iPhone A7 Chip Teardown: Power-Dense Samsung Silicon

Illustration for article titled iPhone A7 Chip Teardown: Power-Dense Samsung Silicon

We've already seen inside the iPhone 5S and found out that its guts are blisteringly fast—but now iFixit has taken a very close look indeed at the A7 silicon that powers the new phone.


By using an Ion Beam Etcher, it's possible to take layers off a semiconductor and analyze how it's made. So that's what iFixit did, in conjunction with Chipworks. Here are some of the main discoveries:

  • First, a biggy: “We have confirmed through early analysis that the device is fabricated at Samsung’s Foundry. We suspect we will see Samsung's 28 nm Hi K metal Gate (HKMG) being used."
  • The distance between each of the chip's transistors is 114 nm, compared to the A6′s 123 nm.
  • That 9 nm difference—from a 28 nm process to a 32 nm process—means the same computational power can be squeezed into just 77 percent of the original area. But given the A7 is larger than the A6, it's clear where all that poke came from.
  • In total, the A7 packs one billion plus transistors onto a 102 square millimeter field.
  • Chipworks claims that the M7 section of the silicon is an NXP LPC18A1—part of the LPC1800 series of high-performing ARM Cortex-M3 based microcontrollers.
  • In fact, the M7 packs accelerometer, gyroscope, and magnetometer, and does some fancy math before neatly passing orientation data to the main chip.
  • The Wi-Fi module is exactly the same as that in the iPhone 5.
  • The 4G LTE modem uses two chips: a Samsung-fabricated LTE baseband processor and a Samsung DRAM module to retain carrier specific information.

And that's pretty much all the major news. If you wanna read more, though, head right over to iFixit for the full story. [iFixit]



Oh wait that makes the gizmodo article about apple beating samsung to 64bit look moronic and technically inept.