Tag Archive for Google

| October 7, 2019
Comments Off on Quantum Supremacy

Quantum Supremacy

Quantum SupremacyThere are reports are that Google (GOOG) has demonstrated quantum supremacy. In quantum computing, quantum supremacy means that a quantum computer is able to perform a calculation that is practically impossible for a classical computer. Before we fear and weep for the western dream, ScienceAlert explains that we can’t be sure of the claim.

Shortly after the research article was uploaded to the NASA site it was withdrawn for unknown reasons. The news was originally broken by the paywalled Financial Times, which reported both seeing the paper and also that it was subsequently taken down. Now there are only copies of the original paper available online. Further, Google has not officially explained to anybody what’s going on, sparking no end of speculation online about what has or hasn’t happened.

Assuming the briefly released paper, is real – why is this important? Wired explains that the Google researchers used a quantum processor called Sycamore, with 54 qubits. It tackled a random sampling problem – that is, checking that a set of numbers has a truly random distribution. ScienceAlert says the experimental quantum processor took about 200 seconds to solve a particular computational problem.

As part of the experiment, they set a version of the same challenge to some powerful Google server clusters, as well as to the current world’s fastest supercomputer, the IBM-built Summit supercomputer at Oak Ridge National Lab. The state-of-the-art supercomputer would require approximately 10,000 years to perform the same task.

According to copies (PDF) of the vanished report,

This dramatic speedup relative to all known classical algorithms provides an experimental realization of quantum supremacy on a computational task and heralds the advent of a much-anticipated computing paradigm

Summit SupercomputerIn the Wired article, John Preskill, the Caltech professor who coined the term “quantum supremacy,” calls the breakthrough, if accurate, ”truly impressive achievement in experimental physics.” But he and other experts, and even Google’s own paper, caution that the result doesn’t mean quantum computers are ready for practical work. Professor Preskill explains, “The problem their machine solves with astounding speed has been very carefully chosen just for the purpose of demonstrating the quantum computer’s superiority.

Professor Preskill told Wired,  it’s unclear how long it will take quantum computers to become commercially useful; breaking encryption—a theorized use for the technology—remains a distant hope. “That’s still many years out,” says Jonathan Dowling, a professor at Louisiana State University and New Scientist said although that is impressive, there is no practical use for it.

Will Oliver, a quantum specialist at MIT, told Technology Review, the computing milestone is similar to the first flight of the Wright brothers at Kitty Hawk in aviation. He said it would give added impetus to research in the field, which should help quantum machines achieve their promise more quickly.

1904 Wright Flyer

New Scientist says there are plenty of hurdles left to overcome before quantum computing hits the big time. The author cites a number of steps:

For a start, the processors need to be more powerful. Google’s Sycamore quantum computer, consisted of only 54 qubits. For quantum computers to really come into their own, they will probably need thousands. Scaling up the number of qubits won’t be easy. Qubits must be isolated from vibrations as they can be easily disturbed.

Next quantum computers need error-correcting codes. Classical computers have mechanisms to make sure that when little mistakes happen they are automatically rectified.

The same will be needed for quantum computers, especially considering the delicate nature of qubits. The challenge now is to build a quantum computer that has quantum supremacy, as well as error-correcting codes.

The final, biggest step is to actually do something useful. Google’s quantum computer tackled a task specifically tailored  to prove quantum supremacy, not do anything useful.

New Scientist called the achievement impressive, there is no practical use for it. Ciarán Gilligan-Lee at University College London said, “We shouldn’t get too carried away with this … but there’s still a long way to go.

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This bench-marking task is a proof of concept. SkyNet is not coming –  yet.

Combining quantum with machine learning and AI may be a different story. But for a year or so we are probably safe. Unless of course, some TLA that is already using quantum computing made the paper disappear.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| September 15, 2018
Comments Off on What is Quantum Computing?

What is Quantum Computing?

What is Quantum Computing?The world of theoretical physics has been the domain of geniuses like Stephen Hawking and fictional characters such as The Big Bang Theory’s Sheldon Cooper. But now companies like Google (GOOG), IBM (IBM), and Intel (INTC) are building quantum computer systems, that may soon outperform even the fastest supercomputers in the world. So, it’s a good time to learn some basic quantum computing terms and concepts.

