Intel will soon be releasing their latest processor, code named Westmere, built on 32nm technology. Architecturally, the processor will be similar to the Nehalem design introduced last year and marketed as Core i7. The big change, however, will be Intel's new 32nm fabrication technology. Semiconductor Insights was fortunate to obtain the desktop version of the processor early and perform an independent detailed analysis of the Westmere/Clarksdale's process technology. At 32nm, Intel is introducing their second generation of high-k metal gate technology as well as other interesting process innovations. That being said, Semiconductor Insights has yet to observe a metal gate technology in a commercial device from any other semiconductor manufacturer. So, where exactly are Intel's competitors in the 32nm race?
To this end, let's compare the two main processor companies, Intel and AMD, and the leading pure-play semiconductor foundry, TSMC. All data presented here was independently gathered by Semiconductor Insights. Since TSMC does not have a product per se, we analyzed devices from a fabless FPGA manufacturer using TSMC technology. FPGA makers are usually among the first adopters of new technology from foundries like TSMC, since smaller geometries allow them to include more logic elements in their product and increase the overall performance and flexibility of their design. Also, note that we did not include the IBM/Common Platform technology due to the limited amount of independent data at this time. However, it will be interesting to see how the relatively new technology alliance will fare in the future against the reigning champion of foundries, TSMC.
To better understand that future, it's sometimes helpful to look at the past. Table 1 shows the dates of introduction for the 90nm, 65nm, 45nm technology nodes as well as the upcoming 32nm node from our three manufacturers. We can see that Intel has consistently introduced a new process technology at the beginning of the year, every two years. This pace is dictated by Moore's law, a trend Intel has diligently followed since first observed by Intel's co-founder, Gordon E. Moore. Intel has been so regular in the launch of new technologies, we can almost safely predict that the next 22nm process from Intel will be ready around the beginning of 2012.
AMD has also stayed on track with Moore's law for the past tech nodes, introducing new processes during the same year but usually later than Intel. However, a period of more than two years is now expected between the introduction of AMD's 32nm technology and the previous 45nm node first seen in late 2008. This slowdown may be partly explained by the transfer of AMD's manufacturing operations to GlobalFoundries but is most likely a sign of how difficult it will be to keep up with Moore's law beyond the 32nm node.
TSMC's track record, while not as regular as the two processor companies, depended on the fabless manufacturer's product roadmap. A three-year gap was observed between the availability of 90nm and 65nm products, followed by an impressive 15-month cycle between 65nm and 45/40nm. With the help of intermediary process nodes slotted in between the major technology nodes, TSMC has been able to launch a new technology approximately every year, setting a rapid pace for the rest of the pure-play foundry industry to follow.
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