A Look at Photonic Clocking

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Posted by ScuttleMonkey on Saturday September 17, 2005 @01:58PM from the i-want-my-100ghz-processor dept.

zymano writes "In an article on the Electronic Engineering Times site James Siepmann shares a few thoughts about Photonic Clocking. Siepmann states: 'Copper interconnects are reaching their limit as data-transmission bandwidth and processor speed continue to rise. [..] Photonic clocking not only solves the limitations of electronic clocking, but also reduces jitter, skew, delay, crosstalk and power consumption while maintaining clock signal integrity for longer distances.'" Are Photonic Processors the next logical step, or will the almighty buck shuffle them aside because of cost?

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What? by scheme · 2005-09-17 14:12 · Score: 4, Insightful

Are Photonic Processors the next logical step, or will the almighty buck shuffle them aside because of cost?

If photonic processors go into widespread usage, it will probably be because of the almighty buck and companies deciding that they can make more of it by producing photonic processors.

Profits and competition are the main reason for a lot of the recent advances in processor performance. Look at the processor introductions back when 486 and pentium processors were around and Intel didn't have any credible competition.

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Not to mention... by Sensible+Clod · 2005-09-17 14:57 · Score: 3, Insightful

clockless CPU's, which of course--wait for it--don't need a clock. (I realize that other system parts may still need it.) Every once in a while, I hear a tiny thing about clockless chips, but it seems like the Big 2 don't want anything said about them.

Reminder: this comment is on topic.

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Photonic logic could work.....but by postbigbang · 2005-09-17 15:30 · Score: 3, Insightful

Consider the semiconductor. The way we work today is based on binary elemental logic-- on, off, unknown/neutral. Your basic light switch (SPST) is your basic computer, but it can't count too well.

The evolved state of computing uses Boolean logic to mosh states together into integer algebraic, then other kinds of math transformations.

Now, consider what light does, and how it flows. Light (actually this segment of the electromagnetic spectra) has different frequencies, at about the same data rate depending on media. No information there, except frequency differences and blendings of frequencies... lambda moshing.

You can modulate light, like any other electromagnetic phenomena. You can modulate information, therefore, onto light. It's done all the time. By adding information, you can blend things together, then demodulate them to see what happened as the change in information. This modulation mimics how ALUs/accumulators/CPUs work with logic states in some ways, but now we have to multiply the effect to get to significant digits and significant logic handling-- math by light modulation and the devices that can do that. But not densely, so far, in the calculative/logic-state change tracking sense.

What of these devices-- aye, thar's the rub. Is there an advantage to using light to do math? Not yet, really. It doesn't meet the state change efficiency model. One day, it might. Today, we lack the ability to make things dense enough. That's why photonic logic may fall short of expectations.

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