AI's Dirty Little Secret
Artificial Intelligence (AI) is all the buzz nowadays.
Many experts believe it can be a boon for the world – if it doesn’t destroy it first.
It has developed to the point where it can write articles and software, compose music, create award-winning artwork, replace actors, or be a virtual companion.
This rapid advancement has led to concerns that AI will wipe out jobs or even take over the world. Or maybe not.
But there is one concern that is indisputable: it is adding to our carbon emission woes.
Behind the scenes are "vast data centers capable of running A.I. systems," which in turn requires
more power and water for cooling “as Google and every other tech company in the AI arms race speed to build new data centers.”
But there is an option to increase the efficiency of data centers: better timing.
Meta and NVIDIA found that a synchronization improvement of 80x made the distributed database run 3x faster - "an incredible performance boost on the same server hardware, just from keeping more accurate and more reliable time." This resulted in reduced power consumption and cooling. 
This project convinced Meta, NVIDIA, and other like-minded colleagues to set up the Open Compute Project Time Appliances Project (TAP). Their motto: "Time is a key element to get the highest efficiency in a distributed system."
Like it or not, AI is coming. Better timing has to come along too.

Last Week's Theme: The World Changes Forever

• Speaking of Time Appliances Project: check out our "Quantum Time Transfer" presentation.
• And speaking of AI, check out our interview with Vontarious Falls, an expert in AI systems. For interesting perspectives on AI and the world of high technology, you can subscribe to The Art of Tech newsletter.
• No summer break for our team, as we work hard on new proposals and new IP.
• Following up from meetings at World of Quantum, Q4I, Quantum 2.0 Conference and European Navigation Conference, with new partnerships in work.
• Preparing for presentations at APSCC in October and the International Timing and Sync Forum in November.

• This “Quantum and Weapons Development” article discusses how the government took a major role in spurring quantum advancements after the success of the Manhattan Project.
• The mass failure of nearly 500 drones at a drone display in Australia may have been caused by losing GPS reception.
• A CNBC report on “How China is threatening US GPS dominance” noted that “in 2020, China launched the last satellite needed to complete its own global system called Beidou... Since then, the influence of Beidou has grown, with an estimated 1.1 billion people now using the system.”
• In light of recent drone attacks within Russia, areas around St. Petersburg and other areas of Russia have seen “a significant increase in GPS, perhaps GNSS, disruption since the first of June."
• Which is the correct term — “quantum networking” or “quantum communications or "quantum internet"?” While sometimes used interchangeably, there is a subtle difference.

• Euroconsult, September 11 – 15, Paris, France
• APSCC, October 10 – 12, KL, Malaysia
• ITSF, Oct 30 – Nov 2, Antwerp, Belgium
• UK National Quantum Technologies Showcase 2023, Nov 2, London, UK
• SLUSH, Nov 30 – Dec 1, Helsinki, Finland

So how does better timing improve the efficiency of data centers?
The technical answer: better timing precision reduces surge events in databases, eliminates centralized nodes, and reduces the effort to work with the database.
The simpler answer: it helps reduce the read and write times for many distributed users.
Better synchronization allows these users to efficiently access the information across one large, or many distributed, servers.
And as AI grows along with our insatiable need for data, there is a trend from huge hyperscale data centers to large numbers of point of presence micro data centers (POPs). 
And these distributed data centers need better synchronization than GPS can deliver. 

To learn more, please email us or schedule a meeting here.