Intel yesterday announced its 10th-generation Ice Lake chips, likely to see their Apple debut in next year’s MacBook Pro models.
Six of the new chips are of the class used in the 13-inch MacBook Pro and look set to offer dramatically improved performance in video encoding in particular…
MacWorld’s Jason Cross took a look at what we can likely expect and said that the headline numbers aren’t likely to be reflected across most real-life usage.
However, there’s much better news for video encoding.
Before you get all excited about the next round of MacBooks being 18 percent faster than the ones sold today (and much more in select tasks), get ready for some bad news. That big IPC boost is somewhat offset by the fact that these 10th-generation chips have significantly lower base and boost clocks than the Amber Lake and Coffee Lake-U chips they are replacing […]
In PCWorld’s tests, the new 10th-generation processors perform just a few percent faster in many tasks, but short “bursty” synthetic tests like Geekbench show about 10 percent better single-core performance and 20 percent better multi-core performance.
Graphics performance, too, should be impressive.
Quick Sync video compressions is more than 30 percent faster, as is AES encryption and other tests optimized for every wide vector operations.
If Apple puts these chips in a MacBook, we expect most day-to-day tasks to feel about the same as the current generation, but compressing or decompressing large files and encoding video to certain formats should be a lot speedier.
Plus Ice Lake chips support Wi-Fi 6.
Real-world game tests using World of Tanks Encore and Counter-Strike: GOdon’t show quite that same performance gap, but the new chips still deliver a greater than 50 percent boost in real-world graphics performance […]
MacBooks built with Ice Lake CPUs should be all ready for that new Pro Display XDR monitor. The graphics engine has three display pipes that support DisplayPort 1.4 HBR3 and HDMI 2.08, plus HDR10 and Dolby Vision. You’ll be able to hook up three simultaneous 4K displays at 120Hz, a pair of 5K displays at 60Hz, or a single 8K display at 30Hz.
The only bad news is the chips won’t hit the market until the last quarter of the year, meaning we likely won’t see them in the anticipated 16-inch MacBook Pro this year. That said, I don’t have a massive need myself for the limited performance improvements, so may still press the button this year.