Imac As A Display For Mac Pro ((BETTER))
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Apps that were open on your iMac when entering target display mode remain open in target display mode. For example, if you begin playing music on your iMac and then enter target display mode, the music doesn't pause on your iMac.
AirPlay to Mac also allows users to extend or mirror an Apple device's display to a Mac, and we've confirmed this works on a Mac-to-Mac basis. This makes it possible for supported Macs to use another Mac as an external display, and with AirPlay to Mac working both wirelessly or with a wired connection, Apple has come close to reviving Target Display Mode, which allowed 2009 to 2014 iMac models to serve as another Mac's external display.
Target display mode is an Apple solution to use iMac as a monitor with another Mac in a wired setup. It was a very popular feature for years, but when Apple launched its Retina iMacs starting in late 2014, support was dropped.
Pair iMac with an external monitorThis might seem obvious but another choice is to pair your iMac with an external monitor and choose which one you want to be the primary display and secondary display.
The new iMacs feature what looks like a really nice display. At 4.5K (4480 x 2520), the 24-inch Retina panel is sharper than the 24-inch 4K LG UltraFine and features P3 wide color, True Tone, 500 nits brightness, and anti-reflective coating, all in a super-thin 11.5 mm chassis.
Even though AirPlay requires you to enter a four-digit code displayed on the AirPlay receiver Mac, it still might be a good idea to tick the Require password box and enter a password. This adds another layer of protection to help prevent unauthorized access to your Mac.
On newer Macs, go to the same Displays pane in the System Preferences (System Settings on macOS Ventura and above) app, but this time hold down the option key and click and drag the display to the left or right as desired.
Built from a single aluminum extrusion with a square footprint of just 7.7 inches and a height of only 3.7 inches, Mac Studio takes up very little space and fits perfectly under most displays. Mac Studio also features an innovative thermal design that enables an extraordinary amount of performance. The unique system of double-sided blowers, precisely placed airflow channels, and over 4,000 perforations on the back and bottom of the enclosure guide air through the internal components and help cool the high-performance chips. And because of the efficiency of Apple silicon, Mac Studio remains incredibly quiet, even under the heaviest workloads.
The compact design of Mac Studio puts an extensive array of essential connectivity within easy reach. On the back, Mac Studio includes four Thunderbolt 4 ports to connect displays and high-performance devices, a 10Gb Ethernet port, two USB-A ports, an HDMI port, and a pro audio jack for high-impedance headphones or external amplified speakers. Wi-Fi 6 and Bluetooth 5.0 are built in as well.
Studio Display brings a stunning all-screen design with narrow borders and a refined, all-aluminum enclosure that houses an advanced set of features in a slim profile. Its built-in stand allows the user to tilt the display up to 30 degrees. To meet the needs of a variety of workspaces, Studio Display also offers a tilt- and height-adjustable stand option with a counterbalancing arm that makes the display feel weightless as it is adjusted. A VESA mount adapter option is also available, and supports landscape or portrait orientation for even more flexibility.
Featuring the A13 Bionic chip, Studio Display delivers amazing experiences with its highly advanced camera and audio system. The ultimate video conferencing display, it includes a 12MP Ultra Wide camera with Center Stage, a feature that automatically keeps users centered in the frame as they move around for even more engaging video calls.
Studio Display also includes a studio-quality, three-microphone array with an especially low noise floor for crystal-clear calls and voice recordings. It also features a high-fidelity six-speaker sound system, the best ever created for Mac, delivering an unbelievable listening experience. Four force-cancelling woofers minimize distortion and produce bold, articulate bass, and two high-performance tweeters create accurate mids and crisp highs. The speakers also support spatial audio for music and video with Dolby Atmos, creating a truly cinematic viewing experience. Altogether, Studio Display has the best combination of camera and audio ever in a desktop display.
Studio Display has three USB-C ports that deliver speeds up to 10Gb/s to connect high-speed peripherals, storage, and networking right into the display. A Thunderbolt port enables users to connect Studio Display and any connected peripherals to their Mac with a single cable. The same cable also delivers 96W of power to a Mac notebook, allowing Studio Display to even fast-charge a 14-inch MacBook Pro. And up to three Studio Displays can be connected to MacBook Pro, creating a powerful edit bay or animation workspace.