It’s physics

Quantum mechanicsQuantum Computing is based on Quantum Physics. Quantum Physics is the arm of modern physics that explains the nature and behavior of matter and energy on the atomic and subatomic levels. It is also called quantum theory and quantum mechanics. Quantum computers use quantum physics to compute.

Before quantum physics, “classical” physics explained the world around us (calculations of speeds, rotations, weights, forces …).  Then came Einstein who explained the “infinitely large”, the universe, time, big bang, black holes… But the classic mechanics did not explain everything and this is where quantum physics, steps in. The world of atoms, the infinitely small, does not work like the world that we, humans, see every day. The algebra story problems about a ball bouncing off a wall at 37 degrees and landing 43 feet away no longer apply in the world of quantum physics. Quantum computing devices use these newly discovered properties to perform computations using quantum bits, or qubits.

Classical computers

EinsteinPierre Pinna at IPFCOnline explains that the “classical” computer sitting on your desk, manipulates information (software, texts, pictures, videos, etc.). Inside your laptop, this information is made up of “1” and “0”. All computers have one (or more) micro-processors that manipulate the “0” and “1”, by applying the basic operations (addition, subtraction, multiplication) to “order” the 1’s and 0’s into software, texts, pictures, videos, etc.

The 1’s and 0’s are physically created by electric current inside transistors. Each transistor can be on or off, which indicates the 1 or 0 to be used to compute the next step in a program.

When the transistor is open, the electric current does not pass through the transistor and we say that we are in the state “0” and conversely if the transistor is closed, the electrical current can pass through it, we are in state “1”. The transistors inside the CPU can be combined into logic gates to perform logic operations like “OR”, “XOR”, “AND.” The classical computers 1’s and 0’s are called “bits.”

Quantum computers

Quantum bitsQuantum computers also handle “1” and “0” just like your laptop. But the information is no longer manipulated by transistors but by atomic and subatomic particles (electrons, protons, ions, photons, neutrons, etc.). You know, the stuff they taught in Mr. Birchmeier’s high school science class. Quantum computers don’t use bits; they use quantum bits (qubits). And that’s where quantum computing gets interesting – the subatomic world does not work like the physical world we live in.  Quantum physics explains how the subatomic world works.

Tristan Greene at TNW writes that qubits have extra functions that bits don’t. Instead of only being represented as a 1 or 0, qubits can actually be both at the same time. Mr. Greene writes that qubits, when unobserved, are considered to be “spinning.” Instead of referring to these types of “spin qubits” using ones or zeros, they’re measured in states of “up,” “down,” and “both.”

This lab at IBM houses quantum machines connected to the cloud.

The IPFCOnline article explains that to better understand all of this, we must see each particle as a wave and not a single physical element. The particles are then characterized by their “spin” to create a state called superposition.

Mr. Greene at TNW writes that quantum superposition in qubits can be explained by flipping a coin. We know that the coin will land in one of two states: heads or tails. This is how classical computers think. While the coin is still spinning in the air, the coin is actually in both states at the same time. Essentially until the coin lands, it has to be considered both heads and tails simultaneously.

Quantum computing use superposition

Observation theorySuperposition is based on Observation theory. Observation theory basically says the universe acts one way when we’re looking, another way when we aren’t. Mr. Pinna at IPFCOnline writes that with superposition, while we do not know what the state of any object is, it is actually in all possible states simultaneously, as long as we don’t look to check. To illustrate this theory, we can use the famous and somewhat cruel analogy of Schrodinger’s Cat using a cat in a box as being both alive and dead at the same time.

All of these sub-atomic activities make the quantum computer very sensitive to disturbances from the outside world. When quantum computers are disturbed they become unstable, and revert to “classical computers.” In order to keep the quantum properties of the system, it must be protected from the outside world. According to the article, this is typically done by cooling the quantum computer to temperatures very close to absolute zero (-273.145°C – colder than in space). Another factor when working with qubits is noise. The more qubits a system has, the more errors you get.

