AMD's Ontario APU will be launched early 2011 using TSMC's 40nm bulk process. It's the first incarnation of AMD's new APU strategy of combining CPU and  GPU on the same die.

Striking is how very small the 40 nm Bobcat cores are, especially when compared those of the 45 nm Atom cores. At only 4.6 mm2 the Bobcat cores are less than half the size of the 9.7 mm2 Atom cores. It's not only the core logic, also the 512MB L2 caches of Ontario are significantly smaller as the equal sized Atom caches: 3.0 mm2 versus 4.4 mm2.

How is this possible? Have a look at the detailed  specifications of both CMOS processes. The TSMC 40nm document is a very extensive report from UBM Tech- Insight. It contains detailed photographs and measurements of an FPGA which is manufactured in TSMC's 40nm process. The second one stems from INTEL's own Technology Journal.

                                                TSMC's  40 nm process

                                                INTEL's  45 nm process

The most important process parameters which determine how dense you can route your circuits on silicon are given in the table at the right.

The contacted gate pitch  determines the minimum distance at which you can put two transistors together. This is especially important in very dense regular designs like SRAM arrays. Both Intel and TSMC claim a minimum contacted gate pitch of  160nm. (The UBM report shows a 167nm pitch)

More important however for dense routing is the metal interconnect which wires all the transistors together in actual circuits. It is here where TSMC excels. The first metal layer (M1), has a wire pitch of just 120nm, far smaller as the 160 nm pitch of Intel's process.

In fact, the 120nm is not far from the 112.5 nm metal 1 pitch of Intel's 32nm process.
This interconnect pitch is the hardest to achieve feature of the entire process. It requires the most from the lithography equipment.

120 versus 160 nm means that the routing density is about (160/120)² = 1.78 times higher for the TSMC process which is clearly demonstrated in the ratio of the CPU core sizes. For dense regular designs like cache memory the interconnect is less important. Still the TSMC cache sram is  ~1.45 times denser.

This certainly also explains why the large GPU's from ATI and NVidia can reach such incredible transistor densities compared to the numbers where used to from the CPU world.