If you have both a MacBook and an iMac, you can use the iMac as a secondary display for the MacBook, or use an iMac as a display for another iMac. This gives you a bigger screen without needing to buy another screen.
Retina Display is a brand name used by Apple for its series of IPS LCD and OLED displays that have a higher pixel density than traditional Apple displays. Apple has registered the term "Retina" as a trademark with regard to computers and mobile devices with the United States Patent and Trademark Office and Canadian Intellectual Property Office. The applications were approved in 2012 and 2014 respectively. The Canadian application cited a 2010 application in Jamaica.
The Retina display debuted in 2010 with the iPhone 4 and the iPod Touch (4th Generation), and later the iPad (3rd generation) where each screen pixel of the iPhone 3GS, iPod touch (3rd generation), iPad 2 was replaced by four smaller pixels, and the user interface scaled up to fill in the extra pixels. Apple calls this mode HiDPI mode. In simpler words, it is one logical pixel = four physical pixels. The scale factor is tripled for devices with even higher pixel densities, such as the iPhone 6 Plus and iPhone X. The advantage of this equation is that the CPU "sees" a small portion of the data and calculates the relative positions of each element, and the GPU renders these elements with high quality assets to make the output much sharper and clearer. The goal of Retina displays is to make the text and images being displayed extremely crisp, so that pixels are not visible to the naked eye or at viewing distance. This allows displays to rival the smooth curves and sharpness of printed text and immediacy of photographic prints.
The Retina display has since expanded to most Apple product lines, such as Apple Watch, iPhone, iPod Touch, iPad, iPad Mini, iPad Air, iPad Pro, MacBook, MacBook Air, MacBook Pro, iMac, and Pro Display XDR, some of which have never had a comparable non-Retina display. Apple uses various marketing terms to differentiate between its LCD and OLED displays having various resolutions, contrast levels, color reproduction, or refresh rates. It is known as Liquid Retina display for the iPhone XR, iPad Air 4th Generation, iPad Mini 6th Generation, iPad Pro 3rd Generation and later versions, and Retina 4.5K display for the iMac.
When introducing the iPhone 4, Steve Jobs said the number of pixels needed for a Retina display is about 300 PPI for a device held 10 to 12 inches from the eye. One way of expressing this as a unit is pixels-per-degree (PPD) which takes into account both the screen resolution and the distance from which the device is viewed. Based on Jobs' predicted number of 300, the threshold for a Retina display starts at the PPD value of 57 PPD. 57 PPD means that a tall skinny triangle with a height equal to the viewing distance and a top angle of one degree will have a base on the device's screen that covers 57 pixels. Any display's viewing quality (from phone displays to huge projectors) can be described with this size-independent universal parameter. Note that the PPD parameter is not an intrinsic parameter of the display itself, unlike absolute pixel resolution (e.g. 1920×1080 pixels) or relative pixel density (e.g. 401 PPI), but is dependent on the distance between the display and the eye of the person (or lens of the device) viewing the display; moving the eye closer to the display reduces the PPD, and moving away from it increases the PPD in proportion to the distance.It can be calculated by the formula
In practice, thus far Apple has converted a device's display to Retina by doubling the number of pixels in each direction, quadrupling the total resolution. This increase creates a sharper interface at the same physical dimensions. The sole exception to this has been the iPhone 6 Plus, 6S Plus, 7 Plus, and 8 Plus, which renders its display at triple the number of pixels in each direction, before down-sampling to a 1080p resolution.
The displays are manufactured worldwide by different suppliers. Currently, the iPad's display comes from Samsung, while the MacBook Pro and iPod Touch displays are made by LG Display and Japan Display Inc. There was a shift of display technology from twisted nematic (TN) liquid-crystal displays (LCDs) to in-plane switching (IPS) LCDs starting with the iPhone 4 models in June 2010.
Apple markets the following devices as having a Retina display, Retina HD display, Liquid Retina display, Liquid Retina XDR display, Super Retina HD display, Super Retina XDR display or Retina 4K/5K/6K display:
Reviews of Apple devices with Retina displays have generally been positive on technical grounds, with comments describing it as a considerable improvement on earlier screens and praising Apple for driving third-party application support for high-resolution displays more effectively than on Windows. While high-dpi displays such as IBM's T220 and T221 had been sold in the past, they had seen little take-up due to their cost of around $8400. 1e1e36bf2d