All of these factors make working with qubits incredibly difficult. These challenges are made worse by the unsustainable amount of electricity currently needed to generate quantum computing results. Reports are that one quantum computer burns about 20 megawatts of electricity — enough to power 20,000 households.

Therefore, the current state-of-the-art quantum computing theoretical speed gain is limited by the cost, size, and instability of the system. Right now, quantum computers aren’t worth the trouble and money they take to build and operate. A quantum computer is not going to run MS Word on your desktop.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| August 18, 2018
Comments Off on Will Climate Change Sink the Web?

Will Climate Change Sink the Web?

Despite claims to the contrary, climate change is real. Climate change will break critical parts of the Internet within 20 years. That is what a study by Paul Barford, a University of Wisconsin, Madison professor of computer science predicts.

Professor Barford presented his findings at IETF 102. IETF 102 was a meeting of the Internet Engineering Task Force Association for Computing Machinery, the Internet Society, and the Institute of Electrical and Electronics Engineers in Montreal. The study, “Lights Out: Climate Change Risk to Internet Infrastructure,” found that critical communications infrastructure could be submerged by rising seas in as soon as 15 years.

Conventional copper and fiber optic cables

Companies like Google, Microsoft, Facebook, and Cable and Wireless go through enormous costs and efforts to protect undersea cable spanning the continents but once that cable hits the shore it gets converted to conventional cables. The conventional copper and fiber optic cables buried decades ago, carry the signals from the landing points to the interior are not designed to withstand the inundation by saltwater caused by climate change.

Internet landing points that will be impacted by climate change

Popular Science reports that Professor Barford’s research found that climate change will impact more than 4,000 miles of buried fiber optic conduit. These conduits and internet cables will most likely be underwater and become inoperable due to exposure to damaging saltwater. Saltwater causes damage to the cables which reduces their ability to send signals. The cable landing stations where undersea cables connect the U.S. Internet to the rest of the world will also be vulnerable. The study also predicts that water will surround over 1,100 traffic hubs.

Unsersea fiber optic cable landing point susceptible to flooding

Major interruptions

Mr. Barford told Popular Science that this service interruption is likely to become a growing problem within the next 15 years. He warned that communications companies should begin implementing protective measures and solutions soon if they want to avoid major interruptions in the near future.

“Most of the damage that’s going to be done in the next 100 years will be done sooner than later,” says Dr. Barford, the keeper of the Internet Atlas, a comprehensive repository of the physical Internet — the buried fiber optic cables, data centers, traffic exchanges and termination points that are the nerve centers, arteries, and hubs of the vast global information network. “That surprised us. The expectation was that we’d have 50 years to plan for it. We don’t have 50 years.” He also notes “The landing points are all going to be underwater in a short period of time.”

The study is the first risk assessment of the impact of climate change on the U.S. infrastructure of the Internet. It reports that Miami, New York, and Seattle are among the areas where connectivity could be most affected. The Internet in these cities is at risk because cables carrying it tend to converge on a few fiber optic strands that lead to large population centers.

Fiber optic cable conduit susceptible to floodingBut the effects of climate changes would not be confined to those areas and would ripple across the Internet, potentially disrupting global communications. Many of the conduits at risk are already close to sea level and only a slight rise in ocean levels due to melting polar ice and thermal expansion will expose buried fiber optic cables to seawater.

No thought was given to climate change

Much of the infrastructure at risk is buried and follows long-established rights of way, typically paralleling highways and coastlines. The roots of the danger emerged inadvertently during the Internet’s rapid growth in the 1980s before there was widespread awareness of the Internet as a global grid or the massive threats of climate change. Professor Barford says, “When it was built 20-25 years ago, no thought was given to climate change.”

To reach this conclusion, the team combined data from the Internet Atlas and projections of sea level incursion from the National Oceanic and Atmospheric Administration (NOAA).

Fiber optic cableScience Daily says the findings of the study, serve notice to industry and government. “This is a wake-up call. We need to be thinking about how to address this issue.Mikhail Chester, the director of the Resilient Infrastructure Laboratory at the University of Arizona told National Geographic, This new study “reinforces this idea that we need to be really cognizant of all these systems because they’re going to take a long time to upgrade.

