Intel's Ivy Bridge series of CPUs has been the topic of many rumors and leaks recently, but its die layout has not been disclosed yet. That did not stop Hiroshige Goto, contributor for PC Watch ...

Die shots of an Arrow Lake desktop CPU have been published online, revealing the inner design changes Intel has made to Arrow Lake, including its all-new chiplet (tile)-based design and ...

These increases were possible thanks in part to a higher power limit and a maturing Intel 7 manufacturing process, though Intel told us that optimizing the layout of the CPU die and "improving the ...

AMD and Intel have taken very different approaches to increasing the core counts of their processors. In the case of Team Red and its Ryzen CPUs, it went down a chiplet route, putting a block of ...

Hiroshige Goto, contributor for PC Watch that is known for detailed schematics of dies estimated the layout of Ivy Bridge silicon. Ivy Bridge is Intel’s brand new multi-core processor silicon ...

Today, in the Kaby Lake mobile processor, more die area is dedicated to graphics and media processing than to the CPU (see Kaby Lake die layout below). Intel's mobile Kaby Lake (7th Gen. Core ...

Intel’s new desktop CPUs are radically different than the Intel CPUs you’re used to. Today marks the launch of Arrow Lake, the company’s latest architecture for desktop processors, formally ...

Intel Intel’s upcoming Nova Lake-S desktop CPUs, rumored to launch in 2026, could introduce a brand-new LGA 1954 socket, marking yet another socket change for the company’s consumer platform.

A look at the layout of Intel’s 7th-generation Core i7 die; a significant part of the footprint is the Intel HD Graphics core. | Photo courtesy Intel ...

Intel's P55 can be seen as an evolution of the AMD topology shown previously, with the graphics hub and memory hub functionality all moved right onto the processor die.

The weaving was based on a die shot of the original Intel Pentium processor from the early 90s containing around three million transistors and fabbed using a 500nm process.