9, the Monitor controlpanel includes a way to set your display system's gamma. For Mac OS X, theColor branch of the Displays control panel will take you through a calibrationprocedure that lets you do this.
A subtlety: system gamma.Silicon Graphics workstation monitors have a gamma of 2.4, but they performgamma correction as if the monitor had a gamma of 1.7. This yields a residualgamma (as seen on the monitor) of 2.4 / 1.7 = 1.4. This is called the systemgamma, and it is intended to compensate for the fact that the images you areviewing typically represent brightly illuminated scenes, but you typicallyviewing them while seated in a dimly illuminated room, which changes thetransfer characteristics of your eye.
Another subtlety: quantization spaces.Macs perform gamma correction, as already noted. However, Macs assume that thevalues you write into the frame buffer are not proportional to the intensity ofthe scene you are rendering, but rather to a non-linear power of that scene.Specifically, they assumepixel_value = scene_intensity^(1/1.8).Under this assumption, the gamma correction they need to apply just before themonitor merely needs to make up the difference between this space and a spacethat is gamma-corrected for the monitor. Assuming the monitor has a gamma of2.5, their pre-monitor correction is thusdisplayed_intensity = pixel_value^(1.8/2.5).Actually, if you run the calibration procedure on a modern Mac, it will let youchoose between 1.8 in the foregoing equation (for the Mac world) and 2.2 (forthe PC world). Why the weird interpretation of frame buffer values? Becausethis non-linear space is closer to the way humans perceive brightness. In thisspace, quantization artifacts like banding are equally likely to beobjectionable at the dark and light ends of the grayscale. In a space whereframe buffer values are proportional to scene intensity, you'll see morebanding of light objects than dark objects.
The real catch: uneven standards.After decades of chaos, there are now accepted standards ('color profiles') forembedding information into image files saying whether or not the image has beengamma-corrected, and for what value of gamma. Unfortunately, these profilescan only be embedded into certain kinds of files - for example JPG and TIF, butnot GIF. Moreover, not all applications embed these profiles when they createimage files, and not all applications know how to read embedded profiles.Without knowing whether a particular image contains a color profile, andwhether a particular application is savvy to it, it's impossible to knowwhether or not you need to reset your display's gamma, and to what value. Evenamong images on a single web site, differing gammas may be present, dependingon what system they were authored on. For example, we in the Stanford ComputerGraphics Laboratory gradually moved from SGIs to PCs during 1995-2005, but weare now moving slowly to Macs. If we're working on the uncorrected display ofa PC, our old SGI images look dark to us. If we're on the corrected display ofa Mac, our old SGI images look fine to us, but our PC images look washed out.Worse, as we create new images, we are now unconsciously tuning them to includegamma correction so that they look acceptable on whatever machine we're on (PCor Mac). Even worse, if you use Macs, then Firefox and Safari performgamma correction differently. Look for example at the two versions ofbuddhist monks in thisPicasa Web Album.
How will it end?Fortunately (or unfortunately), PCs have (temporarily) taken over the world,including the world of high-performance 3D graphics. As they do, it becomesreasonably safe to assume that most people are looking at uncorrected displays.In this new world, images should be adjusted to include gamma correction. Ifyou are a creator of images, and your tools are a digital camera and Photoshop,color profiles are correctly embedded and interpreted. If your tools are a 3Drendering program, then (depending on the program) you might be computingso-called linear-luminance images. These images need to be gamma corrected fordisplay or they will look too dark. If you're on a Mac, and images produced byother people look washed out, crank up the room brightness a bit, therebychanging the adaptation of your eye, and they'll look better.
For more information.For a general introduction to the fascinating subject of gamma correction,refer to a computer graphics textbook such asFoley, van Dam, Feiner, and Hughes,Computer Graphics: Principles and Practice, second edition,Addison-Wesley. For a detailed treatment of gamma correction in broadcasttelevision systems, see Pearson, D.E., Transmission and Display ofPictorial Information, Halsted Press, 1975. For more about gammacorrection on computer displays, with particular attention paid to the Mac, seethis great article by Charles Poynton onGamma correction on the Apple Macintosh.