ISP responses to climate change

The impact of mitigation such as sea walls, according to the study, is difficult to predict. “The first instinct will be to harden the infrastructure,” Professor Barford says. “But keeping the sea at bay is hard. We can probably buy a little time, but in the long run, it’s just not going to be effective.”

US shore susceptible to flooding

The study called individual internet service providers. They found finding that AT&T (T), Verizon (VZ), and CenturyLink (CTL), at most risk. In response, AT&T spokesman Jeff Kobs told NPR,

AT&T uses fiber optic cable “designed for use in coastal areas as well as being submerged in either salt- or fresh-water conditions,… In certain locations where cabling will be submerged for long periods of time or consistently exposed, such as beaches or in subways, we use submarine underwater cabling.

Verizon spokeswoman Karen Schulz told NPR,

After Sandy, we started upgrading our network in earnest, and replacing our copper assets with fiber assets … Copper is impacted by water, whereas fiber is not. We’ve switched significant amounts of our network from copper to fiber in the Northeast.

She explained that Verizon’s focus on flood risk

really has less to do with sea-level change and more to do with general flooding concerns … For cable landing stations that are very close to the oceans and that have undersea cables, we specifically assess sea-level changes.

A representative of CenturyLink told Popular Mechanics they can handle the problem. The company’s PR rep said that CenturyLink networks are designed with redundancy and can divert traffic to alternate routes when infrastructure goes down.

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Donald Trump Still Doesn’t Believe in Climate ChangeThe Verizon and CenturyLink responses seem to totally miss the point.

The impact of large-scale Internet failures goes beyond Facebook and iTunes. The failure of the Internet would disrupt many real people’s day-to-day services like online banking, traffic signals, and railroad routing; the sharing of medical records among doctors and hospitals, and the growing “internet of things” that includes household appliances to regional grids of electric power production and transmission.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| March 10, 2018
Comments Off on Follow the Open Source Money

Follow the Open Source Money

 Matt Asay at Infoworld recently pointed out some interesting data on who really contributes to open source. Wikipedia, the most well-known open-source project, defines open-source software as software whose source code is published and made available to the public, enabling anyone to copy, modify and redistribute the source code without paying royalties or fees. Open-source code can evolve through community cooperation. These communities include individual programmers as well as large companies.

Open sourceAdobe developer Fil Maj used the GitHub REST API to pull public profile information from GitHub users. The REST API is a low-bandwidth protocol used on the internet that allows two software programs to communicate with each other. Using the API, Mr. Maj collected the company field from all 2,060,011 GitHub user profiles who were active in 2017 (“active” meaning ten or more commits to public projects). Using that data, Mr. Maj was able to pull the total number of corporate contributors to GitHub, with results that might surprise you.

Here are the ranking of GitHub contributors, with their total number of employees actively contributing to open source projects on GitHub:

RankCompanyEmployees Contributing
1Microsoft4,550
2Google2,267
3Red Hat2,027
4IBM1,813
5Intel1,314
6Amazon.com881
7SAP747
8ThoughtWorks739
9Alibaba694
10GitHub676
11Facebook619
12Tencent605
13Pivotal591
14EPAM Systems585
15Baidu584
16Mozilla469
17Oracle455
18Unity Technologies414
19Uber388
20Yandex351
21Shopify345
22LinkedIn343
23Suse325
24ESRI324
25Apple292
26Salesforce.com291
27VMware271
28Adobe Systems270
29Andela259
30Cisco Systems233

The author points out, this is not a perfect measure, but it is a much richer, more accurate data set for figuring out total contributors for any company. Even with that caveat in mind, we end up with many more corporate open source contributors than previous data suggested.

Microsoft’s contributions to open source

Microsoft's contributions to open sourceThe new data shows Microsoft (MSFT) is the number 1 open source contributor. Redmond has twice the number of contributors compared to its next nearest competitor. Remember Steve Ballmer‘s developers! developers! developers! meltdown?  For those of us that were around when Mr. Ballmer, the Microsoft CEO called open source as a “cancer” and “anti-American,” this is a remarkable change of heart for MSFT.

