Intel Moves Up 32nm Production, Cuts 45nm

Vigile writes "Intel recently announced that it was moving up the production of 32nm processors in place of many 45nm CPUs that have been on the company's roadmap for some time. Though spun as good news (and sure to be tough on AMD), the fact is that the current economy is forcing Intel's hand as they are unwilling to invest much more in 45nm technologies that will surely be outdated by the time the market cycles back up and consumers and businesses start buying PCs again. By focusing on 32nm products, like Westmere, the first CPU with integrated graphics, Intel is basically putting a $7 billion bet on a turnaround in the economy for 2010."

Re:The 32nm processors use less power.

[RajivSLK]

most people already have computers

Really? Have an eyeopening look here:

http://www.economist.com/research/articlesBySubject/displayStory.cfm?story_id=12758865&subjectID=348909&fsrc=nwl

Computer ownership is really very low worldwide. Even the US has only 76 computers per 100 people. Keep in mind that includes people like myself who, between work and home use, have 4 computers alone.

Some other socking figures:
Italy 36 computers per 100 people
Mexico 13 computers per 100 people
Spain 26 computers per 100 people
Japan 67 computers per 100 people
Russia 12 computers per 100 people

And the billions of people in China and India don't even make the list.

Seems to me that there are a lot more computers Intel could be selling in the future. The market is far from saturated.

Re:Performance Is Overrated

[mephistophyles]

I wasn't around when they landed someone on the moon so I can't quite comment on that bit, but I can tell you what I (and the rest of my kind) use the extra processing power for:

Finite Element Analysis (simulating car crashes to make them safer before we crash the dummies in them).
Multibody Dynamics (Simulation of robot behavior saves a ton of money, we can simulate the different options before we build 10 different robots or spend a year figuring out something by trial and error)
Computational Fluid Dynamics (designing cars, jets and pretty much anything in between like windmills and how they affect their surroundings and how efficient they are)
Simulating Complex Systems (designing control schemes for anything from chemical plants, to cruise control to autopilots) Computational Thermodynamics (Working on that tricky global warming thing, or just trying to figure out how to best model and work with various chemicals or proteins)

This is just the uses (that I know of) that more raw power can help out in Mechanical Engineering. I still have to wait about an hour for certain simulations or computations to run and they're not even all that complex yet. The faster these things run (even a few percent increases) can save us tons of time in the long run. And time is money...

Intel plans US Plants to Manufacture 32nm Chips

[hydertech]

Intel announced today that it was investing $7bln to build new manufacturing facilities in the US to manufacture these chips.

The new facilities will be built at existing manufacturing plants in New Mexico, Oregon, and Arizona. Intel is estimating 7,000 new jobs will be created. BizJournals.com

Re:Performance Is Overrated

[Chabo]

Additional disclaimer: I'm not a CPU engineer, and this is still based on things I read on public websites.

I can't find the article, but Anandtech explained this well. Apparently the high-k+ process that's used in 45nm and smaller Intel chips make for incredibly low leakage currents.

I did, however, find a graph that shows total system power consumption moving from 65nm (Conroe) to 45nm (Penryn), at the same clock speed: http://www.anandtech.com/cpuchipsets/intel/showdoc.aspx?i=3137&p=6