Red Hat

Red Hat (RHT) Mr. Maj’s data puts the open source leader among the top contributors. Red Hat has dramatically fewer engineers on its payroll than Google (GOOG) or Microsoft. As such, it’s doubly impressive that Red Hat would place so highly. Pretty much every engineer in the company works on open-source projects.

Amazon

 

Amazon logoAmazon (AMZN) Often considered an open source ne’er-do-well, Amazon comes in at No. 6 in the rankings. AMZN has nearly 900 open source contributors on staff. The article points out that Amazon has perhaps not publicly led the open source effort in the same way as Google and Microsoft have, but it remains a strong contributor to the projects that feed its developer community.

China is a net consumer of open source

Chinese companies like Baidu, Tencent, and Alibaba, which have long been perceived to be net consumers of open source, actually contribute quite a bit according to the new data.

Legacy firms

Legacy firms like Intel (INTC), Oracle (ORCL), Adobe (ADBE), and Cisco (CSCO) rank among the top 30 open source contributors reports InfoWorld.

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Color me suspicious, but have these firms really embraced open source. Have they just adapted their business model to usurp elements of open source to lay their proprietary code on top of it? This saves them the bother of writing new code and yet they can charge proprietary costs for software where they have reduced their development costs.

Tom Brady hanging high fiveAfter all, numbers don’t lie. Stats say that in 2014, half of the companies said they use open source in their product. Just one year later, the number grew to 78%. Consequently, as long as open source continues to enjoy its place in the sun, we should expect the Microsoft-open source bromance to continue.

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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| January 20, 2018
Comments Off on Browser Security Updates

Browser Security Updates

Browser Security UpdatesIf you bank, shop, or work on the Intertubes your security is changing. Your browser Security is changing because Symantec is selling its Website Security and related PKI business to PKI encryption solutions to DigiCert for nearly $1 Billion.

SSL and TLS logoExperts estimate that Symantec (SYMC) owns 40% of the SSL certificate market. SSL/TLS certificates are used to encrypt the connections between browsers and HTTPS-enabled websites. The certificates are used to verify that users are actually visiting the websites they intended to and not spoofed versions. Certificates are issued by organizations known as certificate authorities that are trusted by default in browsers and operating systems.

As a result of the sale, many firms are going to have to reissue SSL/TLS server certificates. The reissued certs will ensure browser security and make sure there is no impact on your online experiences. These certificates are essential to ensure secure, encrypted communication for user interaction on the Intertubes.

Google Chrome browser security

Google (GOOG) has led the effort to decrease the disruption that could come along with this change. Google posted a plan back in July of 2017 regarding Symantec-issued SSL/TLS server certificates.

• In March 2018 Google Chrome (Chrome 66 Beta) will show a warning for sites secured with SSL/TLS certificates issued before June 1, 2016. Your security is at risk and data encryption will function normally, but your transactions will be disrupted by a warning in Chrome.
• Google has also stated that all SSL/TLS certificates that had been issued by Symantec before December 1, 2017, will not be trusted starting in September 2018 (Chrome 70 Beta). Doing transactions at sites that have not been updated will put your security at risk, and you will get a warning in Chrome.

Mozilla Firefox

Mozilla, publisher of the Firefox web browser says that it intends to follow the same timeline proposed by Google.

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This change is a normal procedure for typical certificate renewal. There should be no service disruption when the new certificates are issued as long as your web browser is up to date. There is no reason to have an out-of-date browser anymore. All three major browsers will auto-update. Other keys to staying safe online include:

  • Always check for HTTPS when you plan on providing personal data to a website. Always check for HTTPS
  • Pay attention to any security warnings you receive when you visit a website. Although you can almost always trust the HTTPS you see in your browser URL, any additional warnings from your browser should show that there may be a problem with the connection, so you should proceed with caution.

Nearly 54% of all U.S. web browsers will be affected by these changes. Statista says that Chrome held almost 50% of the browser market share and Firefox held over 5% of the share in December 2017. 41% of Internet users are not covered by this change (Safari 32.7% and IE/Edge 9%).

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Ralph Bach has been in IT long enough to know better and has blogged from his Bach Seat about IT, careers, and anything else that catches his attention since 2005. You can follow him on LinkedInFacebook, and Twitter. Email the Bach Seat here.

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